CN114356156B - Interaction method, device and storage medium of 3D scanning interface - Google Patents

Abstract

The application provides an interaction method, equipment and a storage medium of a 3D scanning interface, comprising the following steps: acquiring a mode selection interface; receiving a mode selection instruction acting on a handheld mode button or acting on a turntable mode button, and displaying a corresponding working mode interface; displaying a state switching button on the working mode interface; receiving a state switching instruction acting on a state switching button to enable the scanner to enter a corresponding working state; displaying a working state interface corresponding to the working state after the scanner enters the working state; displaying corresponding operation buttons and editing panels according to the working state interface; and receiving an operation instruction acting on an operation button or an editing instruction acting on an editing panel, and correspondingly processing the 3D scanning data. By displaying the corresponding working state interface when the scanner is in different working states, only the operation buttons and the editing panel related to the working states are displayed on the interface, and information displayed on the software interface is simplified, so that a user is helped to quickly get up.

Description

Interaction method, device and storage medium of 3D scanning interface

Technical Field

The present application relates to the field of computer software, and in particular, to an interaction method, apparatus, and storage medium for a 3D scanning interface.

Background

The three-dimensional exhibition of the 3D scanning technology can be exhibited in aspects of social life, and based on the development of the scanning technology, the object structure can be scanned in multiple directions by using software, so that a three-dimensional digital model of the object is built.

Manipulation of hardware devices and processing of scan data are core functions of 3D scanner software. For novice users, a certain learning cost is required for data processing of 3D scanning, and excessive information is easy to cause on software interface design and difficult to operate. Meanwhile, the excessively complicated information and flow can reduce the use experience of the user.

The current conventional design of scanner interfaces is to show all operations on the interface in their entirety. The working state and the available operation of the device must be memorized and carried out depending on the familiarity of the user with the software, and the working interface cannot be combined with the working state.

Disclosure of Invention

The invention aims to provide an interaction method, equipment and storage medium of a 3D scanning interface, which can solve the problem that a corresponding working interface cannot be displayed according to the step sequence during 3D scanning.

In order to achieve the above object, the present invention provides the following technical solutions:

in a first aspect, an interaction method of a 3D scan interface is provided, including:

Obtaining a mode selection interface, the mode selection interface comprising: a hand-held mode button, a turntable mode button;

Receiving a mode selection instruction acting on the handheld mode button or acting on the turntable mode button, and displaying a corresponding working mode interface, wherein the working mode interface comprises: the device comprises a handheld working mode interface and a turntable working mode interface, wherein the handheld working mode button corresponds to the handheld working mode interface, and the turntable working mode button corresponds to the turntable working mode interface;

displaying a state switching button on the working mode interface;

Receiving a state switching instruction acting on the state switching button, and enabling the scanner to enter a corresponding working state, wherein the working state comprises the following steps: preview state, scan state, edit state, composition state;

After the scanner enters the working state, displaying a working state interface corresponding to the working state;

Displaying corresponding operation buttons and editing panels according to the working state interface;

And receiving an operation instruction acting on the operation button or an editing instruction acting on the editing panel, and correspondingly processing the 3D scanning data.

In a second aspect, there is provided a computer device comprising:

A memory and a processor, the memory storing a computer program that, when executed by the processor, causes the processor to perform the steps of:

Obtaining a mode selection interface, the mode selection interface comprising: a hand-held mode button, a turntable mode button;

Receiving a mode selection instruction acting on the handheld mode button or acting on the turntable mode button, and displaying a corresponding working mode interface, wherein the working mode interface comprises: the device comprises a handheld working mode interface and a turntable working mode interface, wherein the handheld working mode button corresponds to the handheld working mode interface, and the turntable working mode button corresponds to the turntable working mode interface;

displaying a state switching button on the working mode interface;

Receiving a state switching instruction acting on the state switching button, and enabling the scanner to enter a corresponding working state, wherein the working state comprises the following steps: preview state, scan state, edit state, composition state;

After the scanner enters the working state, displaying a working state interface corresponding to the working state;

Displaying corresponding operation buttons and editing panels according to the working state interface;

And receiving an operation instruction acting on the operation button or an editing instruction acting on the editing panel, and correspondingly processing the 3D scanning data.

