CN115237303B - Interaction method and device for vehicle storage space - Google Patents

Abstract

The application relates to an interaction method and device for a vehicle storage space. The method comprises the following steps: after a user accesses a remote vehicle display function on a terminal, responding to a triggering operation of opening a vehicle storage space in a terminal interface by the user, and displaying a storage space function access entrance; responding to the access operation of a user to an access inlet of the storage space function, and displaying a plurality of virtual references for the user to measure the size of the storage space in a terminal interface; and in response to the interactive operation of controlling the virtual reference objects by the user, placing the plurality of virtual reference objects in the storage space according to the placement position expected by the user in the terminal interface until the space of the storage space is used up, so that the user can measure the size of the storage space according to the placed plurality of virtual reference objects. According to the scheme provided by the application, the accommodating size of the storage space can be intuitively displayed by simulating the actual storage scene, so that a user can evaluate the storage space capacity of the vehicle more accurately.

Description

Interaction method and device for vehicle storage space

Technical Field

The application relates to the technical field of interaction, in particular to an interaction method and device for a vehicle storage space.

Background

Currently, vehicles typically have a storage compartment such as a trunk or a front trunk for storage by a user. The user also pays attention to the size of the space of the locker when buying the vehicle to evaluate the practical value of the locker.

However, the user's knowledge of the space size of the vehicle storage box comes from the size marks, which results in that the user can only evaluate the space size of the storage box according to the data in a fuzzy manner, thereby affecting the user's visual grasp of the storage space size and thus affecting the user's shopping experience.

Disclosure of Invention

In order to solve or partially solve the problems in the related art, the application provides an interaction method and device for a vehicle storage space, which can enable a user to visually check the size of the vehicle storage space through the placement effect of a virtual reference object and improve user experience.

The first aspect of the application provides an interaction method of a vehicle storage space, which comprises the following steps:

after a user accesses a remote vehicle display function on a terminal, responding to a triggering operation of opening a vehicle storage space in a terminal interface by the user, and displaying a storage space function access entrance; responding to the access operation of a user to an access inlet of the storage space function, and displaying a plurality of virtual references for the user to measure the size of the storage space in a terminal interface; and in response to the interactive operation of controlling the virtual reference objects by the user, placing the plurality of virtual reference objects in the storage space according to the placement position expected by the user in the terminal interface until the space of the storage space is used up, so that the user can measure the size of the storage space according to the placed plurality of virtual reference objects.

In the interaction method of the vehicle storage space, after the user accesses the remote vehicle display function on the terminal, the triggering operation of opening the vehicle storage space in the terminal interface is responded by the user, and the display storage space function access entrance comprises the following steps:

after a user accesses a remote vehicle display function on a terminal, responding to a vehicle visual angle switching operation of the user on a terminal interface, and displaying a storage space and a corresponding storage part control of a corresponding part of a vehicle; and responding to the triggering operation of the user for accessing the storage part control, displaying an opened vehicle storage space and a first function access inlet for displaying the controllable virtual reference object on the terminal interface, so that the user can view and put the virtual reference object into the storage space by accessing the first function access inlet.

In the interaction method of the vehicle storage space, the triggering operation of opening the vehicle storage space in the terminal interface is responded by the user, the access entrance of the storage space function is displayed, and the interaction method further comprises the following steps:

And responding to the triggering operation of the user for opening the vehicle storage space in the terminal interface, displaying the opened vehicle storage space and a second function access inlet for displaying the size information of the storage space in the terminal interface, so that the user can view the size information of the storage space through the second function access inlet.

In the interaction method of the vehicle storage space, the triggering operation of opening the vehicle storage space in the terminal interface is responded by the user, the access entrance of the storage space function is displayed, and the interaction method further comprises the following steps:

And responding to the triggering operation of the user for opening the vehicle storage space in the terminal interface, and displaying the opened vehicle storage space and a third function inlet for displaying the initial state of the storage space on the terminal interface so that the user can check the empty state of the storage space through the third function inlet.

In the interaction method of the vehicle storage space, the method for responding to the access operation of the user to the storage space function access entrance displays a plurality of virtual references for the user to measure the size of the storage space in the terminal interface, and the method comprises the following steps:

Responding to the access operation of the user to the first function access entrance, and displaying a corresponding kind of virtual reference object which can be used for measuring the size of the storage space by the user in the terminal interface according to the vehicle part accessed by the current interface.

