CN108388391B - Component display method, system, augmented reality display device, and computer medium - Google Patents

Abstract

The invention provides a component display method, a component display system, an augmented reality display device and a computer readable storage medium, wherein the component display method is used for the augmented reality display device, the augmented reality display device is provided with a control area with an identification function and a display area, and the component display method comprises the following steps: judging whether a part to be identified exists in the control area or not, and reading component information of the part to be identified when the part to be identified exists; determining a current display interface of the control area, and determining a target interface according to the current display interface and the member information; and displaying the target interface in the display area. By the technical scheme, the parts to be identified in the control area of the augmented reality display device can be in one-to-one correspondence with the information of the target interface in the display area, and design and teaching are facilitated.

Description

Component display method, system, augmented reality display device, and computer medium

Technical Field

The present invention relates to the field of display technologies, and more particularly, to a component display method, a component display system, an augmented reality display apparatus, and a computer-readable storage medium.

Background

The sand table assembly can increase the enjoyment of teaching with the teaching mode that the demonstration content of display screen demonstration advanced simultaneously, is convenient for improve the teaching quality, however in prior art, the part that is using in the assembly sand table can not guarantee the complete unanimity with the content that shows on the display screen, influences the student to the understanding of the content of giving lessons, and then influences the teaching effect.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art or the related art.

In view of the above, an object of the present invention is to provide a component display method.

It is a further object of the present invention to provide a component display system.

It is still another object of the present invention to provide an augmented reality display apparatus.

It is yet another object of the present invention to provide a computer-readable storage medium.

In order to achieve the above object, a first aspect of the present invention provides a component display method for an augmented reality display apparatus having a control region with a recognition function and a display region, the component display method comprising: judging whether a part to be identified exists in the control area or not, and reading component information of the part to be identified when the part to be identified exists; determining a current display interface of the control area, and determining a target interface according to the current display interface and the member information; and displaying the target interface in the display area.

In the technical scheme, whether a part to be identified exists in a control area is judged, specifically, the existence condition of the part to be identified in the control area is continuously detected until the part to be identified exists in the control area, and component information of the part to be identified is read; and then determining a current display interface of the control area, wherein the control area can display a plurality of interfaces (namely the current display interface) to realize layered display of the content, and determining a target interface according to the current display interface and the read component information of the component to be identified, wherein the target interface is the expansion of the content corresponding to the component information to realize the complete display of the content corresponding to the component information. The target interface includes, but is not limited to, text information, drawing information and video information of the part to be identified. And finally, displaying a target interface in the display area to realize the display of the component information of the part to be identified. Through the technical scheme, the parts to be identified in the control area of the augmented reality display device can be in one-to-one correspondence with the information of the target interface in the display area, and design and teaching are facilitated.

Wherein, the current display interface and the target interface can display different parts of the same content, for example: the control area and the display area are spliced in a split screen mode, the current display interface and the target interface can respectively display different parts of the same object, the parts can be local views, one can be an overall view, and the other is a local enlarged view; in addition, the target interface may also display a different form of the same object as the current display interface, for example, a two-dimensional plane drawing is displayed in the control area, and a three-dimensional solid model corresponding to the drawing is displayed in the display area.

In the above technical solution, preferably, before reading the component information of the component to be identified, the method further includes: acquiring a moving track of a component to be identified on a control area; determining whether a target instruction is associated with the moving track in a preset database, and generating a judgment result; and when the judgment result is yes, reading the component information of the part to be identified according to the target instruction.

In the technical scheme, after the part to be identified exists in the control area and before the member information of the part to be identified is read, the moving track of the part to be identified on the control area is obtained, wherein the moving track of the part to be identified comprises the position change of the part to be identified and the rotating angle of the part to be identified at each position; after determining the moving track of the part to be recognized, determining whether a target instruction is associated with the moving track in a preset database, generating a determination result, reading the component information of the part to be recognized according to the target instruction when the determination result is yes, namely when the target instruction associated with the moving track exists, wherein the moving track of the part to be recognized is different, the target instruction corresponding to the moving track is different, the component information of the part to be recognized read by the target instruction is also different, the component information read according to the target instruction can be the part type, the installation position, the assembly relationship, the entity shape, the drawing information, the video information and the like of the part to be recognized, and can also be further processing of the existing information of the part to be recognized, such as translation of displayed text information, reduction and amplification of displayed drawing information, reduction or amplification of the video information, or may be paused.

In the above technical solution, preferably, each part to be identified is provided with identification information, and reading the component information of the part to be identified specifically includes: determining a storage path corresponding to the component to be identified through the identification information; determining component information in a memory according to the storage path, wherein the identification information comprises two-dimensional code information or bar code information, and the memory comprises a local memory or a cloud memory.

In the technical scheme, the component information of the to-be-identified component is stored in a local memory or a cloud memory, the to-be-identified component is provided with identification information corresponding to a component information storage path of the to-be-identified component, wherein the identification information is two-dimensional code information or bar code information, when the component information on each to-be-identified component is identified, the two-dimensional code information or the bar code information on the to-be-identified component is firstly identified so as to obtain the storage path of the component information of the to-be-identified component, and then the component information of the to-be-identified component stored in the local memory or the cloud memory is determined according to the storage path, so that the component information of the to-be-identified component.