In a third aspect, there is provided a computer readable storage medium comprising: a computer program is stored which, when executed by a processor, causes the processor to perform the steps of:

Obtaining a mode selection interface, the mode selection interface comprising: a hand-held mode button, a turntable mode button;

Receiving a mode selection instruction acting on the handheld mode button or acting on the turntable mode button, and displaying a corresponding working mode interface, wherein the working mode interface comprises: the device comprises a handheld working mode interface and a turntable working mode interface, wherein the handheld working mode button corresponds to the handheld working mode interface, and the turntable working mode button corresponds to the turntable working mode interface;

displaying a state switching button on the working mode interface;

Receiving a state switching instruction acting on the state switching button, and enabling the scanner to enter a corresponding working state, wherein the working state comprises the following steps: preview state, scan state, edit state, composition state;

After the scanner enters the working state, displaying a working state interface corresponding to the working state;

Displaying corresponding operation buttons and editing panels according to the working state interface;

And receiving an operation instruction acting on the operation button or an editing instruction acting on the editing panel, and correspondingly processing the 3D scanning data.

According to the interaction method, the interaction device and the interaction storage medium of the 3D scanning interface, when the scanner is in different working states, the working state interface corresponding to the working state is displayed, and only the operation buttons and the editing panel related to the working state are displayed on the working state interface, so that information displayed on the software interface is simplified, and a user is helped to quickly get up with 3D software.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Wherein:

FIG. 1 is a flow diagram of a method of interaction of a 3D scanning interface in one embodiment;

FIG. 2 is a block diagram of an interactive device of a 3D scanning interface in one embodiment;

FIG. 3 is an internal block diagram of a computer device in one embodiment;

FIG. 4 is a schematic diagram of an interaction method of a 3D scanning interface in one embodiment;

FIG. 5 is a schematic diagram of an interaction method of a 3D scanning interface in one embodiment;

FIG. 6 is a schematic diagram of an interaction method of a 3D scanning interface in one embodiment;

FIG. 7 is a schematic diagram of an interaction method of a 3D scanning interface in one embodiment;

FIG. 8 is a schematic diagram of an interaction method of a 3D scanning interface in one embodiment;

FIG. 9 is a schematic diagram of an interaction method of a 3D scanning interface in one embodiment;

FIG. 10 is a schematic diagram of an interaction method of a 3D scanning interface in one embodiment;

FIG. 11 is a schematic diagram of an interaction method of a 3D scan interface in one embodiment;

Wherein, 1, editing a panel; 2. an object to be scanned; 3. a work window; 4. prompting a text frame; 5. a preview button; 6. a scan button; 7. reconstructing a popup window by data; 8. adding a button; 9. a composition button; 10. a layer panel; 11. identifying a button; 12. a turntable.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

The technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

It is noted that the terms "comprising," "including," and "having," and any variations thereof, in the description and claims of the application and in the foregoing figures, are intended to cover non-exclusive inclusions. For example, a process, method, terminal, article, or apparatus that comprises a list of steps or elements is not limited to only those listed steps or elements but may include other steps or elements not listed or inherent to such process, method, article, or apparatus. In the claims, specification, and drawings of the present application, relational terms such as "first" and "second", and the like are used solely to distinguish one entity/operation/object from another entity/operation/object without necessarily requiring or implying any actual such relationship or order between such entities/operations/objects.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

As shown in fig. 1, an interaction method of a 3D scan interface is provided, where the method specifically includes the following steps:

Step 101, a terminal acquires a mode selection interface, wherein the mode selection interface comprises: a hand-held mode button, a turntable mode button.

The common 3D scanning equipment is provided with a handheld mode and a turntable mode, wherein the handheld mode is that the scanned object 2 is fixed, and a user holds the 3D scanner by himself to scan the scanned object 2; the turret mode is a mode in which a user places the scanned object 2 on the turret 12, and the scanner is stationary to scan the scanned object 2. The user selects the scanning mode at the mode selection interface, the selection interface is provided with a handheld mode button and a turntable mode button, and prompt text boxes 4 are respectively arranged beside the two buttons, so that two modes and corresponding operation steps of the two modes are respectively introduced. The terminal comprises a computer or a tablet computer.

Step 102, the terminal receives a mode selection instruction acting on the handheld mode button or acting on the turntable mode button, and displays a corresponding working mode interface, where the working mode interface includes: the handheld working mode interface and the turntable working mode interface, wherein the handheld mode button corresponds to the handheld working mode interface, and the turntable mode button corresponds to the turntable working mode interface.

When the user clicks the handheld mode button or the turntable mode button, the terminal receives a selection instruction of the user and displays a corresponding working mode interface. The user clicks a hand-held mode button, and the terminal displays a hand-held mode interface; the user clicks the turntable mode button, and the terminal displays the turntable working mode interface.