In the interaction method of the vehicle storage space, in response to the interaction operation of the user for controlling the virtual references, a plurality of virtual references are placed in the storage space according to the placement position expected by the user in the terminal interface until the space of the storage space is used up, so that the user measures the size of the storage space according to the placed plurality of virtual references, and the interaction method comprises the following steps:

When detecting that a user sequentially drags the virtual reference objects positioned at the initial position of the terminal interface to the expected position and the expected angle of the storage space, correspondingly updating and displaying the placement effect of each virtual reference object in the storage space, and continuously displaying the controllable virtual reference objects at the initial position so as to enable the user to drag more virtual reference objects to the storage space for placement until the storage space is used up.

In the interaction method of the vehicle storage space of the present application, the corresponding update display of the placement effect of each virtual reference object in the storage space includes:

And in response to the interactive operation that the user drags the plurality of virtual references into the storage space to put, updating and displaying the physical relative positions of the plurality of virtual references in the storage space so that the user can measure the size of the storage space according to the putting positions of the virtual references.

In the interaction method of the vehicle storage space, the method further comprises the following steps:

Displaying the residual capacity of the storage space and/or the number of the residual receivable reference objects after the virtual reference objects are placed each time on a terminal interface in real time; after the space of the storage space is used up, prompting is carried out according to a preset mode.

In the interaction method of the vehicle storage space, the method further comprises the following steps:

And responding to the overturning operation of the user on the virtual reference object in the storage space, and adjusting the placement angle of the corresponding virtual reference object in the storage space.

A second aspect of the present application provides an interactive apparatus for a storage compartment of a vehicle, comprising:

The receiving module is used for receiving triggering operation of opening the vehicle storage space in the terminal interface by a user, receiving access operation of an access inlet of a storage space function by the user and receiving interactive operation of controlling the virtual reference object by the user;

the display module is used for responding to the triggering operation of the user for opening the vehicle storage space in the terminal interface after the user accesses the remote vehicle display function on the terminal, and displaying the storage space function access entrance; responding to the access operation of a user to an access inlet of the storage space function, and displaying a plurality of virtual references for the user to measure the size of the storage space in a terminal interface; and in response to the interactive operation of controlling the virtual reference objects by the user, placing the plurality of virtual reference objects in the storage space according to the placement position expected by the user in the terminal interface until the space of the storage space is used up, so that the user can measure the size of the storage space according to the placed plurality of virtual reference objects.

A third aspect of the present application provides an electronic apparatus, comprising:

a processor; and

A memory having executable code stored thereon which, when executed by the processor, causes the processor to perform the method as described above.

A fourth aspect of the application provides a computer readable storage medium having stored thereon executable code which, when executed by a processor of an electronic device, causes the processor to perform a method as described above.

The technical scheme provided by the application can comprise the following beneficial effects:

According to the technical scheme, the interaction method of the vehicle storage space can enable a user to perform man-machine interaction with the terminal, the vehicle storage space is opened at the terminal interface, the virtual reference object is operated through the displayed storage space function access entrance, the virtual reference object is placed in the storage space until the space is used up, the accommodating size of the storage space can be intuitively displayed through simulating an actual storage scene, the user can evaluate the storage space capacity of the vehicle more accurately, and the user visual experience is improved.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application as claimed.

Drawings

The foregoing and other objects, features and advantages of the application will be apparent from the following more particular descriptions of exemplary embodiments of the application as illustrated in the accompanying drawings wherein like reference numbers generally represent like parts throughout the exemplary embodiments of the application.

FIG. 1 is a flow chart of an interactive method of a vehicle storage space shown in the present application;

FIG. 2 is a flow chart of an interactive method of a vehicle storage space shown in the present application;

FIG. 3 is a schematic illustration of the present application shown prior to the trunk being unopened;

FIG. 4 is a schematic view of the application with the trunk open;

FIG. 5 is a schematic illustration of the placement of a charging gun within a header shown in the present application;

FIG. 6 is a schematic illustration of the measured dimensions of the trunk shown in the present application;

FIG. 7 is a schematic illustration of the application shown with the trunk not open;

FIG. 8 is a schematic view of the trunk of the present application shown open;

FIG. 9 is a schematic illustration of a trunk measurement of the present application;

FIG. 10 is a schematic illustration of the placement of a boarding case within the trunk of the present application;

FIG. 11 is a schematic illustration of the placement of multiple boarding cases within a trunk of the present application;

FIG. 12 is a schematic view of FIG. 11 after the plurality of boarding cases have been flipped over within the trunk;

FIG. 13 is a schematic structural view of an interactive apparatus for vehicle storage compartment space according to the present application;

Fig. 14 is a schematic structural view of an electronic device shown in the present application.