In the above technical solution, preferably, the component information includes: the method comprises the following steps of (1) classifying components, mounting positions, assembling relations, entity shapes, drawing information, production information, transportation information and construction information; determining a target interface according to the current display interface and the member information, which specifically comprises the following steps: determining whether drawing information corresponding to the part to be identified is displayed on a current display interface, and determining the entity shape corresponding to the drawing information when the drawing information is determined to be displayed; the solid shape is displayed on the target interface.

According to the technical scheme, after the component information of the part to be identified is determined, whether drawing information corresponding to the part to be identified is displayed on a current display interface is determined, if the drawing information of the part to be identified is displayed on the current display interface, an entity shape corresponding to the drawing information is determined, and the entity shape corresponding to the drawing information is displayed on a target interface.

It should be noted that the component information of the component to be identified includes a component type, an installation position, an assembly relationship, a physical shape, drawing information, production information, transportation information and construction information of the component to be identified.

In the above technical solution, preferably, the current display interface specifically includes: the menu interface comprises a first-level menu interface, a plurality of second-level menu interfaces corresponding to a plurality of first-level menus in the first-level menu interface and a plurality of third-level menu interfaces corresponding to a plurality of second-level menus in the second-level menu interfaces, wherein when the current display interface is the first-level menu interface, the target interface is the second-level menu interface, and when the current display interface is the second-level menu interface, the target interface is the third-level menu interface.

In the technical scheme, the display interface comprises a first-level menu interface, a plurality of second-level menu interfaces and a plurality of third-level menu interfaces, wherein the plurality of second-level menu interfaces correspond to first-level menus in the first-level menu interfaces one by one, and the plurality of third-level menu interfaces correspond to second-level menus in the second-level menu interfaces one by one. And if the current display interface is the first-level menu interface, determining a second-level menu interface as a target interface according to the current display interface and the read component information, and if the current display interface is the second-level menu interface, determining a third-level menu interface as the target interface according to the current display interface and the read component information.

It can be understood that, when the target interface displays a certain level of menu interface, the current display interface may be simultaneously switched to the same display interface as the target interface, and the higher level menu interface may also be kept unchanged, for example: when the target interface displays the third-level menu interface, the current display interface can also display the same third-level menu interface, or the current display interface can display a second-level menu interface corresponding to the third-level menu interface.

In the foregoing technical solution, preferably, the plurality of first-level menus in the first-level menu interface include: designing, producing, transporting and constructing; the plurality of secondary menus in the secondary menu interface corresponding to production includes: manual production, automatic production and production scenario roaming; the plurality of secondary menus in the secondary menu interface corresponding to the construction includes: construction site roaming, building internal roaming and component construction.

In the technical scheme, the first-level menu interface comprises four first-level menus of design, production, transportation and construction, and a plurality of second-level menus in the second-level menu interface corresponding to the production comprise: manual production, automatic production and production scenario roaming; the plurality of secondary menus in the secondary menu interface corresponding to the construction includes: construction site roaming, building internal roaming and component construction.

The user can click any one primary menu in the touch screen with the primary menu interface, for example, after clicking a production menu, the interface displays three secondary menus of manual production, automatic production and production scene roaming, and after clicking a construction menu, the interface displays three secondary menus of construction site roaming and construction of a roaming component in a building.

A second aspect of the present invention provides a component display system for an augmented reality display apparatus having a control region and a display region with a recognition function, the component display system including: the reading unit is used for judging whether the part to be identified exists in the control area or not, and reading the component information of the part to be identified when the part to be identified exists; the interface determining unit is used for determining a current display interface of the control area and determining a target interface according to the current display interface and the member information; and the display unit is used for displaying the target interface in the display area.

In the technical scheme, a reading unit of the component display system judges whether a component to be identified exists in a control area, specifically, the existence condition of the component to be identified in the control area is continuously detected until the component to be identified exists in the control area, and component information of the component to be identified is read; and then the interface determining unit determines a current display interface of the control area, wherein the control area can display a plurality of interfaces (namely the current display interface) to realize layered display of the content, and the interface determining unit determines a target interface according to the current display interface and the read component information of the component to be identified, namely the target interface is the expansion of the content corresponding to the component information to realize the complete display of the content corresponding to the component information. The target interface includes, but is not limited to, text information, drawing information and video information of the part to be identified. And finally, the display unit displays a target interface in the display area so as to display the component information of the part to be identified. Through the technical scheme, the parts to be identified in the control area of the augmented reality display device can be in one-to-one correspondence with the information of the target interface in the display area, and design and teaching are facilitated.

Wherein, the current display interface and the target interface can display different parts of the same content, for example: the control area and the display area are spliced in a split screen mode, the current display interface and the target interface can respectively display different parts of the same object, the parts can be local views, one can be an overall view, and the other is a local enlarged view; in addition, the target interface may also display a different form of the same object as the current display interface, for example, a two-dimensional plane drawing is displayed in the control area, and a three-dimensional solid model corresponding to the drawing is displayed in the display area.