And step 103, the terminal displays a state switching button on the working mode interface.

Different working modes of the 3D scanner have different working steps, for example, a handheld mode has the steps of previewing, scanning, editing, synthesizing and the like, and a turntable mode has the steps of previewing, identifying, scanning, editing, synthesizing and the like. The terminal displays a state switching button on the working mode interface, and when one step is finished, the user clicks the state switching button, and the terminal switches to the next step. The status switch buttons include a preview button 5, a scan button 6, an edit button, a compose button 9, an identify button 11, and the like.

Step 104, the terminal receives a state switching instruction acting on the state switching button, so that the scanner enters a corresponding working state, wherein the working state comprises: preview state, scan state, edit state, composition state.

In the handheld mode, after the user adjusts the parameters, clicking a state switching button to switch to a preview state; after the preview is finished, clicking a state switching button to switch to a scanning state; after the scanning is finished, clicking a state switching button to switch to an editing state; after editing is finished, clicking the state switching button to switch to the synthesized state, and if the user is not satisfied with the scanning effect, clicking the state switching button to switch to the scanning state to continue scanning. In the turntable mode, after the user adjusts the parameters, clicking a state switching button to switch to a preview state; after the user finishes previewing, clicking a state switching button to switch to an identification state; after the user identifies the turntable 12, clicking a state switching button to switch to a scanning state; after the user finishes scanning, clicking a state switching button to switch to an editing state; after the user finishes editing, clicking the state switching button to switch to the synthesized state, and if the scanning effect is not satisfied, clicking the state switching button to switch to the scanning state to continue scanning.

Step 105, displaying a working state interface corresponding to the working state after the scanner enters the working state.

After the scanner enters the working state, the terminal displays a corresponding working state interface. For example, when the scanner enters a preview state, a preview state interface is displayed on the display. According to different working states, different interfaces are displayed, operation buttons irrelevant to the states can be reduced, and the phenomenon that the use experience of a new user is influenced due to excessive display content is avoided.

And step 106, displaying corresponding operation buttons and the editing panel 1 according to the working state interface.

After the display displays the working state interface, the terminal displays the operation buttons corresponding to the working state and the editing panel 1 at the same time. For example, when the scanner enters a preview state, a preview state interface is displayed on the display, and a preview button 5, an editing panel 1, and a presentation text box 4 are displayed on the preview state interface. The user can trigger the corresponding operation by prompting the text box 4 to release the function of the corresponding button and clicking the button.

Step 107, receiving an operation instruction acting on the operation button or an editing instruction acting on the editing panel 1, and performing corresponding processing on the 3D scan data.

The user triggers corresponding operation by clicking a button or editing the panel 1 on the working state interface, so that the 3D scanning data is processed. The complete interaction of the handheld 3D scanning interface comprises the steps of: preview, scan, edit, compose, by clicking on the corresponding buttons and performing the corresponding operations on the edit panel 1. The complete interaction of the turntable 3D scanning interface comprises the following steps: preview, recognition, scanning, editing, composition, by clicking on the corresponding buttons and performing the corresponding operations on editing panel 1.

According to the interaction method of the 3D scanning interface, when the scanner is in different working states, the working state interface corresponding to the working state is displayed, and only the operation buttons and the editing panel related to the working state are displayed on the working state interface, so that information displayed on the software interface is simplified, and a user is helped to quickly get up with 3D software.

In one embodiment, after receiving a mode selection instruction acting on the hand-held mode button, the terminal displays a hand-held operation mode interface, the terminal includes: the terminal displays a preview button 5 on the handheld working mode interface; the terminal receives a preview instruction acting on the preview button 5, so that the scanner enters a preview state; the terminal displays a preview state interface, wherein the preview interface comprises: preview button 5, edit panel 1; the terminal displays the preview residual time on the preview button 5, and a prompt text box 4 is displayed above the preview button 5; the terminal flashes the preview button 5 when the preview residual time reaches the preset time; the terminal receives a pause instruction acting on the preview button 5 to pause the preview state; the terminal receives an adjusting instruction acting on the editing panel 1 and adjusts the brightness of the preview state interface; and when the preview time is zero, the scanner enters a scanning state.

