CN114969377B - Information matching system and method based on information map - Google Patents

Abstract

The invention relates to an information matching system and a method thereof based on an information map, wherein the information matching system comprises a bearing frame, a scanning camera, an operation table, a data processing terminal based on big data, a control interface, a data input terminal, a communication gateway and a driving circuit, wherein the operation table is distributed from top to bottom along the axis direction of the bearing frame and is connected with one scanning camera through a guide arm, the data processing terminal based on the big data, the data input terminal, the communication gateway and the driving circuit are embedded in the bearing frame, and each operation table is provided with the control interface. The information matching method comprises system presetting, data entry, data analysis matching and data correction. The invention has high data input efficiency and high data identification efficiency and precision, and can effectively realize accurate identification operation between the map information and other related data, thereby greatly improving the data management efficiency and quality and reducing the labor intensity and the cost of data management.

Description

Information matching system and method based on information map

Technical Field

The invention relates to an information matching system and method based on an information map, and belongs to the technical field of information.

Background

At present, in the information data processing by using a computer system, a large amount of data is required to be counted and summarized through pattern types, the pattern data is often output through modes such as printing, three-dimensional modeling and the like, so that quick and convenient information matching and management operation cannot be realized between the pattern data and common digital electronic version data.

Disclosure of Invention

In order to solve the defects in the prior art, the invention provides an information matching system and method based on an information map.

The utility model provides an information matching system based on information map, including the carriage, the scanning camera, the operation panel, data processing terminal based on big data, control the interface, the data entry terminal, the communication gateway, drive circuit, the carriage is axis and horizontal plane vertical distribution, and the axis cross-section is rectangular frame construction, a plurality of operation panels are from the top down along carriage axis direction distribution, and around carriage axis distribution, the operation panel all is connected with a scanning camera through the guide arm, the guide arm articulates with operation panel and scanning camera, data processing terminal based on big data, the data entry terminal, the communication gateway, drive circuit all inlays in the carriage, and control the interface, the data entry terminal, communication gateway and drive circuit all with control the interface electrical connection, drive circuit is in addition with scanning camera, the operation panel, data processing terminal based on big data, the data entry terminal, the communication gateway electrical connection, control the interface quantity is unanimous with the operation panel, every operation panel department all establishes one and controls the interface, and each controls the interface to be connected in parallel each other.

Furthermore, a bearing cavity is arranged in the bearing frame corresponding to the workbench, an operation port is arranged on the side wall of the bearing frame corresponding to the bearing cavity, and the axes of the bearing cavities are perpendicular to and intersected with the axis of the bearing frame.

Further, the operation table comprises a driving guide rail, a sliding block, a turnover mechanism, a bearing tray and guide sliding rails, wherein the two guide sliding rails are symmetrically distributed on the axis of the bearing cavity and are connected with the side wall of the bearing cavity, the guide sliding rails are parallel to the axis of the bearing cavity, the driving guide rail is connected with the bottom of the bearing cavity and is positioned below the axis of the bearing cavity and is parallel to the axis of the bearing cavity, the lower end face of the sliding block is connected with the driving guide rail and is in sliding connection with the bottom of the bearing cavity through the driving guide rail, the upper end face of the sliding block is hinged with the lower end face of the bearing tray through the turnover mechanism, the upper end face of the bearing tray forms an included angle of 0-90 degrees with the axis of the bearing frame, the upper end face of the bearing tray is perpendicular to the axis of the bearing frame when the bearing tray is positioned in the bearing cavity, the side wall of the bearing tray is in sliding connection with the side wall of the bearing cavity through the guide sliding rails, the control interface is embedded on the outer side face of the bearing tray, the side surface of the bearing tray is connected with a scanning camera through a guide arm, and the driving guide rail is electrically connected with the driving circuit.

Furthermore, the bottom of the bearing tray is additionally provided with a guide sliding rail which is parallel to the axis of the bearing tray, the bearing tray is connected with the turnover mechanism in a sliding manner through the guide sliding rail, the turnover mechanism is connected with the guide sliding rail at the bottom of the bearing tray through a positioning pin, the bottom and the side wall of the bearing tray are additionally provided with at least one auxiliary illuminating lamp, and the auxiliary illuminating lamp is electrically connected with the driving circuit.

