CN116645116B - Painting and calligraphy collection traceability system based on block chain - Google Patents

Abstract

The invention relates to the technical field of article tracing, in particular to a block chain-based painting and calligraphy collection tracing system, which comprises the following components: the matrix module is capable of bearing painting and calligraphy solid media; the embedded module is used for recording and marking the information of the matrix module; the cataloging module is used for editing the data and inputting the data into the corresponding embedding module; the matching module is used for reading in a preset reading mode through an embedded module in the matrix module and forming reading data; the server is used for recording the written data, comparing the read data with the written data and outputting the comparison result as tracing information; compared with the prior art, the invention has the beneficial effects that the chip and the painting and calligraphy work medium are embedded by arranging the modules, and the information is input into the chip, so that the anti-counterfeiting performance of the painting and calligraphy work is effectively improved, and the accuracy of the tracing result is improved.

Description

Painting and calligraphy collection traceability system based on block chain

Technical Field

The invention relates to the technical field of article tracing, in particular to a block chain-based painting and calligraphy collection tracing system.

Background

The trace and anti-counterfeiting of the painting and calligraphy collection serving as a high-value artwork is a main requirement of the artwork industry in recent years, and when the artist finishes creating the work, the trace and painting collection can mark the work with exclusive labels, authentication information, introduction of individuals to the work and the like through the trace and anti-counterfeiting chip; the Tibetan can confirm whether the trace is the true trace of the artist through tracing the source code; the platform provides a traceability technology, an authentication mode and a transaction channel. The method or the process of implanting the painting and calligraphy collection into the chip is protected.

Chinese patent application publication No.: CN110941611B discloses a method for implementing an identification analysis system based on a blockchain technology and an identification coding technology, which comprises the steps of a, establishing a consensus node mechanism; B. performing on-chain deployment by utilizing an intelligent contract technology to ensure the identification rule; C. generating a data tree management mode for producing the full link; D. establishing a component model; E. inquiring the component model; if the result is inquired, directly entering the step G, otherwise, entering the step F; F. performing intercommunication analysis of the identification system; G. and outputting the identification information. The method can effectively strengthen the management efficiency of the identification data, unifies the identification codes, builds a connection rail with a national identification analysis system, realizes the identification information management of all elements and all links of the industrial Internet identification analysis ecological ring, and forms an interconnection and intercommunication data ecological chain between other identification systems.

However, the above method has the following problems: the entity medium cannot be traced.

Disclosure of Invention

Therefore, the invention provides a block chain-based painting and calligraphy collection traceability system, which is used for solving the problem that the traceability result is inaccurate because the entity medium cannot be traced in the prior art.

In order to achieve the above purpose, the invention provides a block chain-based painting and calligraphy collection traceability system, which is characterized by comprising: a plurality of base member modules, a plurality of embedding module, catalog module, matching module and server, wherein:

the matrix module is capable of bearing painting and calligraphy solid media;

the embedding module is embedded into the corresponding matrix module by a preset marking strategy and is used for recording and marking the information of the matrix module;

the compiling module is connected with the embedding module under the compiling strategy and is used for compiling data to form writing data and inputting the writing data into the corresponding embedding module;

the matching module is connected with the matrix module under a reading strategy and used for reading in a preset reading mode through the embedded module in the matrix module and forming reading data;

the server is connected with the cataloging module and the matching module and is used for recording the writing data, comparing the reading data with the writing data and outputting a comparison result as tracing information;

the preset marking strategy is to embed a preset number of chips at preset positions of the matrix module; the method comprises the steps that the chip is marked according to the number of chips in a single matrix module to form marking information and edit information in the chip; the reading strategy is to read the marking information in each chip according to the number of chips in the single matrix module;

wherein, for a single embedded module, it is composed of several chips embedded in the corresponding matrix module, and the information stored therein includes a portion capable of being stored and read and a portion capable of being read.

Further, the matrix module brings each chip into a corresponding position under the preset marking strategy, and the matrix module is divided into a wet operation matrix module and a dry operation matrix module;

the wet operation matrix module is subjected to wet forming under the preset marking strategy, and the matrix module comprising a plurality of base layers is formed; the dry operation matrix module is subjected to dry forming under the preset marking strategy, and the matrix module comprising a single base layer is formed;

wherein the wet forming comprises soaking, steaming, pulping and papermaking for a plurality of times, and the dry forming comprises braiding.