In the above technical solution, preferably, the method further includes: a trajectory acquisition unit configured to acquire a movement trajectory of the component to be recognized on the control area before reading the component information of the component to be recognized; the judging unit is used for determining whether a target instruction is associated with the moving track in a preset database and generating a judging result; and the execution unit is used for reading the component information of the part to be identified according to the target instruction when the judgment result is yes.

In the technical scheme, after the part to be identified exists in the control area and before the member information of the part to be identified is read, the track acquisition unit acquires the moving track of the part to be identified on the control area, wherein the moving track of the part to be identified comprises the position change of the part to be identified and the rotating angle of the part to be identified at each position; after the track acquiring unit acquires the moving track of the part to be recognized, the judging unit determines whether a target instruction and the moving track are associated in a preset database or not, and generates a judging result, when the judging result is yes, namely the target instruction associated with the moving track exists, the executing unit reads the component information of the part to be recognized according to the target instruction, wherein the moving track of the part to be recognized is different, the target instruction corresponding to the moving track is different, at the moment, the component information of the part to be recognized read by the executing unit according to the target instruction is also different, the component information read by the executing unit according to the target instruction can be the part type, the installation position, the assembly relation, the entity shape, the drawing information, the video information and the like of the part to be recognized, and can also be the further processing of the information of the existing part to be recognized, such as the translation of displayed character information, zooming out and zooming in on the displayed drawing information, zooming out or zooming in on the video information, or pausing.

In the above technical solution, preferably, each component to be identified is provided with identification information, and the reading unit is specifically configured to determine a storage path corresponding to the component to be identified through the identification information, and determine component information in the memory according to the storage path, where the identification information includes two-dimensional code information or barcode information, and the memory includes a local memory or a cloud memory.

In the technical scheme, the component information of the to-be-identified component is stored in a local memory or a cloud memory, the to-be-identified component is provided with identification information corresponding to a component information storage path of the to-be-identified component, wherein the identification information is two-dimensional code information or bar code information, when the component information on each to-be-identified component is identified, the two-dimensional code information or the bar code information on the to-be-identified component is firstly identified so as to obtain the storage path of the component information of the to-be-identified component, and then the component information of the to-be-identified component stored in the local memory or the cloud memory is determined according to the storage path, so that the component information of the to-be-identified component.

In the above technical solution, preferably, the component information includes: the method comprises the following steps of (1) classifying components, mounting positions, assembling relations, entity shapes, drawing information, production information, transportation information and construction information; the interface determining unit is specifically used for determining whether drawing information corresponding to the part to be identified is displayed on the current display interface, and when the drawing information is determined to be displayed, determining the entity shape corresponding to the drawing information; the display unit is specifically configured to display the physical shape on the display area.

In the technical scheme, after the reading unit determines the component information of the part to be identified, the interface determining unit determines whether the drawing information corresponding to the part to be identified is displayed on the current display interface, if the drawing information of the part to be identified is displayed on the current display interface, the entity shape corresponding to the drawing information is determined, and then the entity shape corresponding to the drawing information is displayed on the target interface of the display unit.

It should be noted that the component information of the component to be identified includes a component type, an installation position, an assembly relationship, a physical shape, drawing information, production information, transportation information, construction information, and the like of the component to be identified.

In the above technical solution, preferably, the current display interface specifically includes: the menu interface comprises a first-level menu interface, a plurality of second-level menu interfaces corresponding to a plurality of first-level menus in the first-level menu interface and a plurality of third-level menu interfaces corresponding to a plurality of second-level menus in the second-level menu interfaces, wherein when the current display interface is the first-level menu interface, the target interface is the second-level menu interface, and when the current display interface is the second-level menu interface, the target interface is the third-level menu interface.

In the technical scheme, the display interface comprises a first-level menu interface, a plurality of second-level menu interfaces and a plurality of third-level menu interfaces, wherein the plurality of second-level menu interfaces correspond to first-level menus in the first-level menu interfaces one by one, and the plurality of third-level menu interfaces correspond to second-level menus in the second-level menu interfaces one by one. And if the current display interface is the first-level menu interface, determining a second-level menu interface as a target interface according to the current display interface and the read component information, and if the current display interface is the second-level menu interface, determining a third-level menu interface as the target interface according to the current display interface and the read component information.

It can be understood that, when the target interface displays a certain level of menu interface, the current display interface may be simultaneously switched to the same display interface as the target interface, and the higher level menu interface may also be kept unchanged, for example: when the target interface displays the third-level menu interface, the current display interface can also display the same third-level menu interface, or the current display interface can display a second-level menu interface corresponding to the third-level menu interface.

In the foregoing technical solution, preferably, the plurality of first-level menus in the first-level menu interface include: designing, producing, transporting and constructing; the plurality of secondary menus in the secondary menu interface corresponding to production includes: manual production, automatic production and production scenario roaming; the plurality of secondary menus in the secondary menu interface corresponding to the construction includes: construction site roaming, building internal roaming and component construction.