Further, the driving guide rail is any one of a screw mechanism and a linear motor mechanism, and the turnover mechanism is any one of a ratchet mechanism and a hinge mechanism.

Further, the data processing terminal based on big data is any one or two of a computer system based on a PC (personal computer) or a computer system based on a server architecture, the data input terminal is any one of a scanner, a serial port communication port and a parallel port communication port, and the side walls of the bearing frames corresponding to the data processing terminal and the data input terminal based on big data are respectively provided with an operation window.

Further, the control interface is any one or more of a display, a keyboard and a communication port; the driving circuit is a circuit system based on an industrial computer.

An information matching method of an information matching system based on an information map comprises the following steps:

s1, presetting a system, namely firstly assembling a bearing frame, a scanning camera, an operation table, a data processing terminal based on big data, a control interface, a data input terminal, a communication gateway and a driving circuit to obtain a finished product matching system, positioning the matching system through the bearing frame, and establishing data connection with an external communication network and related equipment through the communication gateway on the one hand; on the other hand, the system assembly can be completed through the electric connection between the driving circuit and an external power supply circuit;

s2, data entry is performed, and after the step S1 is completed, on one hand, text data, table data and electronic layout spectrum data to be matched with the data are directly obtained from the outside through a communication gateway and a data entry terminal; on the other hand, the carrying tray of the corresponding operation table is taken out from the carrying frame, the working angle is adjusted, then the printing layout spectral data and the three-dimensional model data are fixed in the carrying tray of the operation table, scanning identification is carried out through the scanning camera, and finally the data acquired by each device are respectively summarized into a data processing terminal based on big data for data analysis and matching;

s3, data analysis and matching are carried out, firstly, image data obtained by a scanning camera are identified, corresponding electronic version data are generated for identification data of the image data and are stored for standby, then, classification management is carried out on the data obtained by a communication gateway and a data input terminal according to file names in the process of recording, finally, similarity comparison is carried out on the electronic version data obtained by the scanning camera and the data subjected to classification management in sequence, data connection is established between two groups of data with highest similarity, primary data matching is completed, the data are transmitted to equipment in the process of external current file names through the communication gateway, and after the fact that matching is complete, fixed data connection is generated, so that matching operation between the data and an information map can be completed;

s4, data correction, namely after the step S3 is completed, carrying out secondary analysis on the data group after data matching is completed through a data processing terminal based on big data, screening difference data in data recorded by a scanning camera and data acquired by a communication gateway and a data recording terminal in the data group after data matching is completed, and then carrying out supplementary recording on the other data based on the latest acquisition time according to acquisition time of the data recorded by the scanning camera and the data acquired by the communication gateway and the data recording terminal.

The system has the advantages of simple structure, high integration degree, high data input efficiency and high data identification efficiency and precision, and can effectively realize accurate identification operation between the map information and other related data, thereby greatly improving the data management efficiency and quality and reducing the labor intensity and the cost of data management.

Drawings

The invention is described in detail below with reference to the drawings and the detailed description;

FIG. 1 is a schematic view of a partial cross-sectional structure of the present invention;

fig. 2 is a schematic view of a partial structure of the carrying tray.

Description of the embodiments

In order to facilitate the construction of the technical means, the creation characteristics, the achievement of the purposes and the effects of the invention, the invention is further described below with reference to the specific embodiments.

As shown in fig. 1 and 2, an information matching system based on an information map includes a carrier 1, a scanning camera 3, a working table 2, a data processing terminal 4 based on big data, a control interface 5, a data input terminal 6, a communication gateway 7, and a driving circuit 8, wherein the carrier 1 is a frame structure with an axis and a horizontal plane being vertically distributed, and the axis section is rectangular, the working table 2 is distributed from top to bottom along the axis direction of the carrier 1 and surrounds the axis of the carrier 1, the working table 2 is connected with one scanning camera 3 through a guiding arm 9, the guiding arm 9 is hinged between the working table 2 and the scanning camera 3, the scanning camera 3 is located at the upper end surface 0-50 cm of the working table 2, the control interface 5, the data input terminal 6, the communication gateway 7, and the driving circuit 8 are all embedded in the carrier 1, and the control interface 5, the data input terminal 6, the communication gateway 7 and the driving circuit 8 are all electrically connected with the control interface 5, and the driving circuit 8 is also connected with the scanning camera 3, the working table 2, the data processing terminal 4, the data input terminal 6, the communication terminal 7, the communication gateway 7, the data input terminal 5, the driving circuit 8, the data based on big data, the data input terminal 2, the control interface 2 and the control interface 2, and the control interface 2 are all connected in parallel.