Further, for the embedded module corresponding to the wet operation matrix module, setting a waterproof strategy under the preset marking strategy to form a waterproof integrated chip;

the waterproof strategy is used for wrapping the waterproof shell, positioning and embedding the waterproof strategy into a preset position when the wet operation matrix module performs the paper making for a plurality of times, and the waterproof integrated chip can be bent for a preset angle under the preset marking strategy.

Further, the waterproof integrated chip includes:

a waterproof case made of a waterproof material for preventing liquid from flowing into the inside of the chip;

a memory chip wrapped by the waterproof case for storing the write data;

the induction antenna is connected with the storage chip and used for carrying out short-distance communication with the cataloging module and the matching module;

wherein the waterproof shell and the matrix module are the same color, and the pigment coloring rate of the waterproof shell is lower than that of the matrix module;

the storage chip is free from structural change at a preset temperature, and can store when the temperature is reduced to room temperature, wherein the preset temperature is the corresponding working temperature of pressing, brushing and/or drying the rice paper.

Further, for the wet working matrix module including a plurality of layers, each corresponding embedded module is respectively embedded in an interlayer formed by any two adjacent layers.

Further, for the single matrix module, the corresponding embedded module stores chip number information to mark the number of chips in the matrix module.

Further, the matching module detects the single matrix module under the reading strategy, and searches all chips in the matrix module according to the number of chips in the single matrix module.

Further, for each of the individual base modules, information which can be stored once and cannot be edited again is stored in each of the corresponding embedded modules, and the information is written into the embedded module by the catalog module when the embedded module is sealed in the base module and cooled to room temperature.

Further, when the matching module reads all the chips in the single matrix module, coding is performed according to the information of the chips, the identification analysis system sends the converted digital code to the server, the server compares the digital code with the blockchain database information of the node, whether the digital information corresponding to the digital code is stored in the database is judged, and if the digital information is not stored in the database, the query application of the disorder identification strategy is executed.

Further, when the server executes the disorder recognition strategy, the codes corresponding to the chips in the single matrix module are rearranged and combined to form a plurality of disorder codes, the codes are searched in a database, and if all the codes are in the database, the server judges that the painting is an abnormal painting.

Compared with the prior art, the invention has the beneficial effects that the chip and the painting and calligraphy work medium are embedded by arranging a plurality of matrix modules, a plurality of embedding modules, an cataloging module, a matching module and a server, and information is input into the chip, so that the anti-counterfeiting performance of the painting and calligraphy work is effectively improved, and the accuracy of a tracing result is improved.

Further, by means of embedding the chip in the process of forming the matrix module, the integrity of the chip is effectively improved, and meanwhile, the chip cannot be modified, so that the accuracy of a tracing result is further improved.

Further, through the mode of parcel waterproof case, increase the waterproof performance of chip, simultaneously, promote the anti bending property with the chip in order to deal with multiple environment, when effectively promoting the tolerance of chip, further promoted the accuracy of traceability result.

Further, the chip is manufactured by arranging the waterproof shell, the storage chip and the induction chip, so that the accuracy of the tracing result is further improved while the tolerance performance of the chip is effectively improved.

Further, the mode of carrying out layering embedding to multilayer structure's rice paper divides the chip to establish in the different positions of rice paper, when effectively promoting the protection of rice paper to the chip, makes the chip be difficult to by removing to the accuracy of traceability result has further been promoted.

Furthermore, by marking the number information of the chips in the chips, the chips in the single painting and calligraphy works are linked, so that the anti-counterfeiting capacity of the painting and calligraphy works is effectively improved, and the accuracy of the tracing result is further improved.

Furthermore, by combining the codes in the chip with the server, the anti-counterfeiting capacity of the painting and calligraphy works is effectively improved, and meanwhile, the accuracy of the tracing result is further improved.

Drawings

FIG. 1 is a schematic diagram of a block chain based painting and calligraphy collection traceability system of the present invention;

FIG. 2 is a schematic diagram of chip embedding of a multi-layer Xuan paper according to an embodiment of the present invention;

wherein: 1, a chip; 11, an interlayer chip; 2, rice paper; 21, a first layer of rice paper; 22, a second layer of rice paper; 23, third layer of rice paper.