Detailed Description

Embodiments of the present application will be described in more detail below with reference to the accompanying drawings. While embodiments of the present application are illustrated in the drawings, it should be understood that the present application may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the application to those skilled in the art.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in this specification and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any or all possible combinations of one or more of the associated listed items.

It should be understood that although the terms "first," "third," etc. may be used herein to describe various information, these information should not be limited by these terms. These terms are only used to distinguish one type of information from another. For example, the first information may also be referred to as third information, and similarly, the third information may also be referred to as first information, without departing from the scope of the application. Thus, a feature defining "a first", "a third" may include one or more such features, either explicitly or implicitly. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the related art, the user knows the space size of the vehicle storage box from the size marks, so that the user can only evaluate the space size of the storage box according to data in a fuzzy manner, thereby affecting the visual grasp of the space size of the user and further affecting the purchasing experience of the user.

Aiming at the problems, the application provides an interaction method of the vehicle storage space, which can enable a user to visually check the size of the vehicle storage space through the placement effect of the virtual reference object and improve the user experience.

The technical scheme of the present application is described in detail below with reference to the accompanying drawings.

Fig. 1 is a flow chart of an interactive method of a vehicle storage space shown in the present application.

S110, after the user accesses the remote vehicle display function on the terminal, responding to the triggering operation of the user for opening the vehicle storage space in the terminal interface, and displaying the storage space function access entrance.

The terminal is, for example, a mobile phone, a tablet computer, a portable computer, a vehicle-mounted terminal device, a robot, or other intelligent devices with display modules, which are only illustrative and not limiting. Corresponding application software can be pre-installed on the terminal so as to realize the remote vehicle display function through the application software. The virtual display can be carried out on the entity vehicle through the remote vehicle display function. Optionally, through the remote vehicle show function, can show the vehicle of different models, can look over the storing space of vehicle from this, the storing space can be the trunk that is located the locomotive, also can be the trunk that is located the tail, and the remote vehicle show function can be according to the actual design correspondence show of the vehicle of different models.

Further, after the user accesses the remote vehicle display function, the corresponding vehicle is correspondingly displayed on the terminal interface, so that the user can perform related operations on the terminal interface, such as starting a triggering operation of the vehicle storage space, and displaying a corresponding storage space function access entry. The storage space function access portal may include one or more function access portals, i.e. corresponding function access portals may be designed according to different function requirements. Accordingly, the function access entries can be synchronously displayed so that the user can select access according to the requirements. In order to meet the requirement that a user intuitively knows the size of the storage space, at least one storage space function access inlet is used for displaying a virtual reference object which can be controlled by the user, so that the user can measure the size of the storage space according to a plurality of virtual references.

And S120, responding to the access operation of the user to the access entrance of the storage space function, and displaying a plurality of virtual references for the user to measure the size of the storage space in the terminal interface.

When the terminal receives access operation of a user to the access entrance of the storage space function, the terminal responds to the corresponding access operation, and a virtual reference object is displayed on a terminal interface. Optionally, the virtual reference object and the storage space of the vehicle can be displayed on the same interface, so that the user can perform interaction operation subsequently.

Optionally, the physical size of the storage space and the physical size of the virtual reference object may be associated in advance, so that the virtual reference object may truly simulate the placement effect of the virtual reference object in the storage space, so that the user may measure the size of the storage space according to the virtual reference object.

Further, according to the storage spaces with different sizes, selectable virtual reference object types can be preset. For example, for a smaller space trunk, the virtual reference may be a portable charging gun; for larger space trunk, the virtual reference may be a trunk or the like, as just illustrated herein. It can be appreciated that the variety and size of the virtual reference can be designed by selecting the object with higher daily contact frequency of the user, so that the user can more intuitively compare the storage space capacity.

And S130, in response to the interactive operation of controlling the virtual reference objects by the user, placing a plurality of virtual reference objects in the storage space according to the placement position expected by the user in the terminal interface until the space of the storage space is used up, so that the user can measure the size of the storage space according to the placed plurality of virtual reference objects.

The virtual reference object can be controlled by a user at the terminal interface, and is placed into the storage space through man-machine interaction. Optionally, the user can move or overturn the virtual reference object in the storage space, so that the user can evaluate the utilization rate of the storage space conveniently through various placement modes of the virtual reference object in the storage space.

Further, the user can control and put a plurality of virtual references into the storage space one by one until the space of the storage space is used up, and cannot put more virtual references, so that the user can evaluate the size of the storage space according to the number of the virtual references actually put.

