CN113780825A - Technological scheme matching device and method - Google Patents

Abstract

The embodiment of the invention provides a technical scheme matching device and a method, wherein the technical scheme matching device comprises a design management module, a data acquisition module, a data sorting module, a data standardization module, a coding module and a technical matching module; the design management module is connected with the data acquisition module and is used for storing design data; the data acquisition module is connected with the data sorting module and is used for acquiring design data and sending the design data to the data sorting module; the data arrangement module is connected with the data standardization module and is used for comparing the current design data with the previous design data and integrating the current design data with the previous design data to form process requirement design data. The process scheme matching device and the process scheme matching method provided by the embodiment of the invention can match the process scheme corresponding to the design data without the need of arranging the design data and redesigning the process flow by workers, thereby further improving the working efficiency of the workers.

Description

Technological scheme matching device and method

Technical Field

The invention relates to the field of manufacturing, in particular to a technical scheme matching device and a method.

Background

In a ship enterprise, design data in process design currently covers key information required by production, such as material names, materials, model specifications, weight and the like, and a production department and constructors can check the design data and implement operation procedures and personnel arrangement of construction according to the design data.

The defects of the existing business process are obvious, a production department and constructors need to invest a large amount of human resources, a process scheme matched with design data is finally formed by designing the process flow by means of the understanding of the design data of the constructors, and a large amount of working time of the constructors is needed in the process of converting the design data into the process scheme.

Disclosure of Invention

The process scheme matching device and the process scheme matching method provided by the embodiment of the invention can match the process scheme corresponding to the design data without the need of arranging the design data and redesigning the process flow by workers, thereby further improving the working efficiency of the workers.

In a first aspect, an embodiment of the present invention provides a process scheme matching apparatus, where the process scheme matching apparatus includes: the system comprises a design management module, a data acquisition module, a data sorting module, a data standardization module, a coding module and a process matching module;

the design management module is connected with the data acquisition module and is used for storing design data;

the data acquisition module is connected with the data sorting module and is used for acquiring the design data and sending the design data to the data sorting module;

the data sorting module is connected with the data standardization module and is used for comparing the current design data with the previous design data, integrating the current design data with the previous design data to form process requirement design data and sending the process requirement design data to the data standardization module;

the data standardization module is connected with the coding module and is used for arranging the process requirement design data into standard design data meeting standard requirements and sending the standard design data to the coding module;

the coding module is connected with the process matching module and is used for coding each line of data in the standard design data to form coded design data and sending the coded design data to the process matching module;

the process matching module is used for matching a matching typical process scheme matched with the coding design data according to the coding design data.

Optionally, the data sorting module includes a comparison unit, a deletion unit, and a new addition unit;

the comparison unit is connected with the data acquisition module, the deletion unit and the newly-added unit, and is used for marking the content of the previous design data which is more than the current design data as redundant data and sending the redundant data to the deletion unit, and is also used for marking the content of the current design data which is more than the previous design data as added data and sending the added data to the newly-added unit;

the deleting unit is connected with the newly added unit and is used for deleting the redundant data on the basis of the previous design data to form basic design data, sending the basic design data to the newly added unit and recording the deleting time of the redundant data;

the adding unit is used for storing the adding data to form process requirement design data on the basis of the basic design data and recording and storing the storage time of the adding data.

Optionally, the data standardization module includes a character standardization unit, a unit standardization unit and a format standardization unit;

the character standardization unit is connected with the newly-added unit and the unit standardization unit, and is used for standardizing characters of the process requirement design data to form character standardization data and sending the character standardization data to the unit standardization unit;

the unit standardization unit is connected with the format standardization unit and is used for standardizing the units of the character standardization data to form unit standardization data and sending the unit standardization data to the format standardization unit;

the format standardization unit is used for standardizing the format of the unit standardization data to form the standard design data.

Optionally, the encoding module includes a time detection unit and an encoding addition unit;

the time detection unit is connected with the data standardization module and the code adding unit, and is used for receiving the standard design data, detecting the time when the standard design data is received, converting the time into numbers as a code preamble, forming preamble design data and sending the preamble design data to the code adding unit;

the code adding unit is used for forming a subsequent sequence, and the preceding sequence and the subsequent sequence are combined into a code and are attached to each line in the standard design data to form code design data.