Detailed Description

In order that the objects and advantages of the invention will become more apparent, the invention will be further described with reference to the following examples; it should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present invention, and are not intended to limit the scope of the present invention.

It should be noted that, in the description of the present invention, terms such as "upper," "lower," "left," "right," "inner," "outer," and the like indicate directions or positional relationships based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the apparatus or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to the specific circumstances.

Referring to fig. 1, which is a schematic structural diagram of a block-chain-based painting and calligraphy collection tracing system of the present invention, the block-chain-based painting and calligraphy collection tracing system is characterized by comprising: a plurality of base member modules, a plurality of embedding module, catalog module, matching module and server, wherein:

the matrix module is capable of bearing painting and calligraphy solid media;

the embedding module is embedded into the corresponding matrix module by a preset marking strategy and is used for recording and marking the information of the matrix module;

the compiling module is connected with the embedding module under the compiling strategy and is used for compiling data to form writing data and inputting the writing data into the corresponding embedding module;

the matching module is connected with the matrix module under a reading strategy and used for reading in a preset reading mode through an embedded module in the matrix module and forming reading data;

the server is connected with the cataloging module and the matching module and is used for recording the written data, comparing the read data with the written data and outputting the comparison result as tracing information;

the preset marking strategy is to embed a preset number of chips at preset positions of the matrix module; the method comprises the steps of marking chips according to the number of chips in a single matrix module to form marking information and editing information in the chips; the reading strategy is to read the mark information in each chip according to the number of chips in a single matrix module;

wherein, for a single embedded module, it is composed of several chips embedded in the corresponding matrix module, and the information stored therein includes a portion capable of being stored and read and a portion capable of being read.

Compared with the prior art, the invention has the beneficial effects that the chip and the painting and calligraphy work medium are embedded by arranging a plurality of matrix modules, a plurality of embedding modules, an cataloging module, a matching module and a server, and information is input into the chip, so that the anti-counterfeiting performance of the painting and calligraphy work is effectively improved, and the accuracy of a tracing result is improved.

Specifically, under a preset marking strategy, the matrix module brings each chip into a corresponding position, and the matrix module is divided into a wet operation matrix module and a dry operation matrix module;

the wet operation matrix module is subjected to wet forming under a preset marking strategy, and a matrix module comprising a plurality of base layers is formed; the dry operation matrix module is subjected to dry forming under a preset marking strategy, and a matrix module comprising a single base layer is formed;

wherein wet forming comprises soaking, steaming, pulping and papermaking for several times, and dry forming comprises knitting.

The method of embedding the chip in the process of forming the matrix module is utilized, the integrity of the chip is effectively improved, and meanwhile, the chip cannot be modified, so that the accuracy of a tracing result is further improved.

Specifically, for an embedded module corresponding to a wet operation matrix module, setting a waterproof strategy under a preset marking strategy to form a waterproof integrated chip;

the waterproof strategy is to wrap the waterproof shell, locate and embed the waterproof integrated chip in a preset position when the wet operation matrix module performs paper making for a plurality of times, and enable the waterproof integrated chip to bend for a preset angle under the preset marking strategy.

Through the mode of parcel waterproof case, increase the waterproof performance of chip, simultaneously, promote the anti bending property with the chip in order to deal with multiple environment, when effectively promoting the tolerance of chip, further promoted the accuracy of traceability result.

Specifically, the waterproof integrated chip includes:

a waterproof case made of a waterproof material for preventing liquid from flowing into the inside of the chip;

a memory chip wrapped by a waterproof case for storing write data;

the induction antenna is connected with the storage chip and used for carrying out short-distance communication with the cataloging module and the matching module;

wherein the waterproof shell and the matrix module are the same color, and the pigment coloring rate is lower than that of the matrix module;

it will be appreciated that the waterproof casing is capable of forming a watermark that is integral with the chip, in practice, if the chip is patterned and/or signed, the colour at the location of the chip will be lighter, which is capable of forming a corresponding watermark by the chip;

the waterproof shell is molded into a specific shape in the interlayer corresponding to the chip, the coloring of the waterproof shell becomes shallow when the waterproof shell passes through the waterproof shell during drawing, and the watermark with the corresponding shape can be formed.

