CN107767441B - Three-dimensional display management method and system - Google Patents
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Abstract
The invention discloses a three-dimensional display management method and a three-dimensional display management system, and relates to the technical field of image display. The method comprises the steps of converting a primary equipment graph related to target secondary wiring into a target primary equipment three-dimensional graph; converting secondary equipment related to the target secondary wiring into a target secondary equipment three-dimensional graph, and converting a secondary circuit related to the target secondary wiring into a target secondary circuit three-dimensional graph; adding hyperlinks to the target primary equipment three-dimensional graph to the target secondary equipment three-dimensional graph according to the corresponding relation between the pre-stored primary equipment three-dimensional graph and the pre-stored secondary equipment three-dimensional graph; adding hyperlinks to the target primary equipment three-dimensional graph to the target secondary circuit three-dimensional graph according to the corresponding relation between the pre-stored primary equipment three-dimensional graph and the pre-stored secondary circuit three-dimensional graph; and jumping to the target secondary equipment three-dimensional graph or the target secondary circuit three-dimensional graph according to the triggered target primary equipment three-dimensional graph. After the scheme is adopted, the working efficiency of workers is improved, and the safe and stable operation of equipment is guaranteed.
Description
Technical Field
The invention relates to the technical field of image display, in particular to a three-dimensional display management method and a three-dimensional display management system.
Background
At present, in the maintenance and protection work of substation equipment, the degree of mastering of a secondary circuit by a protector is required to be high, so that actual work can be completed smoothly, and when the protector learns and learns the secondary circuit of a related substation, due to the fact that a plurality of drawings are provided, learning is relatively complex and difficult.
Because the protection drawing is complicated, the drawing is a secondary plane and can only show the wiring of one or part of equipment, so that the whole loop is disassembled, the whole system is not convenient to understand, a large amount of energy and time are consumed for the arrangement and the searching of a large amount of drawing data, experiment reports and other data by workers, the working efficiency and the quality of the workers are reduced, the safe and stable operation of the equipment cannot be guaranteed, and the normal power supply is influenced.
Disclosure of Invention
The technical problem to be solved by the invention is to provide a three-dimensional display management method and a three-dimensional display management system aiming at the defects of the prior art, so that the working efficiency and quality of workers are improved, and the safe and stable operation of equipment is ensured.
In order to solve the technical problems, the technical scheme adopted by the invention is as follows:
in a first aspect of the embodiments of the present invention, a three-dimensional display management method is provided, including the following steps:
converting a primary equipment graph related to target secondary wiring into a target primary equipment three-dimensional graph;
converting secondary equipment related to the target secondary wiring into a target secondary equipment three-dimensional graph, and converting a secondary circuit related to the target secondary wiring into a target secondary circuit three-dimensional graph;
adding hyperlinks to the target primary equipment three-dimensional graph to the target secondary equipment three-dimensional graph according to the corresponding relation between the pre-stored primary equipment three-dimensional graph and the pre-stored secondary equipment three-dimensional graph;
adding hyperlinks to the target primary equipment three-dimensional graph to the target secondary circuit three-dimensional graph according to the corresponding relation between the pre-stored primary equipment three-dimensional graph and the pre-stored secondary circuit three-dimensional graph;
and jumping to the target secondary equipment three-dimensional graph and/or the target secondary circuit three-dimensional graph according to the triggered target primary equipment three-dimensional graph.
As a further technical solution, the converting the primary device diagram related to the target secondary wiring into the target primary device three-dimensional diagram includes:
generating a first vector diagram which is scaled with the size of the primary equipment in the same proportion according to the primary equipment involved in the target secondary wiring;
and editing and processing the first vector diagram according to the connection relation between the primary devices related to the secondary wiring of the target to generate a three-dimensional diagram of the target primary device.