In the technical scheme, the first-level menu interface comprises four first-level menus of design, production, transportation and construction, and a plurality of second-level menus in the second-level menu interface corresponding to the production comprise: manual production, automatic production and production scenario roaming; the plurality of secondary menus in the secondary menu interface corresponding to the construction includes: construction site roaming, building internal roaming and component construction.

The user can click any one primary menu in the touch screen with the primary menu interface, for example, after clicking a production menu, the interface displays three secondary menus of manual production, automatic production and production scene roaming, and after clicking a construction menu, the interface displays three secondary menus of construction site roaming and construction of a roaming component in a building.

The third aspect of the present invention provides an augmented reality display apparatus, including a memory, a processor, and a computer program stored in the memory and executable on the processor, where the processor implements the component display method in any one of the first aspect when executing the computer program.

In this technical solution, when the computer program on the memory of the augmented reality display device runs on the processor, the component display method in any one of the first aspect can be implemented, and the component information corresponding to the component to be recognized can be displayed in real time, which is convenient for design and teaching.

An aspect of the fourth aspect of the present invention provides a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processor, implements the component display method in any one of the aspects of the first aspect.

In this embodiment, when the computer program on the computer-readable storage medium is executed by the processor, the component display method in any one of the first aspect can be implemented, and the component information corresponding to the component to be identified can be displayed in real time, which is convenient for design and teaching.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

FIG. 1 shows a flow diagram of a component display method according to an embodiment of the invention;

FIG. 2 shows a flow diagram of a component display method according to an embodiment of the invention;

FIG. 3 shows a flow diagram of a component display method according to an embodiment of the invention;

FIG. 4 shows a schematic structural diagram of a component display system according to an embodiment of the invention;

FIG. 5 shows a schematic structural diagram of a component display system according to an embodiment of the invention;

FIG. 6 illustrates a relationship diagram of a level one menu and a level two menu according to an embodiment of the invention;

fig. 7 illustrates a partial structural schematic diagram of an augmented reality display apparatus according to an embodiment of the present invention;

fig. 8 is a schematic diagram illustrating a partial structure of an augmented reality display apparatus according to an embodiment of the present invention.

Detailed Description

So that the manner in which the above recited objects, features and advantages of the present invention can be understood in detail, a more particular description of the invention, briefly summarized above, may be had by reference to the embodiments thereof which are illustrated in the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

As shown in fig. 1 and 7, in an embodiment of a first aspect of the present invention, there is provided a component display method for an augmented reality display apparatus having a control region with a recognition function and a display region, the component display method including:

step S102, judging whether a part to be identified exists in the control area, and reading component information of the part to be identified when the part to be identified exists;

step S104, determining a current display interface of the control area, and determining a target interface according to the current display interface and the member information;

and step S106, displaying the target interface in the display area.

In this embodiment, step S102, determining whether a component to be identified exists in the control area, specifically, continuously detecting the existence of the component to be identified in the control area, and reading the component information of the component to be identified until it is determined that the component to be identified exists in the control area; and step S104, determining a current display interface of the control area, wherein the control area can display a plurality of interfaces (namely the current display interface) to realize the layered display of the content, and determining a target interface according to the current display interface and the read component information of the component to be identified, wherein the target interface is the expansion of the content corresponding to the component information to realize the complete display of the content corresponding to the component information. The target interface includes, but is not limited to, text information, drawing information and video information of the part to be identified. And step S106, displaying a target interface in the display area to realize the display of the component information of the part to be identified. Through the embodiment, the parts to be recognized in the control area of the augmented reality display device can be in one-to-one correspondence with the information of the target interface in the display area, and design and teaching are facilitated.

As shown in fig. 7, the current display interface and the target interface may display different parts of the same content, for example: the control area and the display area are spliced in a split screen mode, the current display interface and the target interface can respectively display different parts of the same object, the parts can be local views, one can be an overall view, and the other is a local enlarged view; in addition, the target interface may display a different form of the same object as the current display interface, for example, a two-dimensional plane drawing is displayed in the control area 702, and a three-dimensional solid model corresponding to the drawing is displayed in the display area 704.

As shown in fig. 2, in one embodiment of the present invention, preferably, the part display method includes:

step S202, judging whether a part to be identified exists in the control area, and acquiring a moving track of the part to be identified on the control area when the part to be identified is determined to exist;

step S204, judging whether a target instruction is associated with the moving track in a preset database, and generating a judgment result;

when the judgment result is yes, step S206, acquiring component information of the component to be identified according to the target instruction;

step S208, determining a current display interface of the control area, and determining a target interface according to the current display interface and the member information;

step S210, displaying a target interface in the display area,

the current display interface specifically comprises: the menu interface comprises a first-level menu interface, a plurality of second-level menu interfaces corresponding to a plurality of first-level menus in the first-level menu interface and a plurality of third-level menu interfaces corresponding to a plurality of second-level menus in the second-level menu interfaces, wherein when the current display interface is the first-level menu interface, the target interface is the second-level menu interface, and when the current display interface is the second-level menu interface, the target interface is the third-level menu interface.