The storage chip is free from structural change at a preset temperature, and can store when the temperature is reduced to room temperature, wherein the preset temperature is the corresponding working temperature of pressing, brushing and/or drying the rice paper.

The chip is manufactured by arranging the waterproof shell, the storage chip and the induction chip, so that the accuracy of the tracing result is further improved while the tolerance performance of the chip is effectively improved.

Specifically, for a wet working matrix module including a plurality of layers, each corresponding embedded module is embedded in an interlayer formed by any two adjacent layers.

Referring to fig. 2, a chip embedding schematic diagram of a multi-layer rice paper according to an embodiment of the invention is shown, wherein a chip 1 is embedded in a rice paper 2, and for an interlayer chip 11, it is embedded between a first layer of rice paper 21 and a second layer of rice paper 22, and another chip 1 is embedded between the second layer of rice paper 22 and a third layer of rice paper 23.

The method for carrying out layered embedding on the rice paper with the multilayer structure is characterized in that the chips are arranged at different positions of the rice paper, so that the chips are difficult to move while the protection of the rice paper on the chips is effectively improved, and the accuracy of a tracing result is further improved.

For the rice paper with a multi-layer structure, the chips are in a plurality of layers, and it can be understood that the watermarks corresponding to the shapes of the waterproof shells of the chips can be formed in each layer, and the watermarks are layered on the rice paper and are positioned in the corresponding layers of the chips.

Specifically, for a single matrix module, the corresponding embedded module stores chip number information to mark the number of chips in the matrix module.

Specifically, the matching module detects a single matrix module under a reading strategy, and searches all chips in the matrix module according to the number of chips in the single matrix module.

In the implementation, if 2 chips are arranged in a single piece of rice paper, information of 2 chips embedded in the single piece of rice paper is stored in any one of the chips;

if 3 chips exist in a single piece of rice paper, information of the 3 chips embedded in the single piece of rice paper is stored in any one of the chips;

if 10 chips exist in a single piece of rice paper, information embedded in 10 chips in the single piece of rice paper is stored in any one of the chips.

By marking the number information of the chips in the chips, all the chips in a single painting and calligraphy work are linked, so that the anti-counterfeiting capacity of the painting and calligraphy work is effectively improved, and the accuracy of a tracing result is further improved.

Specifically, each of the corresponding embedded modules has information that can be stored once and cannot be edited again, and the information is written into the embedded module by the catalog module when the embedded module is sealed in the matrix module and cooled to room temperature.

Specifically, when all chips in a single matrix module are read, the matching module encodes according to the information of the chips, the identification analysis system sends the converted digital code to the server, the server compares the code with the blockchain database information of the node, judges whether the digital information corresponding to the digital code is stored in the database, and if the digital information is not stored in the database, executes the query application of the disorder identification strategy.

Specifically, when executing the disorder recognition strategy, the server rearranges and combines codes corresponding to the chips in the single matrix module to form a plurality of disorder codes, searches the codes in the database, and judges that the painting is abnormal if all the codes are in the database.

In implementation, if a calligraphy and painting includes 3 chips, the numbers of digits of the numerical codes A, B, C and A, B, C in the calligraphy and painting may be the same or different, if the combination ABC is not in the database, an out-of-order identification policy is applied, and the server identifies the combination ACB, BCA, BAC, CBA, CAB, and if the CBA is in the database, the result indicates that the calligraphy and painting is true.

By combining the codes in the chip with the server, the anti-counterfeiting capacity of the painting and calligraphy works is effectively improved, and meanwhile, the accuracy of the tracing result is further improved.

Thus far, the technical solution of the present invention has been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of protection of the present invention is not limited to these specific embodiments. Equivalent modifications and substitutions for related technical features may be made by those skilled in the art without departing from the principles of the present invention, and such modifications and substitutions will be within the scope of the present invention.