As a further technical solution, the converting the secondary device related to the target secondary wiring into a target secondary device three-dimensional diagram, and the converting the secondary circuit related to the target secondary wiring into a target secondary circuit three-dimensional diagram includes:
generating a second vector diagram which is scaled in the same proportion as the size of the secondary equipment according to the secondary equipment related to the target secondary wiring;
editing and processing the second vector diagram according to the connection relation between the secondary devices related to the target secondary wiring to generate a three-dimensional diagram of the target secondary device;
generating a secondary loop vector diagram which is scaled in the same proportion as the size of a secondary loop according to the secondary loop related to the target secondary wiring;
and editing and processing the secondary loop vector diagram according to the connection relation between secondary loops related to the target secondary wiring to generate a target secondary loop three-dimensional diagram.
As a further technical solution, the method further comprises:
receiving an amplification instruction;
and amplifying the target primary equipment three-dimensional graph, the target secondary equipment three-dimensional graph or the target secondary circuit three-dimensional graph according to the amplification instruction.
As a further technical solution, the method further comprises:
receiving first data of primary equipment related to target secondary wiring, second data of secondary equipment related to the target secondary wiring and third data of a secondary circuit related to the target secondary wiring;
adding and hyperlinking the first data to the three-dimensional graph of the target primary equipment;
adding and hyperlink the second data to the target secondary equipment three-dimensional graph;
and adding and hyperlink the third data to the target secondary loop three-dimensional graph.
In a second aspect of the embodiments of the present invention, there is provided a three-dimensional display management system, including:
the primary equipment conversion module is used for converting a primary equipment graph related to target secondary wiring into a target primary equipment three-dimensional graph;
the secondary equipment conversion module is used for converting secondary equipment related to target secondary wiring into a target secondary equipment three-dimensional graph and converting a secondary circuit related to the target secondary wiring into a target secondary circuit three-dimensional graph;
the hyperlink secondary equipment module is used for adding hyperlinks to the target primary equipment three-dimensional graph according to the corresponding relation between the pre-stored primary equipment three-dimensional graph and the pre-stored secondary equipment three-dimensional graph;
the hyperlink secondary circuit module is used for adding hyperlinks to the target primary equipment three-dimensional graph according to the corresponding relation between the pre-stored primary equipment three-dimensional graph and the secondary circuit three-dimensional graph;
and the jumping module is used for jumping to the target secondary equipment three-dimensional graph and/or the target secondary circuit three-dimensional graph according to the triggered target primary equipment three-dimensional graph.
As a further technical solution, the primary device conversion module includes:
the first vector diagram generating module is used for generating a first vector diagram which is scaled in the same proportion as the size of primary equipment according to the primary equipment related to the target secondary wiring;
and the primary equipment three-dimensional graph generating module is used for editing and processing the first vector graph according to the connection relation between the primary equipment related to the secondary wiring of the target to generate a target primary equipment three-dimensional graph.
As a further technical solution, the secondary device conversion module includes:
the second vector diagram generating module is used for generating a second vector diagram which is scaled in the same proportion as the size of the secondary equipment according to the secondary equipment related to the target secondary wiring;
the secondary equipment three-dimensional graph generating module is used for editing and processing the second vector graph according to the connection relation between secondary equipment related to target secondary wiring to generate a target secondary equipment three-dimensional graph;
the secondary circuit vector diagram generating module is used for generating a secondary circuit vector diagram which is scaled in the same proportion as the size of a secondary circuit according to the secondary circuit related to the target secondary wiring;
and the secondary circuit three-dimensional graph generating module is used for editing and processing the secondary circuit vector graph to generate a target secondary circuit three-dimensional graph according to the connection relation between secondary circuits related to target secondary wiring.
As a further technical solution, the system further includes:
the receiving and amplifying instruction module is used for receiving an amplifying instruction;
and the amplifying module is used for amplifying the target primary equipment three-dimensional graph, the target secondary equipment three-dimensional graph or the target secondary circuit three-dimensional graph according to the amplifying instruction.
As a further technical solution, the system further includes:
the data receiving module is used for receiving first data of primary equipment related to target secondary wiring, second data of secondary equipment related to the target secondary wiring and third data of a secondary circuit related to the target secondary wiring;
the first data adding hyperlink module is used for adding and hyperlinking the first data to the three-dimensional graph of the target primary equipment;
the second data adding hyperlink module is used for adding and hyperlinking the second data to the target secondary equipment three-dimensional graph;
and the third data adding hyperlink module is used for adding and hyperlinking the third data to the target secondary circuit three-dimensional graph.