In this embodiment, step S202, determining whether a component to be identified exists in the control area, specifically, continuously detecting the existence of the component to be identified in the control area, until it is determined that the component to be identified exists in the control area, acquiring a movement trajectory of the component to be identified on the control area, where the movement trajectory of the component to be identified includes a change in position of the component to be identified and a rotation angle at each position; after the moving track of the part to be identified is determined, step S204, determining whether a target instruction associated with the moving track exists in a preset database, and generating a determination result, and if the determination result is yes, that is, if the target instruction associated with the moving track exists, step S206, reading component information of the part to be identified according to the target instruction, in this embodiment, the component information read according to the target instruction is the part category, the installation position, the assembly relationship, the entity shape, the drawing information and the video information of the part to be identified; step S208, determining a current display interface of the control area, and determining a target interface according to the current display interface and the component information, specifically, if the current display interface is a primary menu interface, determining a secondary menu interface as the target interface according to the current display interface and the read component information, and if the current display interface is the secondary display interface, determining a tertiary menu interface as the target interface according to the current display interface and the read component information, that is, the target interface is the expansion of the content corresponding to the component information, so as to realize the complete display of the component category, the installation position, the assembly relationship, the entity shape, the drawing information and the video information of the component to be identified; and step S210, displaying a target interface in the display area to realize the display of the component information of the part to be identified.

In this embodiment, the target command corresponds to a motion trajectory of the component to be recognized passing through three preset positions in sequence.

Preferably, when the part to be recognized rotates clockwise by more than 30 degrees at the preset position, the target instruction corresponding to the motion track of the part to be recognized is to enlarge the image on the display interface and display the enlarged image on the target interface.

Preferably, when the component to be recognized rotates counterclockwise more than 30 degrees at the preset position, the target instruction corresponding to the motion trajectory of the component to be recognized is to reduce the image on the display interface and display the reduced image on the target interface.

Preferably, when the component to be recognized translates on the preset path, the target instruction corresponding to the motion trajectory of the component to be recognized is to translate the image on the display interface synchronously, and display the translated image on the target interface, so as to display different parts of the component to be recognized.

It should be noted that, the moving track of the component to be recognized is different, the target instruction corresponding to the moving track is different, and the component information of the component to be recognized read by the target instruction is also different, and the component information read according to the target instruction may be the component type, the installation position, the assembly relationship, the entity shape, the drawing information, the video information, and the like of the component to be recognized, or may be further processing of the existing information of the component to be recognized, such as translation of the displayed text information, reduction and enlargement of the displayed drawing information, reduction or enlargement of the video information, or suspension.

It can be understood that, when the target interface displays a certain level of menu interface, the current display interface may be simultaneously switched to the same display interface as the target interface, and the higher level menu interface may also be kept unchanged, for example: when the target interface displays the third-level menu interface, the current display interface can also display the same third-level menu interface, or the current display interface can display a second-level menu interface corresponding to the third-level menu interface.

As shown in fig. 3, in one embodiment of the present invention, preferably, the part display method includes:

step S302, judging whether a component to be identified exists in the control area, and reading identification information of the component to be identified when the component to be identified exists;

step S304, determining a storage path corresponding to the part to be identified through the identification information;

step S306, determining component information of the part to be identified in the local memory according to the storage path;

step S308, determining whether drawing information corresponding to the part to be identified is displayed on the current display interface, and determining the entity shape corresponding to the drawing information when the drawing information is determined to be displayed;

step S310, determining the entity shape corresponding to the drawing information displayed on the target interface;

in step S312, a target interface is displayed in the display area.

In this embodiment, step S302, determining whether a component to be identified exists in the control area, specifically, continuously detecting the existence of the component to be identified in the control area, and acquiring the identification information of the component to be identified until it is determined that the component to be identified exists in the control area; step S304, identifying the two-dimensional code information on the part to be identified so as to obtain a storage path of the component information of the part to be identified; step S306, determining the component information of the part to be identified stored in the local memory according to the storage path, wherein the step S comprises the following steps: the acquisition of the component information of the part to be identified is completed at the moment, such as the part category, the installation position, the assembly relationship, the entity shape, the drawing information and the like of the part to be identified; step S308, determining whether the drawing information corresponding to the part to be identified is displayed on the current display interface, and if the drawing information of the part to be identified is displayed on the current display interface, determining the entity shape corresponding to the drawing information; step S310, determining the entity shape corresponding to the drawing information displayed on the target interface; and step S312, displaying a target interface in the display area to realize the display of the entity shape of the part to be recognized.

It should be noted that the component information of the component to be identified includes a component type, an installation position, an assembly relationship, a physical shape, drawing information, and the like of the component to be identified.