The foregoing description is only of the preferred embodiments of the invention and is not intended to limit the invention; various modifications and variations of the present invention will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A painting and calligraphy collection traceability system based on a blockchain is characterized by comprising: a plurality of base member modules, a plurality of embedding module, catalog module, matching module and server, wherein:

the matrix module is capable of bearing painting and calligraphy solid media;

the embedding module is embedded into the corresponding matrix module by a preset marking strategy and is used for recording and marking the information of the matrix module;

the compiling module is connected with the embedding module under the compiling strategy and is used for compiling data to form writing data and inputting the writing data into the corresponding embedding module;

the matching module is connected with the matrix module under a reading strategy and used for reading in a preset reading mode through the embedded module in the matrix module and forming reading data;

the server is connected with the cataloging module and the matching module and is used for recording the writing data, comparing the reading data with the writing data and outputting a comparison result as tracing information;

the preset marking strategy is to embed a preset number of chips at preset positions of the matrix module; the method comprises the steps that the chip is marked according to the number of chips in a single matrix module to form marking information and edit information in the chip; the reading strategy is to read the marking information in each chip according to the number of chips in the single matrix module;

for a single embedded module, the single embedded module consists of a plurality of chips embedded in corresponding matrix modules, and the stored information comprises a part capable of being stored and read and a part capable of being read;

for a single matrix module, the corresponding embedded module stores chip number information to mark the number of chips in the matrix module;

when the matching module reads all the chips in the single matrix module, coding is carried out according to the information of the chips, and the converted digital codes are sent to the server;

when the server receives the converted digital code, the server compares the data of the code with the blockchain database information of the node, judges whether the digital information corresponding to the digital code is stored in the database, and if the digital information is not stored in the database, executes a query application of an out-of-order identification strategy;

and when the server executes the disorder identification strategy, rearranging and combining codes corresponding to the chips in the single matrix module to form a plurality of disorder codes, searching the codes in a database, and judging that the painting is an abnormal painting if all the codes are not in the database.

2. The block-chain-based painting and calligraphy collection traceability system according to claim 1, wherein the matrix module is divided into a wet operation matrix module and a dry operation matrix module by taking each chip into a corresponding position under the preset marking strategy;

the wet operation matrix module is subjected to wet forming under the preset marking strategy, and the matrix module comprising a plurality of base layers is formed; the dry operation matrix module is subjected to dry forming under the preset marking strategy, and the matrix module comprising a single base layer is formed;

wherein the wet forming comprises soaking, steaming, pulping and papermaking for a plurality of times, and the dry forming comprises braiding.

3. The blockchain-based painting and calligraphy collection traceability system according to claim 2, wherein for the embedded module corresponding to a wet working matrix module, a waterproof strategy is set under the preset marking strategy to form a waterproof integrated chip;

the waterproof strategy is used for wrapping the waterproof shell, positioning and embedding the waterproof strategy into a preset position when the wet operation matrix module performs the paper making for a plurality of times, and the waterproof integrated chip can be bent for a preset angle under the preset marking strategy.

4. The blockchain-based painting and calligraphy collection traceability system of claim 3, wherein the waterproof integrated chip comprises:

a waterproof case made of a waterproof material for preventing liquid from flowing into the inside of the chip;

a memory chip wrapped by the waterproof case for storing the write data;

the induction antenna is connected with the storage chip and used for carrying out short-distance communication with the cataloging module and the matching module;

wherein the waterproof shell and the matrix module are the same color, and the pigment coloring rate of the waterproof shell is lower than that of the matrix module;

the storage chip is free from structural change at a preset temperature, and can store when the temperature is reduced to room temperature, wherein the preset temperature is the corresponding working temperature of pressing, brushing and/or drying the rice paper.

5. The blockchain-based painting and calligraphy collection traceability system according to claim 4, wherein for the wet working matrix module comprising a plurality of layers, each corresponding embedded module is embedded in an interlayer formed by any two adjacent layers.

6. The blockchain-based painting and calligraphy collection traceability system according to claim 5, wherein the matching module detects the single matrix module under the reading strategy and searches all chips in the matrix module according to the number of chips information in the single matrix module.

7. The blockchain-based painting and calligraphy collection traceability system according to claim 6, wherein each of the individual base modules has information stored in a single way and not edited again in the corresponding embedded module, and the information is written into the embedded module by a catalog module when the embedded module is sealed in the base module and cooled to room temperature.