The embodiment of the invention provides a three-dimensional display management method and a three-dimensional display management system, which are characterized in that primary equipment, secondary equipment and a secondary circuit involved in target secondary wiring are converted into a three-dimensional graph, and hyperlinks are respectively added to the primary equipment three-dimensional graph and the secondary equipment three-dimensional graph, so that the workload of searching and arranging two-dimensional drawings by workers is reduced, the working efficiency and quality of the workers are improved, the safe and stable operation of the equipment is guaranteed, and the normal power supply is further guaranteed.
Drawings
Fig. 1 is a schematic step diagram of a three-dimensional display management method according to an embodiment of the present invention;
fig. 2 is a schematic structural diagram of a three-dimensional display management system according to a second embodiment of the present invention;
fig. 3 is a schematic structural diagram of a three-dimensional display management system according to a third embodiment of the present invention.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
Example one
As shown in fig. 1, a schematic diagram of the steps of the three-dimensional display management method of the present invention includes the following steps:
and step S101, converting the primary equipment diagram related to the target secondary wiring into a target primary equipment three-dimensional diagram.
Specifically, the target secondary wiring is stored in the system, when the system is used, the target secondary wiring is called out, the connection relationship between the original drawing of the primary equipment and the original drawing of the primary equipment is displayed, the connection relationship is two-dimensional, for example, a bus 1 is connected with a device 2321, the device 2321 is connected with a device 2322, and the like, and the primary equipment drawing related to the target secondary wiring is converted into a three-dimensional drawing of the target primary equipment by using a three-dimensional conversion technology.
And step S102, converting the secondary equipment related to the target secondary wiring into a target secondary equipment three-dimensional graph, and converting the secondary circuit related to the target secondary wiring into a target secondary circuit three-dimensional graph.
Specifically, after the primary equipment is converted, the secondary equipment related to the target secondary wiring is converted into a target secondary equipment three-dimensional graph, wherein the secondary equipment refers to low-voltage electrical equipment required for monitoring, controlling, adjusting and protecting the work of the primary equipment and providing operation conditions or production command signals for operation and maintenance personnel, such as fuses, buttons, indicator lamps, control switches, relays, control cables, instruments, signal equipment, automatic devices and the like; and meanwhile, a secondary circuit related to target secondary wiring is converted into a target secondary circuit three-dimensional diagram, wherein the secondary circuit is a measurement circuit, a relay protection circuit, a switch control and signal circuit, an operation power supply circuit, an electric locking circuit of a circuit breaker and an isolating switch and other all low-voltage circuits.
And S103, adding and hyper-linking the target primary equipment three-dimensional graph to the target secondary equipment three-dimensional graph according to the corresponding relation between the pre-stored primary equipment three-dimensional graph and the pre-stored secondary equipment three-dimensional graph.
Specifically, in the daily display process of workers, secondary equipment and a secondary loop corresponding to primary equipment often need to be checked, the secondary equipment and the secondary loop corresponding to the primary equipment originally need to be searched correspondingly, time and labor are wasted, and the secondary equipment is often confused, and currently, according to the corresponding relation between a prestored primary equipment three-dimensional graph and a prestored secondary equipment three-dimensional graph, a hyperlink is added to a target secondary equipment three-dimensional graph, for example, a hyperlink is added to a breaker protection device corresponding to a serial number 2321 device, and when the serial number 2321 device is clicked, the breaker protection device corresponding to the serial number 2321 device can be skipped; in the process of jumping, the process from the total picture to the sub-picture is a process, the sub-picture can also embody the connection relation between the primary equipment and the secondary equipment, and the secondary equipment of the hyperlink can be directly displayed in the background in a popup window mode without jumping to a background page.
And step S104, adding and hyper-linking the target primary equipment three-dimensional graph to the target secondary circuit three-dimensional graph according to the corresponding relation between the pre-stored primary equipment three-dimensional graph and the pre-stored secondary circuit three-dimensional graph.