In the handheld mode, as shown in fig. 4, after the user clicks the preview button 5, the user enters a preview state, the terminal displays a preview state interface, the preview state interface has the preview button 5 and the editing panel 1, and the preview button 5 displays the preview remaining time for reminding the user of the preview remaining time, so that the user can grasp the preview time conveniently. And when the preview remaining time reaches the preset time, the preview button 5 blinks, for example, the preset time is 10S, and when the preview remaining time is only 10S, the preview button 5 starts to blinks to remind the user of grasping the time. And a prompt text box 4 is arranged above the preview button 5 and is used for guiding a user to use the preview function. When the preview time is zero, the terminal enters a scanning state, and manual operation is not needed. The current working state is prompted through the dynamic change of the operation buttons, and the user is guided to operate, so that the display content is reduced, and the learning cost of the user is reduced.

In one embodiment, after the scanner enters a scanning state when the preview time is zero, the method further comprises: the terminal displays a scanning state interface, wherein the scanning state interface comprises: a scan button 6, an editing panel 1, the editing panel 1 being disabled; the terminal receives a scanning instruction acting on the scanning button 6, the scanning time is displayed on the scanning button 6, and the prompt text box 4 is displayed above the scanning button 6; the terminal acquires 3D scanning data; the terminal receives a pause instruction acting on the scanning button 6, and a data reconstruction popup window 7 is displayed on the scanning state interface; the terminal receives a stop command acting on the scan button 6 to bring the scanner into an edit state.

In the handheld mode, as shown in fig. 5, after the user enters the scanning state, the terminal displays a scanning state interface, and the scanning state interface is provided with a scanning button 6 and an editing panel 1, so that the editing panel 1 is disabled because information cannot be edited in the scanning process. The scanning button 6 is displayed with a scanning time for recording the scanning time of the user, and the scanning button 6 is provided with a prompt text box 4 for guiding the user to use the scanning function. In addition, as shown in fig. 6, the user may click the scan button 6 to pause the scan, and the terminal automatically performs offline data reconstruction on the scan data when the scan is paused.

In one embodiment, after said receiving a stop command acting on said scan button 6, causing said scanner to enter an edit state, it further comprises: the terminal displays an editing state interface, wherein the editing state interface comprises: an add button 8, a compose button 9, an edit panel 1, and a layer panel 10, wherein the layer panel 10 is used for displaying the number of the 3D scan data, and a prompt text box 4 is displayed above the add button 8 and the compose button 9; the terminal receives an adding instruction acting on the adding button 8 and adds the 3D scanning data; the terminal receives a composition instruction acting on the composition button 9, composes the 3D scan data, and the editing panel 1 displays composition options.

In the hand-held mode, as shown in fig. 7, after the terminal enters the edit state, an edit state interface is displayed, and the edit state interface includes an add button 8, a compose button 9, an edit panel 1, and a layer panel 10. After the user finishes scanning, generating a piece of scanning data, and when the user feels that the data is insufficient, clicking the adding button 8 to enable the terminal to enter a scanning state again for rescanning to acquire new scanning data. When the user feels that the scan data is sufficient, the existing scan data can be synthesized by clicking the synthesis button 9, resulting in a 3D scan model. The adding button 8 and the synthesizing button 9 are provided with prompt text boxes 4 for guiding the user to use the adding function and the synthesizing function. The layer panel 10 is used to display scan data information.

In one embodiment, the operating state further includes an identification state, and after receiving a mode selection command acting on the turntable mode button, displaying a turntable operating mode interface includes: the terminal displays a preview button 5 on the turntable working mode interface; the terminal receives a preview instruction acting on the preview button 5, so that the scanner enters a preview state; the terminal displays a preview state interface, wherein the preview interface comprises: step button, edit panel 1, the step button includes: a preview button 5, an identification button 11 and a scanning button 6, wherein the identification button 11 displays a number 2, and the scanning button 6 displays a number 3; the terminal displays the preview residual time on the preview button 5, and a prompt text box 4 is displayed above the preview button 5; when the preview remaining time reaches a preset time, the preview button 5 flashes; receiving a pause instruction acting on the preview button 5 to pause the preview state; the terminal receives an adjusting instruction acting on the editing panel 1 and adjusts the brightness of the preview state interface; when the preview time is zero, the scanner enters an identification state.

In the turntable mode, as shown in fig. 8, after the user clicks the preview button 5, the terminal enters a preview state, and at this time, a preview state interface is displayed, where the preview state interface includes the preview button 5, the identification button 11, the scan button 6, and the editing panel 1, and the preview button 5 displays the preview remaining time for reminding the user of the preview remaining time, so that the user can grasp the preview time conveniently. And when the preview remaining time reaches the preset time, the preview button 5 blinks, for example, the preset time is 10S, and when the preview remaining time is only 10S, the preview button 5 starts to blinks to remind the user of grasping the time. And a prompt text box 4 is arranged above the preview button 5 and is used for guiding a user to use the preview function. Since the terminal is in the preview state at this time, the recognition button 11 and the scan button 6 are reduced in size and the numbers are displayed without displaying letters, thereby highlighting the preview button 5.