In this embodiment, a carrying cavity 10 is disposed in the carrying frame 1 corresponding to the working table 2, an operation opening 11 is disposed on a side wall of the carrying frame 1 corresponding to the carrying cavity 10, and axes of the carrying cavities 10 are perpendicular to and intersect with the axis of the carrying frame 1.

The key points are that the workbench 2 comprises a driving guide rail 21, a sliding block 22, a turnover mechanism 23, a bearing tray 24 and guide sliding rails 25, wherein the two guide sliding rails 25 are symmetrically distributed on the axis of the bearing cavity 10 and connected with the side wall of the bearing cavity 10, the guide sliding rails 25 are parallel to the axis of the bearing cavity 10, the driving guide rail 21 is connected with the bottom of the bearing cavity 10 and is positioned below the axis of the bearing cavity 10 and parallel to the axis of the bearing cavity 10, the lower end face of the sliding block 22 is connected with the driving guide rail 21 and is in sliding connection with the bottom of the bearing cavity 10 through the driving guide rail 21, the upper end face of the sliding block 22 is hinged with the lower end face of the bearing tray 24 through the turnover mechanism 23, the transverse section of the bearing tray 24 is of a U-shaped groove structure, the upper end face of the U-shaped groove forms an included angle of 0-90 degrees with the axis of the bearing frame 1, and when the bearing tray 24 is positioned in the bearing cavity 10, the upper end face of the bearing tray is perpendicular to the axis of the bearing frame 1, the side wall of the bearing tray 24 is in sliding connection with the side wall of the bearing cavity 10 through the guide sliding rails 25, the control interface 5 is embedded on the outer side face of the bearing tray 24, the surface of the bearing tray 24 is connected with the driving circuit 8 through the guide arm 9, and the electric circuit 8 is connected with the driving circuit.

The turnover mechanism is used for flexibly adjusting the working angle of the bearing tray, so that the working angle of the bearing tray is flexibly adjusted, different operation needs are met, meanwhile, auxiliary positioning can be carried out when the bearing tray is stored in the bearing cavity, in addition, the integrated degree of the whole structure of the equipment is greatly improved when the bearing tray is stored in the bearing cavity, the space occupancy rate of the equipment is reduced, the use flexibility and the environmental adaptability of the equipment are improved, and meanwhile, the bearing tray in a storage state is auxiliary limited through the guide sliding rail.

The bottom of the carrying tray 24 is additionally provided with a guiding sliding rail 25 which is parallel to the axis of the carrying tray 24, the guiding sliding rail 25 is in sliding connection with the turnover mechanism 23, the turnover mechanism 23 is also connected with the guiding sliding rail 25 at the bottom of the carrying tray 24 through a positioning pin 26, the bottom and the side wall of the carrying tray 24 are additionally provided with at least one auxiliary illuminating lamp 27, and the auxiliary illuminating lamp 27 is electrically connected with the driving circuit 8.

The guide sliding rail arranged at the bottom of the bearing tray is used for realizing sliding connection between the bearing tray and the turnover mechanism, so that the position of a rotating shaft during turnover operation is flexibly adjusted, and the flexibility of adjustment operation of the bearing tray is further improved.

Meanwhile, the driving guide rail 21 is any one of a screw mechanism and a linear motor mechanism, and the turnover mechanism 23 is any one of a ratchet mechanism and a hinge mechanism.

In this embodiment, the data processing terminal 4 based on big data is any one or two of a computer system based on a PC computer or a computer system based on a server architecture, the data input terminal 6 is any one of a scanner, a serial port communication port and a parallel port communication port, and the side walls of the bearing frame 1 corresponding to the data processing terminal 4 based on big data and the data input terminal 6 are respectively provided with an operation window 12.

In this embodiment, the control interface 5 is any one or more of a display, a keyboard, and a communication port; the drive circuit 8 is an industrial computer based circuitry.