Specifically, in the process of daily display of workers, secondary equipment and a secondary circuit corresponding to primary equipment often need to be checked, the primary equipment and the secondary circuit need to be searched correspondingly, time and labor are wasted, and the secondary equipment and the primary equipment are often confused.
And S105, jumping to the target secondary device three-dimensional graph and/or the target secondary circuit three-dimensional graph according to the triggered target primary device three-dimensional graph.
Specifically, according to actual needs, a worker clicks the primary device in the target primary device three-dimensional graph, and can jump to three conditions, namely the corresponding target secondary device three-dimensional graph and the target secondary circuit three-dimensional graph or the target secondary device three-dimensional graph or the target secondary circuit three-dimensional graph.
After the scheme is adopted, the primary equipment, the secondary equipment and the secondary circuit involved in the target secondary wiring are converted into the three-dimensional graph, and the hyperlink is added to the three-dimensional graph of the primary equipment and the three-dimensional graph of the secondary equipment respectively, so that the workload of searching and arranging the two-dimensional graph paper by the staff is reduced, the working efficiency and quality of the staff are improved, the safe and stable operation of the equipment is guaranteed, and the normal power supply is further guaranteed.
In addition, in a specific example, the converting the primary device diagram related to the target secondary wiring into the target primary device three-dimensional diagram includes:
a first vector image is generated which is scaled to the size of the primary device according to the primary device involved in the target secondary wiring.
And editing and processing the first vector diagram according to the connection relation between the primary devices related to the secondary wiring of the target to generate a three-dimensional diagram of the target primary device.
Specifically, a primary device real object photo is prestored, a first vector diagram which is scaled in the same proportion with the size of primary devices is generated according to the primary devices involved in target secondary wiring, the first vector diagram is a vector diagram and cannot be distorted due to expansion or reduction, the first vector diagram is edited and processed according to the connection relation between the primary devices involved in the target secondary wiring to generate a target primary device three-dimensional diagram, and the editing processing comprises connection of a unidirectional line, a bidirectional line or a dotted line and the like.
In addition, in a specific example, the converting the secondary device involved in the target secondary wiring into a target secondary device three-dimensional diagram, and the converting the secondary circuit involved in the target secondary wiring into a target secondary circuit three-dimensional diagram includes:
and generating a second vector diagram which is scaled with the size of the secondary equipment according to the secondary equipment involved in the target secondary wiring.
And editing and processing the second vector diagram according to the connection relation between the secondary devices related to the target secondary wiring to generate a three-dimensional diagram of the target secondary device.
And generating a secondary loop vector diagram which is scaled with the size of the secondary loop according to the secondary loop involved by the target secondary wiring.
And editing and processing the secondary loop vector diagram according to the connection relation between secondary loops related to the target secondary wiring to generate a target secondary loop three-dimensional diagram.
In addition, in a specific example, the method further comprises the following steps:
and receiving an amplification instruction.
And amplifying the target primary equipment three-dimensional graph, the target secondary equipment three-dimensional graph or the target secondary circuit three-dimensional graph according to the amplification instruction.
Specifically, the target primary equipment three-dimensional graph, the target secondary equipment three-dimensional graph and the target secondary circuit three-dimensional graph can be enlarged or reduced according to the needs of workers, distortion is avoided, and the workers can know the details and the working state of each piece of equipment in detail.
The target primary equipment three-dimensional graph, the target secondary equipment three-dimensional graph or the target secondary circuit three-dimensional graph further comprises:
first data of a primary device involved in the target secondary wiring, second data of a secondary device involved in the target secondary wiring, and third data of a secondary circuit involved in the target secondary wiring are received.
And adding and hyperlinking the first data to the three-dimensional graph of the target primary equipment.
And adding and hyperlink the second data to the target secondary equipment three-dimensional graph.
And adding and hyperlink the third data to the target secondary loop three-dimensional graph.