In one embodiment, after the scanner enters the identification state when the preview time is zero, the method further comprises: the terminal displays an identification state interface, wherein the identification state interface comprises a step button and an editing panel 1, the editing panel 1 is forbidden, and the step button comprises: a preview button 5, an identification button 11 and a scanning button 6, wherein the preview button 5 is provided with a number 1, and the scanning button 6 is provided with a number 3; the terminal receives an identification instruction acting on the identification button 11, the identification time is displayed on the identification button 11, and a prompt text box 4 is displayed above the identification button 11; a terminal identification turret 12; the terminal receives a pause instruction acting on the identification button 11 to pause the identification state; the terminal receives a stop command acting on the identification button 11 to bring the scanner into a scanning state.

As shown in fig. 9, in the turn table mode, the turn table 12 needs to be identified for the next scanning. Therefore, after the terminal enters the recognition state, a recognition button 11 is arranged on the recognition state interface, and a prompt text box 4 is arranged above the recognition button 11 and used for guiding a user to use the recognition function. Since the terminal is in the recognition state at this time, the preview button 5 and the scan button 6 are reduced in size and the two buttons are displayed with numerals without displaying letters, thereby highlighting the preview button 5.

In one embodiment, after the receiving a stop command acting on the identification button 11, the scanner is put into a scanning state, further comprising: the terminal displays a scanning state interface, wherein the scanning state interface comprises: a step button and an editing panel 1, wherein the editing panel 1 is disabled, and the step button comprises: a preview button 5, an identification button 11 and a scanning button 6, wherein the preview button 5 is provided with a number 1, and the identification button 11 is provided with a number 2; the terminal receives a scanning instruction acting on the scanning button 6, the scanning time is displayed on the scanning button 6, and the prompt text box 4 is displayed above the scanning button 6; the terminal acquires 3D scanning data; the terminal receives a pause instruction acting on the scanning button 6, and a data reconstruction popup window 7 is displayed on the scanning state interface; the terminal receives a stop command acting on the scan button 6 to bring the scanner into an edit state.

In the turntable mode, as shown in fig. 10, after the terminal enters the scanning state, a scanning state interface is displayed at this time, and the scanning state interface is provided with a scanning button 6 and an editing panel 1, and the editing panel 1 is disabled because information cannot be edited in the scanning process. The scanning button 6 is displayed with a scanning time for recording the scanning time of the user, and the scanning button 6 is provided with a prompt text box 4 for guiding the user to use the scanning function. In addition, the user can click the scan button 6 to pause the scan, and the terminal automatically performs offline data reconstruction on the scan data when the scan is paused. Since the terminal is in the scanning state at this time, the preview button 5 and the recognition button 11 are reduced in size and the numbers are displayed without displaying letters, thereby highlighting the recognition button 11.

In one embodiment, after said receiving a stop command acting on said scan button 6, causing said scanner to enter an edit state, it further comprises: the terminal displays an editing state interface, wherein the editing state interface comprises: an add button 8, a compose button 9, an edit panel 1, and a layer panel 10, wherein the layer panel 10 is used for displaying the number of the 3D scan data, and a prompt text box 4 is displayed above the add button 8 and the compose button 9; the terminal receives an adding instruction acting on the adding button 8 and adds the 3D scanning data; the terminal receives a composition instruction acting on the composition button 9, composes the 3D scan data, and the editing panel 1 displays composition options.

In the turntable mode, as shown in fig. 11, after the terminal enters the edit state, an edit state interface is displayed, and the edit state interface includes an add button 8, a compose button 9, an edit panel 1, and a layer panel 10. After the user finishes scanning, generating a piece of scanning data, and when the user feels that the data is insufficient, clicking the adding button 8 to enable the terminal to enter a scanning state again for rescanning to acquire new scanning data. When the user feels that the scan data is sufficient, the existing scan data can be synthesized by clicking the synthesis button 9, resulting in a 3D scan model. The adding button 8 and the synthesizing button 9 are provided with prompt text boxes 4 for guiding the user to use the adding function and the synthesizing function. The layer panel 10 is used to display scan data information.