Optionally, the process matching module includes a storage unit;

the storage unit is used for storing a plurality of typical process schemes.

Optionally, the process matching module further includes a matching unit;

the matching unit is used for identifying the coded design data and finding out a typical process scheme matched with the coded design data from the storage unit according to the coded design data.

Optionally, the design management module includes a database management unit and an excel management unit;

the database management unit is used for storing the design data;

the excel management unit is used for storing the design data.

Optionally, the data obtaining module includes a database obtaining unit and an excel obtaining unit;

the database acquisition unit is used for acquiring design data from the database management unit;

the excel acquisition unit is used for acquiring design data from the excel management unit.

In a second aspect, an embodiment of the present invention further provides a process scheme matching method, where a design management module is connected to a data acquisition module, the data acquisition module is connected to a data sorting module, the data sorting module is connected to a data standardization module, the data standardization module is connected to a coding module, and the coding module is connected to a process matching module;

the method comprises the following steps:

the design management module stores design data;

the data acquisition module acquires the design data and sends the design data to the data sorting module;

the data sorting module compares the current design data with the last design data and integrates the current design data with the last design data to form process requirement design data, and the process requirement design data are sent to the data standardization module;

the data standardization module is used for organizing the process requirement design data into standard design data meeting standard requirements and sending the standard design data to the coding module;

the coding module codes each line of data in the standard design data to form coded design data and sends the coded design data to the process matching module;

and the process matching module matches a typical process scheme matched with the coding design data according to the coding design data.

Optionally, the data sorting module includes a comparison unit, a deletion unit, and a new addition unit; the comparison unit is connected with the data acquisition module, the deletion unit and the newly-added unit; the deleting unit is connected with the adding unit;

the data arrangement module compares the current design data with the last design data and integrates the current design data to form process requirement design data, and the sending of the process requirement design data to the data standardization module specifically comprises:

the comparison unit marks the content of the previous design data more than the current design data as redundant data and sends the redundant data to the deletion unit, and also marks the content of the current design data more than the previous design data as additional data and sends the additional data to the addition unit;

the deleting unit deletes the redundant data on the basis of the previous design data to form basic design data, sends the basic design data to the adding unit, and records the deleting time of deleting the redundant data;

and the newly added unit stores the added data to form process requirement design data on the basis of the basic design data and records the storage time for storing the added data.

The embodiment of the invention provides a process scheme matching device, which acquires design data from a design management module through a data acquisition module and sends the design data to a data sorting module, the data sorting module compares the current design data with the previous design data, keeps the same content of the previous design data as the current design data, increases the content which is not contained in the previous design data but contained in the current design data, finally forms process requirement design data, sends the process requirement design data to a data standardization module, the data standardization module converts the process requirement design data into standard design data which can be identified by a process matching module and sends the standard design data to an encoding module, and the encoding module encodes each line of data in the standard design data to form encoded design data, and the process matching module intelligently identifies the coded design data so as to output a matching typical process scheme matched with the coded design data. The process scheme matching device provided by the embodiment of the invention can match the process scheme corresponding to the design data without the need of arranging the design data and redesigning the process flow by workers, thereby further improving the working efficiency of the workers.

Drawings

FIG. 1 is a schematic structural diagram of a process recipe matching apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of another process scheme matching apparatus provided in an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of another process scheme matching apparatus provided in an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of another process scheme matching apparatus provided in an embodiment of the present invention;

fig. 5 is a schematic flow chart of a process scheme matching method according to an embodiment of the present invention.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of and not restrictive on the broad invention. It should be further noted that, for convenience of description, only some structures, not all structures, relating to the embodiments of the present invention are shown in the drawings.