Specifically, the scheme can also add explanation descriptions to the target primary equipment three-dimensional graph, the target secondary equipment three-dimensional graph and the target secondary circuit three-dimensional graph, correspondingly add hyperlinks to the first data, the second data and the third data, and enable the staff to click the help description, namely, the help description can be adjusted to the first data, the second data or the third data for the staff to check.
After the scheme is adopted, the primary equipment, the secondary equipment and the secondary circuit involved in the target secondary wiring are converted into the three-dimensional graph, and the hyperlink is added to the three-dimensional graph of the primary equipment and the three-dimensional graph of the secondary equipment respectively, so that the workload of searching and arranging the two-dimensional graph paper by the staff is reduced, the working efficiency and quality of the staff are improved, the safe and stable operation of the equipment is guaranteed, and the normal power supply is further guaranteed.
Example two
A primary equipment conversion module 201, configured to convert a primary equipment diagram related to the target secondary wiring into a target primary equipment three-dimensional diagram;
the secondary equipment conversion module 202 is used for converting secondary equipment related to target secondary wiring into a target secondary equipment three-dimensional graph and converting a secondary circuit related to the target secondary wiring into a target secondary circuit three-dimensional graph;
the hyperlink secondary equipment module 203 is used for adding hyperlinks to the target primary equipment three-dimensional graph according to the corresponding relation between the pre-stored primary equipment three-dimensional graph and the pre-stored secondary equipment three-dimensional graph;
the hyperlink secondary circuit module 204 is used for adding hyperlinks to the target primary equipment three-dimensional graph according to the corresponding relation between the pre-stored primary equipment three-dimensional graph and the secondary circuit three-dimensional graph;
and the skipping module 205 is used for skipping to the target secondary device three-dimensional graph and/or the target secondary circuit three-dimensional graph according to the triggered target primary device three-dimensional graph.
After the scheme is adopted, the primary equipment, the secondary equipment and the secondary circuit involved in the target secondary wiring are converted into the three-dimensional graph, and the hyperlink is added to the three-dimensional graph of the primary equipment and the three-dimensional graph of the secondary equipment respectively, so that the workload of searching and arranging the two-dimensional graph paper by the staff is reduced, the working efficiency and quality of the staff are improved, the safe and stable operation of the equipment is guaranteed, and the normal power supply is further guaranteed.
EXAMPLE III
A primary device conversion module 301, configured to convert a primary device diagram related to the target secondary wiring into a target primary device three-dimensional diagram;
a secondary device conversion module 302, configured to convert a secondary device related to the target secondary wiring into a target secondary device three-dimensional diagram, and convert a secondary circuit related to the target secondary wiring into a target secondary circuit three-dimensional diagram;
the hyperlink secondary equipment module 303 is used for adding hyperlinks to the target primary equipment three-dimensional graph according to the corresponding relationship between the pre-stored primary equipment three-dimensional graph and the pre-stored secondary equipment three-dimensional graph;
the hyperlink secondary circuit module 304 is used for adding hyperlinks to the target primary equipment three-dimensional graph according to the corresponding relation between the pre-stored primary equipment three-dimensional graph and the secondary circuit three-dimensional graph;
and the skipping module 305 is used for skipping to the target secondary device three-dimensional graph and/or the target secondary circuit three-dimensional graph according to the triggered target primary device three-dimensional graph.
The primary device conversion module 301 includes:
the first vector diagram generating module 306 is used for generating a first vector diagram which is scaled with the size of the primary equipment according to the primary equipment involved in the target secondary wiring;
and a primary device three-dimensional diagram generating module 307, configured to edit and process the first vector diagram according to a connection relationship between primary devices involved in the secondary wiring of the target to generate a target primary device three-dimensional diagram.