As shown in fig. 2, in one embodiment, there is provided an interaction device of a 3D scanning interface, wherein the device includes:

the system comprises an acquisition module, a mode selection interface and a display module, wherein the acquisition module is used for acquiring the mode selection interface, and the mode selection interface comprises: a hand-held mode button, a turntable mode button;

The first receiving module is used for receiving a mode selection instruction acting on the handheld mode button or the turntable mode button and displaying a corresponding working mode interface, and the working mode interface comprises: the device comprises a handheld working mode interface and a turntable working mode interface, wherein the handheld working mode button corresponds to the handheld working mode interface, and the turntable working mode button corresponds to the turntable working mode interface;

the first display module is used for displaying a state switching button on the working mode interface;

the second receiving module is used for receiving a state switching instruction acting on the state switching button to enable the scanner to enter a corresponding working state, and the working state comprises: preview state, scan state, edit state, composition state;

the second display module is used for displaying a working state interface corresponding to the working state after the scanner enters the working state;

the third display module is used for displaying corresponding operation buttons and editing panels according to the working state interface;

And the receiving module is used for receiving an operation instruction acting on the operation button or an editing instruction acting on the editing panel and correspondingly processing the 3D scanning data.

According to the interaction equipment of the 3D scanning interface, when the scanner is in different working states, the working state interface corresponding to the working state is displayed, and only the operation buttons and the editing panel related to the working state are displayed on the working state interface, so that information displayed on the software interface is simplified, and a user is helped to quickly get up with 3D software.

In one embodiment, the first receiving module is further configured to display a preview button 5 on the handheld operation mode interface; receiving a preview instruction acting on the preview button 5, and enabling the scanner to enter a preview state; displaying a preview status interface, the preview interface comprising: preview button 5, edit panel 1; displaying the preview residual time on the preview button 5, and displaying a prompt text box 4 above the preview button 5; when the preview remaining time reaches a preset time, the preview button 5 flashes; receiving a pause instruction acting on the preview button 5 to pause the preview state; receiving an adjusting instruction acting on the editing panel 1, and adjusting the brightness of the preview state interface; and when the preview time is zero, the scanner enters a scanning state.

In one embodiment, the first receiving module is further configured to display a scan state interface, where the scan state interface includes: a scan button 6, an editing panel 1, the editing panel 1 being disabled; receiving a scanning instruction acting on the scanning button 6, displaying scanning time on the scanning button 6, and displaying a prompt text box 4 above the scanning button 6; acquiring 3D scanning data; receiving a pause instruction acting on the scanning button 6, and displaying a data reconstruction popup window 7 on the scanning state interface; receiving a stop command acting on the scan button 6, causing the scanner to enter an edit state.

In one embodiment, the first receiving module is further configured to display an edit status interface, the edit status interface comprising: an add button 8, a compose button 9, an edit panel 1, and a layer panel 10, wherein the layer panel 10 is used for displaying the number of the 3D scan data, and a prompt text box 4 is displayed above the add button 8 and the compose button 9; receiving an addition instruction acting on the addition button 8, and adding the 3D scan data; receiving a composition instruction acting on the composition button 9, composing the 3D scan data, the editing panel 1 displays composition options.

In one embodiment, the first receiving module is further configured to display a preview button 5 on the turntable operation mode interface; receiving a preview instruction acting on the preview button 5, and enabling the scanner to enter a preview state; displaying a preview status interface, the preview interface comprising: step button, edit panel 1, the step button includes: a preview button 5, an identification button 11 and a scanning button 6, wherein the identification button 11 displays a number 2, and the scanning button 6 displays a number 3; displaying the preview residual time on the preview button 5, and displaying a prompt text box 4 above the preview button 5; when the preview remaining time reaches a preset time, the preview button 5 flashes; receiving a pause instruction acting on the preview button 5 to pause the preview state; receiving an adjusting instruction acting on the editing panel 1, and adjusting the brightness of the preview state interface; when the preview time is zero, the scanner enters an identification state.

In one embodiment, the first receiving module is further configured to display an identification status interface, where the identification status interface includes a step button and an editing panel 1, and the editing panel 1 is disabled, and the step button includes: a preview button 5, an identification button 11 and a scanning button 6, wherein the preview button 5 is provided with a number 1, and the scanning button 6 is provided with a number 3; receiving an identification instruction acting on the identification button 11, displaying identification time on the identification button 11, and displaying a prompt text box 4 above the identification button 11; identifying the turntable 12; receiving a pause instruction acting on the recognition button 11 to pause the recognition state; receiving a stop command acting on the identification button 11, the scanner is put into a scanning state.