Fig. 1 is a schematic structural diagram of a process scheme matching apparatus according to an embodiment of the present invention, and referring to fig. 1, the process scheme matching apparatus includes a design management module 110, a data acquisition module 120, a data sorting module 130, a data normalization module 140, an encoding module 150, and a process matching module 160; the design management module 110 is connected to the data acquisition module 120, and the design management module 110 is used for storing design data; the data acquisition module 120 is connected with the data sorting module 130, and the data acquisition module 120 is used for acquiring design data and sending the design data to the data sorting module 130; the data sorting module 130 is connected with the data standardization module 140, and the data sorting module 130 is used for comparing the current design data with the previous design data, integrating the current design data with the previous design data to form process requirement design data, and sending the process requirement design data to the data standardization module 140; the data standardization module 140 is connected with the coding module 150, and the data standardization module 140 is used for arranging the process requirement design data into standard design data meeting the standard requirements and sending the standard design data to the coding module 150; the coding module 150 is connected with the process matching module 160, and the coding module 150 is used for coding each line of data in the standard design data to form coded design data and sending the coded design data to the process matching module 160; the process matching module 160 is used for matching a matching typical process scheme matched with the coding design data according to the coding design data.

Specifically, the data obtaining module 120 may obtain the design data from the design management module 110 at set intervals, where the set intervals may be twenty-four hours or forty-eight hours, and the design data is obtained at set intervals, so as to prevent the design data from being forgotten and affecting the project progress. The design data is provided by the staff of the design department, and includes the materials to be used for designing the product, the two-dimensional graph of the designed product, the three-dimensional graph of the designed product, and the like, and exemplarily, the design data may include a pipeline name, a tray name, a material specification, a nesting plate number, a material specification, a quantity, a cutting length, a dividing line length, a space length, a utilization rate, a part number, a size, a perimeter, a flow direction, a furnace number, a drawing number, a version, materials, types and specifications, a quantity, a nesting card number, and the like.

If the data sorting module 130 directly receives the current design data and deletes the previous design data, some devices that are applying the previous design data may malfunction, in order to better ensure the normal operation of the device, the data sorting module 130 receives the current design data, compares the current design data with the previous design data, deleting the content contained in the previous design data but not contained in the current design data, wherein the content to be deleted is set to be empty before deletion, so that the device cannot be influenced to generate faults, then, the contents included in the current design data and the contents not included in the previous design data are added, and the data arrangement module 130 adds more contents in the current design data than in the previous design data, thereby finally forming the process requirement design data.

Because the design department only designs what the product is made, some forms in the design data are not written in standard form. The data standardization module 140 sorts data which do not conform to the standard form in the process requirement design data, for example, the data standardization module 140 unifies the measurement units, the unit used by the worker in the design department to describe the "steel plate" is "unit", the data standardization module 140 unifies the unit of the "steel plate" into "sheet" after detecting that the unit used by the "steel plate" does not conform to the standard form, the worker in the design department writes the size form of the steel plate into "5-200 plus 6000", and the data standardization module 140 changes the size form of the steel plate into "5 x 200 x 600" after detecting that the size form of the steel plate does not conform to the standard form. Further, the worker of the design division may sometimes write the specification and the name in the design data together, and for example, the worker of the design division may write "JXH 402 junction box" together, where "JXH 402" represents the specification of the material and "junction box" represents the model of the material, and writing the specification and the model of the material together is not in compliance with the requirement of the standard data, and thus, the data normalization module 140 may modify "JXH 402 junction box" to "JXH 402" and "junction box", where "JXH 402" is under the specification name of the material and "junction box" is under the model name of the material. The staff of the design department may also write a plurality of materials in one line, but different materials use different manufacturing processes, write a plurality of materials in one line, and only match a process corresponding to one material, the data standardization module 140 divides the materials written in one line into a plurality of lines, illustratively, the galvanized steel plate, the damping coating and the domestic rock wool in the design data are located in the same line, the data standardization module 140 divides the three materials into three lines, and each line has only one material, and the three lines of materials are different. The data normalization module 140 normalizes the form of the process requirement design data based on the process requirement design data and performs line-by-line processing on the process requirement design data, so that each line includes a material name, a unit corresponding to the material, a size corresponding to the material, and the like to form standard design data, and the standard design data refers to a data form that can be recognized by the process matching module 160.