The secondary device conversion module 302 includes:
the second vector diagram generating module 308 is used for generating a second vector diagram which is scaled in the same proportion as the size of the secondary equipment according to the secondary equipment related to the target secondary wiring;
the secondary equipment three-dimensional graph generating module 309 is configured to edit and process the second vector diagram to generate a target secondary equipment three-dimensional graph according to a connection relationship between secondary equipment related to target secondary wiring;
a secondary loop vector diagram generating module 310, configured to generate a secondary loop vector diagram scaled in the same proportion as the size of a secondary loop according to the secondary loop related to the target secondary wiring;
and the secondary circuit three-dimensional diagram generating module 311 is configured to edit and process the secondary circuit vector diagram to generate a target secondary circuit three-dimensional diagram according to a connection relationship between secondary circuits related to target secondary wiring.
In addition, in a specific example, the method further comprises the following steps:
a receive zoom instruction module 312, configured to receive a zoom instruction;
and the amplifying module 313 is configured to amplify the target primary device three-dimensional drawing, the target secondary device three-dimensional drawing or the target secondary circuit three-dimensional drawing according to the amplifying instruction.
In addition, in a specific example, the method further comprises the following steps:
a data receiving module 314, configured to receive first data of a primary device related to the target secondary wiring, second data of a secondary device related to the target secondary wiring, and third data of a secondary circuit related to the target secondary wiring;
a first material adding hyperlink module 315, configured to hyperlink the first material adding hyperlink to the target primary device three-dimensional graph;
a second data adding hyperlink module 316, configured to add and hyperlink the second data to the target secondary device three-dimensional map;
a third data adding hyperlink module 317, configured to add and hyperlink the third data to the target secondary loop three-dimensional graph.
After the scheme is adopted, the primary equipment, the secondary equipment and the secondary circuit involved in the target secondary wiring are converted into the three-dimensional graph, and the hyperlink is added to the three-dimensional graph of the primary equipment and the three-dimensional graph of the secondary equipment respectively, so that the workload of searching and arranging the two-dimensional graph paper by the staff is reduced, the working efficiency and quality of the staff are improved, the safe and stable operation of the equipment is guaranteed, and the normal power supply is further guaranteed.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.
Claims (8)
1. A three-dimensional display management method is characterized by comprising the following steps:
converting a primary equipment graph related to target secondary wiring into a target primary equipment three-dimensional graph;
converting secondary equipment related to the target secondary wiring into a target secondary equipment three-dimensional graph, and converting a secondary circuit related to the target secondary wiring into a target secondary circuit three-dimensional graph;
adding hyperlinks to the target primary equipment three-dimensional graph to the target secondary equipment three-dimensional graph according to the corresponding relation between the pre-stored primary equipment three-dimensional graph and the pre-stored secondary equipment three-dimensional graph;
adding hyperlinks to the target primary equipment three-dimensional graph to the target secondary circuit three-dimensional graph according to the corresponding relation between the pre-stored primary equipment three-dimensional graph and the pre-stored secondary circuit three-dimensional graph;
jumping to a target secondary equipment three-dimensional graph and/or a target secondary circuit three-dimensional graph according to the triggered target primary equipment three-dimensional graph; receiving first data of primary equipment related to target secondary wiring, second data of secondary equipment related to the target secondary wiring and third data of a secondary circuit related to the target secondary wiring;
adding and hyperlinking the first data to the three-dimensional graph of the target primary equipment;
adding and hyperlink the second data to the target secondary equipment three-dimensional graph;
and adding and hyperlink the third data to the target secondary loop three-dimensional graph.
2. The three-dimensional display management method according to claim 1, wherein the converting the primary device map related to the target secondary wiring into the target primary device three-dimensional map comprises:
generating a first vector diagram which is scaled with the size of the primary equipment in the same proportion according to the primary equipment involved in the target secondary wiring;
and editing and processing the first vector diagram according to the connection relation between the primary devices related to the secondary wiring of the target to generate a three-dimensional diagram of the target primary device.
3. The three-dimensional display management method according to claim 1, wherein the converting the secondary device involved in the target secondary wiring into the target secondary device three-dimensional drawing, and the converting the secondary circuit involved in the target secondary wiring into the target secondary circuit three-dimensional drawing comprises:
generating a second vector diagram which is scaled in the same proportion as the size of the secondary equipment according to the secondary equipment related to the target secondary wiring;
editing and processing the second vector diagram according to the connection relation between the secondary devices related to the target secondary wiring to generate a three-dimensional diagram of the target secondary device;
generating a secondary loop vector diagram which is scaled in the same proportion as the size of a secondary loop according to the secondary loop related to the target secondary wiring;
and editing and processing the secondary loop vector diagram according to the connection relation between secondary loops related to the target secondary wiring to generate a target secondary loop three-dimensional diagram.