As shown in fig. 6, in one embodiment of the present invention, preferably, the plurality of primary menus in the primary menu interface include: designing, producing, transporting and constructing; the plurality of secondary menus in the secondary menu interface corresponding to production includes: manual production, automatic production and production scenario roaming; the plurality of secondary menus in the secondary menu interface corresponding to the construction includes: construction site roaming, building internal roaming and component construction.

In this embodiment, the first-level menu interface includes four first-level menus of design, production, transportation, and construction, and the plurality of second-level menus in the second-level menu interface corresponding to production includes: manual production, automatic production and production scenario roaming; the plurality of secondary menus in the secondary menu interface corresponding to the construction includes: construction site roaming, building internal roaming and component construction.

The user can click any one primary menu in the touch screen with the primary menu interface, for example, after clicking a production menu, the interface displays three secondary menus of manual production, automatic production and production scene roaming, and after clicking a construction menu, the interface displays three secondary menus of construction site roaming and construction of a roaming component in a building.

As shown in fig. 4, an embodiment of a second aspect of the present invention provides a component display system 400 for an augmented reality display device having a control region with an identification function and a display region, the component display system comprising:

a reading unit 402, configured to determine whether a component to be identified exists in the control area, and when it is determined that the component to be identified exists, read component information of the component to be identified;

an interface determining unit 404, configured to determine a current display interface of the control area, and determine a target interface according to the current display interface and the component information;

and a display unit 406, configured to display the target interface in the display area.

In this embodiment, the reading unit 402 of the component display system determines whether a component to be identified exists in the control area, and in particular, continuously detects the existence of the component to be identified in the control area until it is determined that the component to be identified exists in the control area, and reads the component information of the component to be identified; subsequently, the interface determining unit 404 determines a current display interface of the control area, and as can be understood, the control area may display a plurality of interfaces (i.e., the current display interface) to implement hierarchical display of the content, and the interface determining unit determines, according to the current display interface and the read component information of the component to be identified, a target interface, that is, the target interface is an expansion of the content corresponding to the component information to implement complete display of the content corresponding to the component information. The target interface includes, but is not limited to, text information, drawing information and video information of the part to be identified. Finally, the display unit 406 displays a target interface in the display area to realize the display of the component information of the part to be recognized. Through the embodiment, the parts to be recognized in the control area of the augmented reality display device can be in one-to-one correspondence with the information of the target interface in the display area, and design and teaching are facilitated.

As shown in fig. 7, the current display interface and the target interface may display different parts of the same content, for example: the control area and the display area are spliced in a split screen mode, the current display interface and the target interface can respectively display different parts of the same object, the parts can be local views, one can be an overall view, and the other is a local enlarged view; in addition, the target interface may also display a different form of the same object as the current display interface, for example, a two-dimensional plane drawing is displayed in the control area, and a three-dimensional solid model corresponding to the drawing is displayed in the display area.

As shown in FIG. 5, in one embodiment of the present invention, a component display system 500 comprises:

a reading unit 502 for judging whether a component to be identified exists in the control area;

a trajectory acquisition unit 504 for acquiring a movement trajectory of the component to be recognized on the control area before reading the component information of the component to be recognized;

a determining unit 506, configured to determine whether a target instruction is associated with the moving track in a preset database, and generate a determination result;

an execution unit 508, configured to, when a determination result is yes, read component information of the component to be identified according to the target instruction;

an interface determining unit 510, configured to determine a current display interface of the control area, and determine a target interface according to the current display interface and the component information;

and a display unit 512 for displaying the target interface in the display area.

In this embodiment, the reading unit 502 determines whether a component to be identified exists in the control area, specifically, continuously detects the existence of the component to be identified in the control area until it is determined that the component to be identified exists in the control area, and the trajectory acquiring unit 504 acquires the movement trajectory of the component to be identified on the control area, where the movement trajectory of the component to be identified includes the position change of the component to be identified and the rotation angle at each position; after the track acquiring unit 504 acquires the moving track of the component to be recognized, the determining unit 506 determines whether a target instruction is associated with the moving track in the preset database, and generates a determination result, when the determination result is yes, that is, when the target instruction associated with the moving track exists, the executing unit reads the component information of the component to be recognized according to the target instruction, it needs to be pointed out that the moving track of the component to be recognized is different, and the target instruction corresponding to the moving track is different, at this time, the executing unit 508 reads the component information of the component to be recognized according to the target instruction, and the component information read by the executing unit 508 according to the target instruction may be the component type, the installation position, the assembly relationship, the entity shape, the drawing information, the video information, etc. of the component to be recognized, or may be further processing of the information of the existing component to be recognized, such as translation of the displayed text information, the interface determining unit 510 determines a current display interface of the control area according to the current display interface and the component information, that is, the target interface is the expansion of the content corresponding to the component information, so as to realize the complete display of the content corresponding to the component information; the display unit 512 displays a target interface in a display area to enable display of component information of a part to be recognized.

In an embodiment of the present invention, preferably, each component to be identified is provided with identification information, and the reading unit is specifically configured to determine a storage path corresponding to the component to be identified through the identification information, and determine component information in the memory according to the storage path, where the identification information includes two-dimensional code information or bar code information, and the memory includes a local memory or a cloud memory.