The encoding module 150 encodes each row in the standard design data so as to check the data information of the row through encoding in the following process, thereby facilitating the following check and data tracing. The design department only designs what the product is made, and how to make a finished product is not described, the typical process scheme is how to make a finished product, the process matching module 160 stores a plurality of typical process schemes, and the typical process scheme comprises process steps for making a finished product, and information such as equipment and equipment parameters used for making the finished product. The process matching module 160 intelligently identifies the coded design data, finds out a typical process scheme with the highest matching degree with the coded design data from a plurality of typical process schemes, and calls the typical process scheme with the highest matching degree with the coded design data as a matching typical process scheme, so that a worker can perform construction according to the content of the matching typical process scheme to manufacture a finished product designed in the design data, and the output of the matching typical process scheme does not need the worker to design how to finish the manufacturing method, the manufacturing conditions, the equipment used in the manufacturing process and the like of the finished product according to the design data, thereby improving the working efficiency of the worker.

The embodiment of the invention provides a process scheme matching device, which acquires design data from a design management module through a data acquisition module and sends the design data to a data sorting module, the data sorting module compares the current design data with the previous design data, keeps the same content of the previous design data as the current design data, increases the content which is not contained in the previous design data but contained in the current design data, finally forms process requirement design data, sends the process requirement design data to a data standardization module, the data standardization module converts the process requirement design data into standard design data which can be identified by a process matching module and sends the standard design data to an encoding module, and the encoding module encodes each line of data in the standard design data to form encoded design data, and the process matching module intelligently identifies the coded design data so as to output a matching typical process scheme matched with the coded design data. The process scheme matching device provided by the embodiment of the invention can match the process scheme corresponding to the design data without the need of arranging the design data and redesigning the process flow by workers, thereby further improving the working efficiency of the workers.

Optionally, fig. 2 is a schematic structural diagram of another process scheme matching apparatus provided in an embodiment of the present invention, and referring to fig. 2, the data sorting module 130 includes a comparing unit 131, a deleting unit 132, and an adding unit 133; the comparison unit 131 is connected to the data acquisition module 120, the deletion unit 132 and the addition unit 133, and the comparison unit 131 is configured to mark the content of the last design data that is more than the current design data as redundant data and send the redundant data to the deletion unit 132, and is further configured to mark the content of the current design data that is more than the last design data as addition data and send the addition data to the addition unit 133; the deleting unit 132 is connected to the adding unit 133, and the deleting unit 132 is configured to delete redundant data on the basis of the previous design data to form basic design data, send the basic design data to the adding unit 133, and record deletion time for deleting the redundant data; the adding unit 133 is configured to store the addition data forming process requirement design data on the basis of the basic design data, and record storage time for storing the addition data.

Specifically, the newly added unit 133 is connected to the data standardization module 140, and the newly added unit 133 sends the process requirement design data to the data standardization module 140. When the deleting unit 132 deletes the redundant data, the content to be deleted is set to be null, and then the device is not affected by the deletion. The comparison unit 131 stores the design data of the previous time. The deleting unit 132 records the deleting time of the redundant data and the content of the deleted redundant data, and the adding unit 133 records the storing time of the added data and the content of the added data, both for facilitating the subsequent review of the work content of the deleting unit 132 or the adding unit 133.

Optionally, fig. 3 is a schematic structural diagram of another process scheme matching device according to an embodiment of the present invention, and referring to fig. 3, the data normalization module 140 includes a character normalization unit 141, a unit normalization unit 142, and a format normalization unit 143; the character standardization unit 141 is connected with the addition unit 133 and the unit standardization unit 142, and the character standardization unit 141 is used for standardizing characters of the process requirement design data to form character standardization data and sending the character standardization data to the unit standardization unit 142; the unit normalizing unit 142 is connected to the format normalizing unit 143, and the unit normalizing unit 142 is configured to normalize a unit of the character normalized data to form unit normalized data, and transmit the unit normalized data to the format normalizing unit 143; the format normalization unit 143 is configured to normalize the format of the unit normalized data to form standard design data.