4. The three-dimensional display management method according to claim 1, further comprising:
receiving an amplification instruction;
and amplifying the target primary equipment three-dimensional graph, the target secondary equipment three-dimensional graph or the target secondary circuit three-dimensional graph according to the amplification instruction.
5. A three-dimensional display management system, comprising:
the primary equipment conversion module is used for converting a primary equipment graph related to target secondary wiring into a target primary equipment three-dimensional graph;
the secondary equipment conversion module is used for converting secondary equipment related to target secondary wiring into a target secondary equipment three-dimensional graph and converting a secondary circuit related to the target secondary wiring into a target secondary circuit three-dimensional graph;
the hyperlink secondary equipment module is used for adding hyperlinks to the target primary equipment three-dimensional graph according to the corresponding relation between the pre-stored primary equipment three-dimensional graph and the pre-stored secondary equipment three-dimensional graph;
the hyperlink secondary circuit module is used for adding hyperlinks to the target primary equipment three-dimensional graph according to the corresponding relation between the pre-stored primary equipment three-dimensional graph and the secondary circuit three-dimensional graph;
the skipping module is used for skipping to the target secondary equipment three-dimensional graph and/or the target secondary circuit three-dimensional graph according to the triggered target primary equipment three-dimensional graph;
the data receiving module is used for receiving first data of primary equipment related to target secondary wiring, second data of secondary equipment related to the target secondary wiring and third data of a secondary circuit related to the target secondary wiring;
the first data adding hyperlink module is used for adding and hyperlinking the first data to the three-dimensional graph of the target primary equipment;
the second data adding hyperlink module is used for adding and hyperlinking the second data to the target secondary equipment three-dimensional graph;
and the third data adding hyperlink module is used for adding and hyperlinking the third data to the target secondary circuit three-dimensional graph.
6. The three-dimensional display management system according to claim 5, wherein the primary device conversion module comprises: the first vector diagram generating module is used for generating a first vector diagram which is scaled in the same proportion as the size of primary equipment according to the primary equipment related to the target secondary wiring;
and the primary equipment three-dimensional graph generating module is used for editing and processing the first vector graph according to the connection relation between the primary equipment related to the secondary wiring of the target to generate a target primary equipment three-dimensional graph.
7. The three-dimensional display management system according to claim 5, wherein the secondary device conversion module comprises: the second vector diagram generating module is used for generating a second vector diagram which is scaled in the same proportion as the size of the secondary equipment according to the secondary equipment related to the target secondary wiring;
the secondary equipment three-dimensional graph generating module is used for editing and processing the second vector graph according to the connection relation between secondary equipment related to target secondary wiring to generate a target secondary equipment three-dimensional graph;
the secondary circuit vector diagram generating module is used for generating a secondary circuit vector diagram which is scaled in the same proportion as the size of a secondary circuit according to the secondary circuit related to the target secondary wiring;
and the secondary circuit three-dimensional graph generating module is used for editing and processing the secondary circuit vector graph to generate a target secondary circuit three-dimensional graph according to the connection relation between secondary circuits related to target secondary wiring.
8. The three-dimensional display management system according to claim 5, further comprising:
the receiving and amplifying instruction module is used for receiving an amplifying instruction;
and the amplifying module is used for amplifying the target primary equipment three-dimensional graph, the target secondary equipment three-dimensional graph or the target secondary circuit three-dimensional graph according to the amplifying instruction.
Priority Applications (1)
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CN201710852487.XA CN107767441B (en) | 2017-09-20 | 2017-09-20 | Three-dimensional display management method and system |
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CN201710852487.XA CN107767441B (en) | 2017-09-20 | 2017-09-20 | Three-dimensional display management method and system |
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