In this embodiment, the component information of the component to be recognized is stored in the local memory or the cloud memory, and the component to be recognized is provided with the recognition information corresponding to the component information storage path of the component to be recognized, where the recognition information is two-dimensional code information or barcode information, and when the component information on each component to be recognized is recognized, the two-dimensional code information or barcode information on the component to be recognized is recognized first to obtain the storage path of the component information of the component to be recognized, and then the component information of the component to be recognized stored in the local memory or the cloud memory is determined according to the storage path, and at this time, the obtaining of the component information of the component to be recognized is completed.

In one embodiment of the present invention, preferably, the component information includes: the method comprises the following steps of (1) classifying components, mounting positions, assembling relations, entity shapes, drawing information, production information, transportation information and construction information; the interface determining unit is specifically used for determining whether drawing information corresponding to the part to be identified is displayed on the current display interface, and when the drawing information is determined to be displayed, determining the entity shape corresponding to the drawing information; the display unit is specifically configured to display the physical shape on the display area.

In this embodiment, after the reading unit determines the component information of the part to be recognized, the interface determining unit determines whether the drawing information corresponding to the part to be recognized is displayed on the current display interface, determines the physical shape corresponding to the drawing information if the drawing information of the part to be recognized is displayed on the current display interface, and then displays the physical shape corresponding to the drawing information on the display unit target interface.

It should be noted that the component information of the component to be identified includes a component type, an installation position, an assembly relationship, a physical shape, drawing information, production information, transportation information, construction information, and the like of the component to be identified.

In an embodiment of the present invention, preferably, the current display interface specifically includes: the menu interface comprises a first-level menu interface, a plurality of second-level menu interfaces corresponding to a plurality of first-level menus in the first-level menu interface and a plurality of third-level menu interfaces corresponding to a plurality of second-level menus in the second-level menu interfaces, wherein when the current display interface is the first-level menu interface, the target interface is the second-level menu interface, and when the current display interface is the second-level menu interface, the target interface is the third-level menu interface.

In this embodiment, the display interface includes a first-level menu interface, a plurality of second-level menu interfaces, and a plurality of third-level menu interfaces, where the plurality of second-level menu interfaces correspond to first-level menus in the first-level menu interface one to one, and the plurality of third-level menu interfaces correspond to second-level menus in the second-level menu interfaces one to one. And if the current display interface is the first-level menu interface, determining a second-level menu interface as a target interface according to the current display interface and the read component information, and if the current display interface is the second-level menu interface, determining a third-level menu interface as the target interface according to the current display interface and the read component information.

It can be understood that, when the target interface displays a certain level of menu interface, the current display interface may be simultaneously switched to the same display interface as the target interface, and the higher level menu interface may also be kept unchanged, for example: when the target interface displays the third-level menu interface, the current display interface can also display the same third-level menu interface, or the current display interface can display a second-level menu interface corresponding to the third-level menu interface.

As shown in fig. 6, in one embodiment of the present invention, preferably, the plurality of primary menus in the primary menu interface include: designing, producing, transporting and constructing; the plurality of secondary menus in the secondary menu interface corresponding to production includes: manual production, automatic production and production scenario roaming; the plurality of secondary menus in the secondary menu interface corresponding to the construction includes: construction site roaming, building internal roaming and component construction.

In this embodiment, the first-level menu interface includes four first-level menus of design, production, transportation, and construction, and the plurality of second-level menus in the second-level menu interface corresponding to production includes: manual production, automatic production and production scenario roaming; the plurality of secondary menus in the secondary menu interface corresponding to the construction includes: construction site roaming, building internal roaming and component construction.

The user can click any one primary menu in the touch screen with the primary menu interface, for example, after clicking a production menu, the interface displays three secondary menus of manual production, automatic production and production scene roaming, and after clicking a construction menu, the interface displays three secondary menus of construction site roaming and construction of a roaming component in a building.

As shown in fig. 7 and 8, an embodiment of the third aspect of the present invention provides an augmented reality display apparatus 600, including:

a memory 602;

a processor 604 and a computer program stored on the memory 602 and executable on the processor 604, the processor 604 implementing the component display method in any of the embodiments of the first aspect when executing the computer program.

In this embodiment, when the computer program on the memory 602 of the augmented reality display device 600 runs on the processor 604, the component display method in any embodiment of the first aspect can be implemented, and the component information corresponding to the component to be identified can be displayed in real time, so as to facilitate design and teaching.

An embodiment of a fourth aspect of the present invention provides a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, implements the component display method in any one of the embodiments of the first aspect.

In this embodiment, when the computer program on the computer-readable storage medium is executed by the processor, the component display method in any embodiment of the first aspect can be implemented, and the component information corresponding to the component to be identified can be displayed in real time, so as to facilitate design and teaching.

The embodiment of the invention is described in detail in the above with reference to the drawings, and the component information corresponding to the part to be identified can be displayed in real time through the embodiment of the invention, so that the design and teaching are facilitated.