Specifically, the character standardization unit 141 is configured to standardize characters of process requirement design data, where the characters of the process requirement design data may include characters that do not meet the standard, such as a pre-space, a post-space, a middle space, a line feed character, a tab character, and the like, the character standardization unit 141 removes the pre-space, the post-space, the middle space, the line feed character, and the tab character from the characters, and in addition, the character standardization unit 141 is further configured to uniformly adjust small letters in english characters into upper-case characters, illustratively, the process requirement design data includes "K g", the character standardization unit 141 arranges "K g" as "KG", the unit standardization unit 142 standardizes units of the character standardization data, and illustratively, units used by staff of the design department to describe "steel plates" are "ones", the unit standardizing unit 142 unifies the units of the steel plates into pieces when detecting that the units used for the steel plates do not conform to the standard form. The format standardization unit 143 standardizes the format of the unit standardized data, and exemplarily, workers in a design department write "JXH 402 junction box" together, where "JXH 402" represents the specification of the material and "junction box" represents the model of the material, and writing the specification and the model of the material together is not in compliance with the standard format, so the format standardization unit 143 modifies "JXH 402 junction box" to "JXH 402" and "junction box", where "JXH 402" is under the specification name of the material and "junction box" is under the model name of the material. The staff of the design department may write a plurality of materials in one line, but different materials use different manufacturing processes, and write a plurality of materials in one line, and only one process corresponding to one material is matched, and the format standardization unit 143 divides the materials written in one line into a plurality of lines, for example, the galvanized steel plate, the damping coating and the domestic rock wool in the design data are located in the same line, and the format standardization unit 143 divides the three materials into three lines, and each line has only one material, and the three lines of materials are different. The format normalization unit 143 is also configured to perform line-division processing on the unit normalization data so that each line includes a material name, a unit corresponding to the material, a size corresponding to the material, and the like. The format standardizing unit 143 is connected to the encoding module 150, and the format standardizing unit 143 transmits the standard design data to the encoding module 150.

Optionally, fig. 4 is a schematic structural diagram of another process scheme matching device provided in an embodiment of the present invention, and referring to fig. 4, the encoding module 150 includes a time detecting unit 151 and an encoding adding unit 152; the time detection unit 151 is connected to the data normalization module 140 and the code addition unit 152, the time detection unit 151 is configured to receive the standard design data and detect time when the standard design data is received, convert the time into a number as a preamble of a code, form preamble design data and send the preamble design data to the code addition unit 152, and the code addition unit 152 is configured to form a subsequent sequence, and form a code by combining the preamble and the subsequent sequence and add the code to each line of the standard design data to form code design data.

Specifically, the standard design data includes a plurality of lines of data, each line of data includes a material name, a material size, a unit of material, and the like, the encoding module 150 encodes each line of data in the standard design data, the encoding includes a preamble and a subsequent sequence, the preamble is data composed of time when the time detection unit 151 receives the standard design data, illustratively, the time when the time detection unit 151 receives the standard design data is 18:18: 55.5050/9/4/2021, the preambles of all lines in the standard design data are 202109041818555050, the subsequent sequence is ten-bit data, the encoding addition unit 152 sequentially adds one to the subsequent sequence of each line of encoding in the standard design data in the line sequence, illustratively, the subsequent sequence of the first line is 0000000001, the subsequent sequence of the second line is 0000000002, the subsequent sequence of the third line is 0000000003 …, the encoding addition unit 152 combines the preamble and the subsequent sequence to form an encoding, and exemplarily, the encoding of the first line of data in the standard design data is 2021090418185550500000000001, the second line of data is 2021090418185550500000000002, and the third line of data is 2021090418185550500000000003 ….

Optionally, the process matching module includes a storage unit; the storage unit is used for storing a plurality of typical process schemes.

Specifically, a large number of typical process schemes are stored in the storage unit, and process methods of how to make products are described in the typical process schemes, so that a worker can operate according to steps matched with the typical process schemes by the process matching module, and the worker does not need to design a work flow again, so that the work efficiency of the worker is improved.

Optionally, the process matching module further comprises a matching unit; the matching unit is used for identifying the coded design data and finding out a typical process scheme matched with the coded design data from the storage unit according to the coded design data.

Specifically, a large number of typical process schemes are stored in the storage unit, the matching unit is connected with the storage unit, the matching unit matches the coded design data with the typical process schemes in the storage unit one by one after receiving the coded design data, the typical process scheme with the highest correlation with the coded design data is found, and a process method for how to make a product is described in the typical process scheme.

Optionally, the design management module includes a database management unit and an excel management unit; the database management unit is used for storing design data; the excel management unit is used for storing design data.