According to the interaction method of the vehicle storage space, a user can perform man-machine interaction with the terminal, the vehicle storage space is opened at the terminal interface, the virtual reference object is operated through the displayed storage space function access entrance, the virtual reference object is placed in the storage space until the space is used up, the accommodating size of the storage space can be intuitively displayed through simulating an actual storage scene, the user can evaluate the storage space capacity of the vehicle more accurately, and the user visual experience is improved.

Fig. 2 is a flow chart of an interactive method of a vehicle storage space shown in the present application. Fig. 3 to 6 are respectively related spatial representations of the trunk; fig. 7 to 12 are respectively related spatial display diagrams of the trunk.

Referring to fig. 2, the interaction method of a vehicle storage space according to the present application includes:

And S210, after the user accesses the remote vehicle display function on the terminal, responding to the vehicle visual angle switching operation of the user on the terminal interface, and displaying the storage space of the corresponding part of the vehicle and the corresponding storage part control.

The user can access the application software with the remote vehicle display function through the terminal and enter the vehicle display interface through the vehicle display entrance. The vehicle has an initial display perspective at the vehicle display interface. As shown in fig. 3, the front of the vehicle may be displayed by default at the vehicle display interface, which is merely illustrative. Optionally, a view angle control may be preset on the vehicle display interface, so that the user may change the display view angle of the vehicle by controlling the view angle control, and display a corresponding portion of the vehicle, such as a head or a tail, according to the desired view angle of the user. Based on the fact that the headstock is provided with a corresponding trunk, corresponding storage part controls, namely trunk controls, are displayed correspondingly; and based on the fact that the tail is provided with the corresponding trunk, the corresponding storage part control, namely the trunk control, is displayed correspondingly.

As shown in fig. 3, when the viewing angle is switched to the display head, the head box and the corresponding head box control of the head box can be synchronously displayed on the vehicle display interface. Similarly, as shown in fig. 7, when the viewing angle is switched to display the trunk located at the tail, the trunk and the corresponding trunk control of the tail can be synchronously displayed on the vehicle display interface.

To facilitate a user's quick switch in displaying the trunk and the trunk, the trunk controls and the trunk controls may optionally be displayed simultaneously at the vehicle presentation interface. Or as shown in fig. 4 and 8, the trunk controls are displayed synchronously when the vehicle display interface displays the trunk; and synchronously displaying the trunk control when the trunk is displayed on the vehicle display interface. By the design, a user can flexibly switch and display storage spaces at different positions.

S220, responding to the triggering operation of the user for accessing the storage part control, displaying an opened vehicle storage space and a plurality of storage space function access inlets on a terminal interface, so that the user can access the different function access inlets through switching, and check the space size of the vehicle storage space in different scenes.

In this step, according to the storage part control displayed on the current interface, the user may trigger the corresponding space to open the storage space of the vehicle. For example, as shown in fig. 3, when the user does not trigger the storage part control, the vehicle storage space, i.e., the trunk, is in an uncapped state by default. After the user triggers the trunk control, as shown in fig. 4, the case cover of the trunk displays an open state, so that the user can intuitively check the space after the trunk is opened.

Further, after the corresponding vehicle storage space is opened and displayed, the vehicle display interface synchronously displays one or more storage space function access entries. In this step, the storage space function access portal includes at least a first function access portal, where the first function access portal is configured to display a virtual reference object that is available for control, so that a user views and places the virtual reference object into the storage space by accessing the first function access portal. The storage space function access portal may also include a second function access portal and/or a third function access portal. The second function access entrance is used for displaying the size information of the storage space, so that a user can view the size information of the storage space through the second function access entrance. The third function access portal is used for displaying the initial state of the storage space, so that a user can check the empty state of the storage space through the third function access portal. Optionally, after the corresponding vehicle storage space is opened and displayed, the vehicle display interface synchronously displays one or more storage space function access portals, so that a user flexibly switches to access different function access portals. As shown in fig. 4 and 8, for example, after the trunk or the trunk is opened and displayed, the first function access entry is the "real space" control in the drawing, the second function access entry is the "measurement size" control in the drawing, and the third function access entry is the "initial state" control in the drawing, which is only illustrative, and the design style of the function access entry is not limited herein.

The following describes an interaction procedure in which a user accesses a first function access portal at a terminal interface.

S221, responding to the access operation of the user to the first function access entrance, and displaying a corresponding kind of virtual reference object which can be used for measuring the size of the storage space by the user in the terminal interface according to the vehicle part accessed by the current interface.