In the present invention, the terms "first", "second", and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more unless expressly limited otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", "front", "rear", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or unit must have a specific direction, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (12)

1. A component display method for an augmented reality display device having a control region with a recognition function and a display region, the component display method comprising:

judging whether a component to be identified exists in the control area, and reading component information of the component to be identified when the component to be identified exists;

determining a current display interface of the control area, and determining a target interface according to the current display interface and the component information;

displaying the target interface in the display area;

the control area and the display area are spliced in a split screen mode, and the current display interface and the target interface can respectively display different parts of the same object;

the component information includes: the method comprises the following steps of (1) classifying components, mounting positions, assembling relations, entity shapes, drawing information, production information, transportation information and construction information;

the determining a target interface according to the current display interface and the component information specifically includes:

determining whether drawing information corresponding to the part to be identified is displayed on the current display interface, and determining the entity shape corresponding to the drawing information when the drawing information is determined to be displayed;

displaying the solid shape on the target interface.

2. The component display method according to claim 1, further comprising, before the reading of the component information of the component to be identified:

acquiring a moving track of the part to be identified on the control area;

determining whether a target instruction is associated with the moving track or not in a preset database, and generating a judgment result;

and when the judgment result is yes, reading the component information of the part to be identified according to the target instruction.

3. The component display method according to claim 2, wherein each component to be identified is provided with identification information, and the reading of the component information of the component to be identified specifically includes:

determining a storage path corresponding to the component to be identified through the identification information;

determining the component information in a memory based on the storage path,

the identification information comprises two-dimensional code information or bar code information, and the memory comprises a local memory or a cloud memory.

4. The component display method according to any one of claims 1 to 3, wherein the current display interface specifically includes: the method comprises a first-level menu interface, a plurality of second-level menu interfaces corresponding to a plurality of first-level menus in the first-level menu interface and a plurality of third-level menu interfaces corresponding to a plurality of second-level menus in the second-level menu interface, wherein when the current display interface is the first-level menu interface, the target interface is the second-level menu interface, and when the current display interface is the second-level menu interface, the target interface is the third-level menu interface.

5. The component display method according to claim 4, wherein the plurality of one-level menus in the one-level menu interface include: designing, producing, transporting and constructing; a plurality of the secondary menus in the secondary menu interface corresponding to production comprises: manual production, automatic production and production scenario roaming; a plurality of the secondary menus in the secondary menu interface corresponding to a construction includes: construction site roaming and construction of roaming components in buildings.

6. A component display system for an augmented reality display device having a control region with an identification function and a display region, the component display system comprising:

the reading unit is used for judging whether a component to be identified exists in the control area or not, and reading the component information of the component to be identified when the component to be identified exists;

the interface determining unit is used for determining a current display interface of the control area and determining a target interface according to the current display interface and the component information;

the display unit is used for displaying the target interface in the display area;

the control area and the display area are spliced in a split screen mode, and the current display interface and the target interface can respectively display different parts of the same object;

the component information includes: the method comprises the following steps of (1) classifying components, mounting positions, assembling relations, entity shapes, drawing information, production information, transportation information and construction information;

the interface determining unit is specifically configured to determine whether drawing information corresponding to the part to be recognized is displayed on the current display interface, and when it is determined that the drawing information is displayed, determine an entity shape corresponding to the drawing information;

the display unit is specifically configured to display the entity shape on the display area.

7. The component display system of claim 6, further comprising:

a trajectory acquisition unit configured to acquire a movement trajectory of the component to be recognized on the control area before the reading of the component information of the component to be recognized;

the judging unit is used for determining whether a target instruction is associated with the moving track in a preset database and generating a judging result;

and the execution unit is used for reading the component information of the part to be identified according to the target instruction when the judgment result is yes.

8. The component display system according to claim 7, wherein each component to be identified is provided with identification information, the reading unit is specifically configured to determine a storage path corresponding to the component to be identified from the identification information and determine the component information in a memory according to the storage path,

the identification information comprises two-dimensional code information or bar code information, and the memory comprises a local memory or a cloud memory.

9. The component display system according to any one of claims 6 to 8, wherein the current display interface specifically comprises: the method comprises a first-level menu interface, a plurality of second-level menu interfaces corresponding to a plurality of first-level menus in the first-level menu interface and a plurality of third-level menu interfaces corresponding to a plurality of second-level menus in the second-level menu interface, wherein when the current display interface is the first-level menu interface, the target interface is the second-level menu interface, and when the current display interface is the second-level menu interface, the target interface is the third-level menu interface.

10. The component display system of claim 9, wherein the plurality of one-level menus in the one-level menu interface comprises: designing, producing, transporting and constructing; recognizing and reading a component diagram; a plurality of the secondary menus in the secondary menu interface corresponding to production comprises: manual production, automatic production and production scenario roaming; a plurality of the secondary menus in the secondary menu interface corresponding to a construction includes: construction site roaming, building internal roaming and component construction.

11. An augmented reality display device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the component display method of any one of claims 1 to 5 when executing the computer program.

12. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, implements the component display method according to any one of claims 1 to 5.

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