Specifically, the design data stored in the database management unit and the design data stored in the excel management unit are the same, and some devices in the process scheme matching device can only recognize data in the excel form, so that the excel management unit is arranged to convert the design data into the data in the excel form, so that other devices in the process scheme matching device can operate normally.

Optionally, the data acquisition module includes a database acquisition unit and an excel acquisition unit; the database acquisition unit is used for acquiring the design data from the database management unit; the excel acquisition unit is used for acquiring design data from the excel management unit.

Specifically, the excel acquisition unit can only recognize data in the excel form, and therefore, the excel acquisition unit acquires design data from the excel management unit.

Fig. 5 is a schematic flow chart of a process scheme matching method according to an embodiment of the present invention, in which a design management module is connected to a data acquisition module, the data acquisition module is connected to a data sorting module, the data sorting module is connected to a data standardization module, the data standardization module is connected to a coding module, and the coding module is connected to a process matching module; referring to fig. 5, the process scheme matching method includes:

s110, the design management module stores design data.

And S120, the data acquisition module acquires the design data and sends the design data to the data sorting module.

S130, the data arrangement module compares the current design data with the previous design data and integrates the current design data with the previous design data to form process requirement design data, and the process requirement design data are sent to the data standardization module.

And S140, the data standardization module arranges the process requirement design data into standard design data meeting the standard requirement and sends the standard design data to the coding module.

S150, the coding module codes each line of data in the standard design data to form coded design data, and sends the coded design data to the process matching module.

And S160, matching a typical process scheme matched with the coding design data by the process matching module according to the coding design data.

Optionally, the data sorting module includes a comparison unit, a deletion unit and a new addition unit; the comparison unit is connected with the data acquisition module, the deletion unit and the newly-added unit; the deleting unit is connected with the newly-added unit; the data arrangement module compares the current design data with the previous design data and integrates the current design data to form process requirement design data, and the process requirement design data is sent to the data standardization module, and the data standardization module specifically comprises the following steps: the comparison unit marks the content of the previous design data more than the current design data as redundant data and sends the redundant data to the deletion unit, and also marks the content of the current design data more than the previous design data as additional data and sends the additional data to the addition unit; the deleting unit deletes redundant data on the basis of the previous design data to form basic design data, sends the basic design data to the newly added unit, and records the deleting time of deleting the redundant data; the newly added unit stores the added data to form process requirement design data on the basis of the basic design data and records the storage time of the stored added data.

The process scheme matching method provided by the embodiment and the process scheme matching device provided by any embodiment of the invention belong to the same inventive concept, have corresponding beneficial effects, and the technical details which are not elaborated in the embodiment are elaborated in the process scheme matching device provided by any embodiment of the invention.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. Those skilled in the art will appreciate that the embodiments of the present invention are not limited to the specific embodiments described herein, and that various obvious changes, adaptations, and substitutions are possible, without departing from the scope of the embodiments of the present invention. Therefore, although the embodiments of the present invention have been described in more detail through the above embodiments, the embodiments of the present invention are not limited to the above embodiments, and many other equivalent embodiments may be included without departing from the concept of the embodiments of the present invention, and the scope of the embodiments of the present invention is determined by the scope of the appended claims.

Claims (10)

1. A process scheme matching device is characterized by comprising: the system comprises a design management module, a data acquisition module, a data sorting module, a data standardization module, a coding module and a process matching module;

the design management module is connected with the data acquisition module and is used for storing design data;

the data acquisition module is connected with the data sorting module and is used for acquiring the design data and sending the design data to the data sorting module;

the data sorting module is connected with the data standardization module and is used for comparing the current design data with the previous design data, integrating the current design data with the previous design data to form process requirement design data and sending the process requirement design data to the data standardization module;

the data standardization module is connected with the coding module and is used for arranging the process requirement design data into standard design data meeting standard requirements and sending the standard design data to the coding module;

the coding module is connected with the process matching module and is used for coding each line of data in the standard design data to form coded design data and sending the coded design data to the process matching module;

the process matching module is used for matching a matching typical process scheme matched with the coding design data according to the coding design data.