In one embodiment, the first receiving module is further configured to display a scan state interface, where the scan state interface includes: a step button and an editing panel 1, wherein the editing panel 1 is disabled, and the step button comprises: a preview button 5, an identification button 11 and a scanning button 6, wherein the preview button 5 is provided with a number 1, and the identification button 11 is provided with a number 2; receiving a scanning instruction acting on the scanning button 6, displaying scanning time on the scanning button 6, and displaying a prompt text box 4 above the scanning button 6; acquiring 3D scanning data; receiving a pause instruction acting on the scanning button 6, and displaying a data reconstruction popup window 7 on the scanning state interface; receiving a stop command acting on the scan button 6, causing the scanner to enter an edit state.

In one embodiment, the first receiving module is further configured to display an edit status interface, the edit status interface comprising: an add button 8, a compose button 9, an edit panel 1, and a layer panel 10, wherein the layer panel 10 is used for displaying the number of the 3D scan data, and a prompt text box 4 is displayed above the add button 8 and the compose button 9; receiving an addition instruction acting on the addition button 8, and adding the 3D scan data; receiving a composition instruction acting on the composition button 9, composing the 3D scan data, the editing panel 1 displays composition options.

As shown in fig. 3, the computer device includes a processor, a memory, and a network interface connected by a terminal bus. The memory includes a nonvolatile storage medium and an internal memory. The non-volatile storage medium of the computer device may have a storage operation terminal, and may also have a storage computer program, which when executed by the processor, causes the processor to implement the interaction method of the 3D scanning interface described above. The internal memory may also store a computer program that, when executed by the processor, causes the processor to perform the interaction method of the 3D scanning interface described above. It will be appreciated by persons skilled in the art that the structure shown in fig. 3 is merely a block diagram of a portion of the structure associated with the present inventive arrangements and does not constitute a limitation of the apparatus to which the present inventive arrangements are applied, and that a particular apparatus may include more or less components than those shown in the drawings, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer readable storage medium is provided, having stored a computer program which, when executed by a processor, causes the processor to perform the steps of the interaction method of the 3D scanning interface described above.

It can be appreciated that the above interaction method, device and storage medium for 3D scanning interface belong to a general inventive concept, and the embodiments are applicable to each other.

Those skilled in the art will appreciate that all or part of the processes in the methods of the above embodiments may be implemented by a computer program for instructing relevant hardware, where the program may be stored in a non-volatile computer readable storage medium, and where the program, when executed, may include processes in the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in embodiments provided herein may include non-volatile and/or volatile memory. The nonvolatile memory can include Read Only Memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous link (SYNCHLINK) DRAM (SLDRAM), memory bus (Rambus) direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), among others.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples illustrate only a few embodiments of the application and are described in detail herein without thereby limiting the scope of the application. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of protection of the present application is to be determined by the appended claims.

Claims (9)

1. An interaction method of a 3D scanning interface, the method comprising:

Obtaining a mode selection interface, the mode selection interface comprising: a hand-held mode button, a turntable mode button;

Receiving a mode selection instruction acting on the handheld mode button or acting on the turntable mode button, and displaying a corresponding working mode interface, wherein the working mode interface comprises: the device comprises a handheld working mode interface and a turntable working mode interface, wherein the handheld working mode button corresponds to the handheld working mode interface, and the turntable working mode button corresponds to the turntable working mode interface;

displaying a state switching button on the working mode interface;

Receiving a state switching instruction acting on the state switching button, and enabling the scanner to enter a corresponding working state, wherein the working state comprises the following steps: preview state, scan state, edit state, composition state;

After the scanner enters the working state, displaying a working state interface corresponding to the working state;

Displaying corresponding operation buttons and editing panels according to the working state interface;

Receiving an operation instruction acting on the operation button or an editing instruction acting on the editing panel, and correspondingly processing 3D scanning data;

after receiving a mode selection instruction acting on the hand-held mode button and displaying a hand-held working mode interface, the method comprises the following steps:

Displaying a preview button on the handheld working mode interface;

receiving a preview instruction acting on the preview button, and enabling the scanner to enter a preview state;

Displaying a preview status interface, the preview status interface comprising: preview button, edit panel;

displaying the preview residual time on the preview button, and displaying a prompt text box above the preview button;

When the preview residual time reaches the preset time, the preview button flashes;

Receiving a pause instruction acting on the preview button to pause the preview state;

receiving an adjusting instruction acting on the editing panel, and adjusting the brightness of the preview state interface;

And when the preview remaining time is zero, the scanner enters a scanning state.