An information matching method of an information matching system based on an information map comprises the following steps:

s1, presetting a system, namely firstly assembling a bearing frame, a scanning camera, an operation table, a data processing terminal based on big data, a control interface, a data input terminal, a communication gateway and a driving circuit to obtain a finished product matching system, positioning the matching system through the bearing frame, and establishing data connection with an external communication network and related equipment through the communication gateway on the one hand; on the other hand, the system assembly can be completed through the electric connection between the driving circuit and an external power supply circuit;

s2, data entry is performed, and after the step S1 is completed, on one hand, text data, table data and electronic layout spectrum data to be matched with the data are directly obtained from the outside through a communication gateway and a data entry terminal; on the other hand, the carrying tray of the corresponding operation table is taken out from the carrying frame, the working angle is adjusted, then the printing layout spectral data and the three-dimensional model data are fixed in the carrying tray of the operation table, scanning identification is carried out through the scanning camera, and finally the data acquired by each device are respectively summarized into a data processing terminal based on big data for data analysis and matching;

s3, data analysis and matching are carried out, firstly, image data obtained by a scanning camera are identified, corresponding electronic version data are generated for identification data of the image data and are stored for standby, then, classification management is carried out on the data obtained by a communication gateway and a data input terminal according to file names in the process of recording, finally, similarity comparison is carried out on the electronic version data obtained by the scanning camera and the data subjected to classification management in sequence, data connection is established between two groups of data with highest similarity, primary data matching is completed, the data are transmitted to equipment in the process of external current file names through the communication gateway, and after the fact that matching is complete, fixed data connection is generated, so that matching operation between the data and an information map can be completed;

s4, data correction, namely after the step S3 is completed, carrying out secondary analysis on the data group after data matching is completed through a data processing terminal based on big data, screening difference data in data recorded by a scanning camera and data acquired by a communication gateway and a data recording terminal in the data group after data matching is completed, and then carrying out supplementary recording on the other data based on the latest acquisition time according to acquisition time of the data recorded by the scanning camera and the data acquired by the communication gateway and the data recording terminal.

When the image data obtained by scanning the data by the scanning camera is recognized, character information in the map is recognized on one hand; on the other hand, the pure image data is firstly subjected to binarization processing, and then the images subjected to binarization processing are subjected to identification analysis by using a connected domain technology, so that accurate image data structure data are obtained, accurate identification and positioning of the total image structure of the map data are realized, and matching and matching are realized between the image structure parameters and other external related data.

The system has the advantages of simple structure, high integration degree, high data input efficiency and high data identification efficiency and precision, and can effectively realize accurate identification operation between the map information and other related data, thereby greatly improving the data management efficiency and quality and reducing the labor intensity and the cost of data management.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. An information matching method of an information matching system based on an information map is characterized by comprising the following steps of: the information matching system based on the information map comprises a bearing frame, a scanning camera, an operation table, a data processing terminal based on big data, a control interface, a data input terminal, a communication gateway and a driving circuit, wherein the bearing frame is of a frame structure with an axis which is vertically distributed with a horizontal plane and a rectangular axis section, a plurality of operation tables are distributed from top to bottom along the axis direction of the bearing frame and are distributed around the axis of the bearing frame, the operation tables are all connected with one scanning camera through guide arms, the guide arms are hinged with the operation tables and the scanning camera, the data processing terminal based on the big data, the data input terminal, the communication gateway and the driving circuit are all embedded in the bearing frame, and the control interface, the data input terminal, the communication gateway and the driving circuit are all electrically connected with the scanning camera, the operation table, the data processing terminal based on the big data, the data input terminal and the communication gateway, the number of the control interfaces are consistent with the operation tables, each operation table is provided with one control interface, and all the control interfaces are mutually connected in parallel; a bearing cavity is arranged in the bearing frame corresponding to the operation table, an operation port is arranged on the side wall of the bearing frame corresponding to the bearing cavity, and the axes of the bearing cavities are perpendicular to and intersected with the axis of the bearing frame; the operation table comprises a driving guide rail, a sliding block, a turnover mechanism, a bearing tray and guide sliding rails, wherein the two guide sliding rails are symmetrically distributed on the axis of the bearing cavity and are connected with the side wall of the bearing cavity, the guide sliding rails are parallel to the axis of the bearing cavity, the driving guide rail is connected with the bottom of the bearing cavity and is positioned below the axis of the bearing cavity and is parallel to the axis of the bearing cavity, the lower end face of the sliding block is connected with the driving guide rail and is in sliding connection with the bottom of the bearing cavity through the driving guide rail, the upper end face of the sliding block is hinged with the lower end face of the bearing tray through the turnover mechanism, the upper end face of the bearing tray forms an included angle of 0-90 degrees with the axis of the bearing frame, the upper end face of the bearing tray is perpendicular to the axis of the bearing frame when the bearing tray is positioned in the bearing cavity, the side wall of the bearing tray is in sliding connection with the side wall of the bearing cavity through the guide sliding rails, the control interface is embedded on the outer side face of the bearing tray, the side surface of the bearing tray is connected with the scanning camera through a guide arm, and the driving guide rail is electrically connected with the driving circuit; the bottom of the bearing tray is additionally provided with a guide sliding rail which is parallel to the axis of the bearing tray and is in sliding connection with the turnover mechanism through the guide sliding rail, meanwhile, the turnover mechanism is additionally connected with the guide sliding rail at the bottom of the bearing tray through a positioning pin, the bottom and the side wall of the bearing tray are additionally provided with at least one auxiliary illuminating lamp, and the auxiliary illuminating lamp is electrically connected with the driving circuit; the information matching method comprises the following steps:

s1, presetting a system, namely firstly assembling a bearing frame, a scanning camera, an operation table, a data processing terminal based on big data, a control interface, a data input terminal, a communication gateway and a driving circuit to obtain a finished product matching system, positioning the matching system through the bearing frame, and establishing data connection with an external communication network and related equipment through the communication gateway on the one hand; on the other hand, the system assembly can be completed through the electric connection between the driving circuit and an external power supply circuit;

s2, data entry is performed, and after the step S1 is completed, on one hand, text data, table data and electronic layout spectrum data to be matched with the data are directly obtained from the outside through a communication gateway and a data entry terminal; on the other hand, the carrying tray of the corresponding operation table is taken out from the carrying frame, the working angle is adjusted, then the printing layout spectral data and the three-dimensional model data are fixed in the carrying tray of the operation table, scanning identification is carried out through the scanning camera, and finally the data acquired by each device are respectively summarized into a data processing terminal based on big data for data analysis and matching;

s3, data analysis and matching are carried out, firstly, image data obtained by a scanning camera are identified, corresponding electronic version data are generated for identification data of the image data and are stored for standby, then, classification management is carried out on the data obtained by a communication gateway and a data input terminal according to file names in the process of recording, finally, similarity comparison is carried out on the electronic version data obtained by the scanning camera and the data subjected to classification management in sequence, data connection is established between two groups of data with highest similarity, primary data matching is completed, the data are transmitted to equipment in the process of external current file names through the communication gateway, and after the fact that matching is complete, fixed data connection is generated, so that matching operation between the data and an information map can be completed;

s4, data correction, namely after the step S3 is completed, carrying out secondary analysis on the data group after data matching is completed through a data processing terminal based on big data, screening difference data in data recorded by a scanning camera and data acquired by a communication gateway and a data recording terminal in the data group after data matching is completed, and then carrying out supplementary recording on the other data based on the latest acquisition time according to acquisition time of the data recorded by the scanning camera and the data acquired by the communication gateway and the data recording terminal.

2. The information matching method of an information matching system based on an information map according to claim 1, characterized by: the driving guide rail is any one of a screw rod mechanism and a linear motor mechanism, and the turnover mechanism is any one of a ratchet mechanism and a hinge mechanism.

3. The information matching method of an information matching system based on an information map according to claim 1, characterized by: the data processing terminal based on big data is any one or two of a computer system based on a PC (personal computer) or a computer system based on a server architecture, the data input terminal is any one of a scanner, a serial port communication port and a parallel port communication port, and the side walls of the bearing frames corresponding to the data processing terminal and the data input terminal based on big data are respectively provided with an operation window.

4. The information matching method of an information matching system based on an information map according to claim 1, characterized by: the control interface is shared by any one or more of a display, a keyboard and a communication port; the driving circuit is a circuit system based on an industrial computer.

Images