2. The apparatus of claim 1, wherein the data sorting module comprises a comparison unit, a deletion unit and an addition unit;

the comparison unit is connected with the data acquisition module, the deletion unit and the newly-added unit, and is used for marking the content of the previous design data which is more than the current design data as redundant data and sending the redundant data to the deletion unit, and is also used for marking the content of the current design data which is more than the previous design data as added data and sending the added data to the newly-added unit;

the deleting unit is connected with the newly added unit and is used for deleting the redundant data on the basis of the previous design data to form basic design data, sending the basic design data to the newly added unit and recording the deleting time of the redundant data;

the adding unit is used for storing the adding data to form process requirement design data on the basis of the basic design data and recording and storing the storage time of the adding data.

3. The apparatus of claim 2, wherein the data normalization module comprises a character normalization unit, a unit normalization unit, and a format normalization unit;

the character standardization unit is connected with the newly-added unit and the unit standardization unit, and is used for standardizing characters of the process requirement design data to form character standardization data and sending the character standardization data to the unit standardization unit;

the unit standardization unit is connected with the format standardization unit and is used for standardizing the units of the character standardization data to form unit standardization data and sending the unit standardization data to the format standardization unit;

the format standardization unit is used for standardizing the format of the unit standardization data to form the standard design data.

4. The apparatus of claim 1, wherein the encoding module comprises a time detection unit and an encoding addition unit;

the time detection unit is connected with the data standardization module and the code adding unit, and is used for receiving the standard design data, detecting the time when the standard design data is received, converting the time into numbers as a code preamble, forming preamble design data and sending the preamble design data to the code adding unit;

the code adding unit is used for forming a subsequent sequence, and the preceding sequence and the subsequent sequence are combined into a code and are attached to each line in the standard design data to form code design data.

5. The apparatus of claim 1, wherein the process matching module comprises a storage unit;

the storage unit is used for storing a plurality of typical process schemes.

6. The apparatus of claim 5, wherein the process matching module further comprises a matching unit;

the matching unit is used for identifying the coded design data and finding out a typical process scheme matched with the coded design data from the storage unit according to the coded design data.

7. The apparatus of claim 1, wherein the design management module comprises a database management unit and an excel management unit;

the database management unit is used for storing the design data;

the excel management unit is used for storing the design data.

8. The apparatus according to claim 7, wherein the data acquisition module comprises a database acquisition unit and an excel acquisition unit;

the database acquisition unit is used for acquiring design data from the database management unit;

the excel acquisition unit is used for acquiring design data from the excel management unit.

9. A process scheme matching method is characterized in that a design management module is connected with a data acquisition module, the data acquisition module is connected with a data sorting module, the data sorting module is connected with a data standardization module, the data standardization module is connected with a coding module, and the coding module is connected with a process matching module;

the method comprises the following steps:

the design management module stores design data;

the data acquisition module acquires the design data and sends the design data to the data sorting module;

the data sorting module compares the current design data with the last design data and integrates the current design data with the last design data to form process requirement design data, and the process requirement design data are sent to the data standardization module;

the data standardization module is used for organizing the process requirement design data into standard design data meeting standard requirements and sending the standard design data to the coding module;

the coding module codes each line of data in the standard design data to form coded design data and sends the coded design data to the process matching module;

and the process matching module matches a typical process scheme matched with the coding design data according to the coding design data.

10. The method according to claim 9, wherein the data sorting module comprises a comparison unit, a deletion unit and an addition unit; the comparison unit is connected with the data acquisition module, the deletion unit and the newly-added unit; the deleting unit is connected with the adding unit;

the data arrangement module compares the current design data with the last design data and integrates the current design data to form process requirement design data, and the sending of the process requirement design data to the data standardization module specifically comprises:

the comparison unit marks the content of the previous design data more than the current design data as redundant data and sends the redundant data to the deletion unit, and also marks the content of the current design data more than the previous design data as additional data and sends the additional data to the addition unit;

the deleting unit deletes the redundant data on the basis of the previous design data to form basic design data, sends the basic design data to the adding unit, and records the deleting time of deleting the redundant data;

and the newly added unit stores the added data to form process requirement design data on the basis of the basic design data and records the storage time for storing the added data.

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