2. The method of interaction of a 3D scan interface of claim 1, further comprising, after the scanner enters a scan state when the preview remaining time is zero:

Displaying a scan state interface, the scan state interface comprising: a scan button, an edit panel, the edit panel disabled;

Receiving a scanning instruction acting on the scanning button, displaying scanning time on the scanning button, and displaying a prompt text box above the scanning button;

Acquiring 3D scanning data;

receiving a pause instruction acting on the scanning button, and displaying a data reconstruction popup window on the scanning state interface;

and receiving a stop instruction acting on the scanning button to enable the scanner to enter an editing state.

3. The interaction method of a 3D scan interface of claim 2, further comprising, after said receiving a stop command to the scan button to bring the scanner into an edit state:

displaying an edit status interface, the edit status interface comprising: the system comprises an adding button, a synthesizing button, an editing panel and a layer panel, wherein the layer panel is used for displaying the quantity of the 3D scanning data, and a prompt text box is displayed above the adding button and the synthesizing button;

receiving an adding instruction acting on the adding button, and adding the 3D scanning data;

and receiving a synthesis instruction acting on the synthesis button, synthesizing the 3D scan data, and displaying synthesis options by the editing panel.

4. The method of interaction of a 3D scan interface of claim 1, wherein the operational state further comprises an identification state, after receiving a mode selection command acting on the turret mode button, displaying a turret operational mode interface, comprising:

displaying a preview button on the turntable working mode interface;

receiving a preview instruction acting on the preview button, and enabling the scanner to enter a preview state;

Displaying a preview status interface, the preview status interface comprising: step button, edit panel, the step button includes: the device comprises a preview button, an identification button and a scanning button, wherein the identification button displays a number 2, and the scanning button displays a number 3;

displaying the preview residual time on the preview button, and displaying a prompt text box above the preview button;

When the preview residual time reaches the preset time, the preview button flashes;

Receiving a pause instruction acting on the preview button to pause the preview state;

receiving an adjusting instruction acting on the editing panel, and adjusting the brightness of the preview state interface;

and when the preview remaining time is zero, the scanner enters an identification state.

5. The method of interaction of a 3D scan interface of claim 4, further comprising, after the scanner enters an identification state when the preview remaining time is zero:

Displaying an identification status interface, wherein the identification status interface comprises a step button and an editing panel, the editing panel is disabled, and the step button comprises: the device comprises a preview button, an identification button and a scanning button, wherein the preview button is provided with a number 1, and the scanning button is provided with a number 3;

receiving an identification instruction acting on the identification button, displaying identification time on the identification button, and displaying a prompt text box above the identification button;

Identifying a turntable;

receiving a pause instruction acting on the identification button to pause the identification state;

And receiving a stop instruction acting on the identification button to enable the scanner to enter a scanning state.

6. The method according to claim 5, further comprising, after the receiving a stop command acting on the recognition button to put the scanner into a scanning state:

Displaying a scan state interface, the scan state interface comprising: step button, edit panel disables, step button includes: the device comprises a preview button, an identification button and a scanning button, wherein a number 1 is displayed on the preview button, and a number 2 is displayed on the identification button;

Receiving a scanning instruction acting on the scanning button, displaying scanning time on the scanning button, and displaying a prompt text box above the scanning button;

Acquiring 3D scanning data;

receiving a pause instruction acting on the scanning button, and displaying a data reconstruction popup window on the scanning state interface;

and receiving a stop instruction acting on the scanning button to enable the scanner to enter an editing state.

7. The method according to claim 6, further comprising, after the receiving a stop instruction acting on the scan button to bring the scanner into an edit state:

displaying an edit status interface, the edit status interface comprising: the system comprises an adding button, a synthesizing button, an editing panel and a layer panel, wherein the layer panel is used for displaying the quantity of the 3D scanning data, and a prompt text box is displayed above the adding button and the synthesizing button;

receiving an adding instruction acting on the adding button, and adding the 3D scanning data;

and receiving a synthesis instruction acting on the synthesis button, synthesizing the 3D scan data, and displaying synthesis options by the editing panel.

8. A computer device comprising a memory and a processor, the memory storing a computer program that, when executed by the processor, causes the processor to perform the steps of the interaction method of the 3D scanning interface of any of claims 1 to 7.

9. A computer-readable storage medium, characterized in that a computer program is stored, which, when being executed by a processor, causes the processor to perform the steps of the interaction method of a 3D scanning interface as claimed in any of claims 1 to 7.