The corresponding virtual reference object types can be preset for the storage spaces of different vehicle parts. That is, virtual references of corresponding kinds are preset based on the real sizes of the storage spaces of the different parts. Optionally, the kinds of virtual references in the storage space of the same part can be one or more; virtual references of storage spaces at different locations can be designed independently or used in a shared manner. Alternatively, the dimensions of the various virtual references may be the same or different. And is not limited thereto. For example, for the trunk in fig. 4, the virtual reference displayed may be a charging gun. For the trunk in fig. 9, the virtual reference shown may be a boarding box (a 20 inch luggage case). The object with the common size is matched and is used as a virtual reference object to be placed into the storage box, so that the daily storage scene can be simulated, and a user can visually and intuitively measure the size of the storage space.

And S222, when detecting that the user sequentially drags the virtual reference objects positioned at the initial position of the terminal interface to the expected position and the expected angle of the storage space, correspondingly updating and displaying the placement effect of each virtual reference object in the storage space, and continuously displaying the controllable virtual reference objects at the initial position so as to drag more virtual reference objects to the storage space for placement by the user until the storage space is used up.

It will be appreciated that the number of virtual references that can be accommodated varies based on the respective actual capacities of the storage spaces in different parts of the vehicle. Based on this, in order to satisfy the user's simulated real scene's vanning experience, the user can be in order one by one put corresponding virtual reference thing into the vehicle storing space. The interaction mode for controlling the virtual reference object to be placed, such as a dragging mode or a clicking mode, can be preset, so that a user places the virtual reference object located at the initial position of the current interface into the storage space. The initial position is the default display position of the virtual reference object for control on the terminal interface. Optionally, to more truly simulate the boxing scene, the position and angle of the virtual reference object in the storage space can be freely set, so that the user can place the virtual reference object to a desired position and a desired angle.

And in response to the interactive operation that the user drags the plurality of virtual references into the storage space for placement, updating and displaying the physical relative positions of the plurality of virtual references in the storage space so that the user can measure the size of the storage space according to the placement positions of the virtual references. That is, as the virtual reference objects in the storage space are increased after the user puts the virtual reference objects at the desired position and the desired angle in the storage space, the mutual interference between different virtual reference objects can be defined according to the physical relative positions, the real putting scene is simulated, and the real putting state of each virtual reference object is updated and displayed in real time, so that the user can measure the size of the storage space according to the putting position of each virtual reference object.

Optionally, in order to facilitate the user to adjust the placement angle of the virtual reference object in the storage space, after detecting that the virtual reference object is placed in the storage space, the overturn control of each reference object is displayed respectively, so that the user can change the placement angle of the corresponding reference object in the storage box by touching the overturn control. When the trigger of the user to the overturning control is detected, responding to the overturning operation of the user to the virtual reference object in the storage space, and adjusting the placing angle of the corresponding virtual reference object in the storage space.

Accordingly, after the user drags the virtual reference object to the storage space each time, the initial position of the current terminal interface still keeps displaying the virtual reference object which can be continuously controlled by the user, so that the user can continuously drag the next virtual reference object to the storage space until the storage space is used up, the initial position of the current interface can not display the virtual reference object any more, and the virtual reference object can also be continuously kept displayed.

Further, in response to a triggering operation of opening the vehicle storage space in the terminal interface by the user, the capacity introduction window can be synchronously displayed while the storage space function access entrance is displayed. The capacity introduction window is used for displaying the corresponding storage space capacity and/or the number of the receivable references through characters. For example, as shown in fig. 4, for the trunk, for example, according to the actual capacity of the vehicle of the corresponding model, a "capacity 25L" may be displayed in the capacity introduction window, and a portable charging gun may be placed. Similarly, as shown in fig. 9, for the trunk, the capacity introduction window may correspondingly display "440L capacity, and 3 20 inch boarding cases may be installed. The different types of vehicles are illustrated herein with respective corresponding written descriptions, and are not limited thereto.

Optionally, displaying the residual capacity of the storage space and/or the number of the residual receivable references after each virtual reference placement in real time on a terminal interface; after the space of the storage space is used up, prompting is carried out according to a preset mode. That is, the text content in the capacity introduction window may be changed in real time, and after the user places one virtual reference object into the storage space at a time, the remaining capacity and/or the number of remaining containable reference objects in the capacity introduction window are correspondingly updated, so that the user can measure the size of the placeable remaining space. When the space is used up, i.e. more virtual reference objects can not be continuously contained, prompt information such as 'the trunk space is used up', and the like can be displayed, so that the user is prevented from continuously placing new virtual reference objects into the storage space.

For ease of understanding, the following describes the access operation of the first function access portal of the trunk and the trunk, respectively, in connection with the accompanying drawings.

When the current interface displays the opened trunk of the vehicle, as shown in fig. 5, the user accesses the first function access entry, i.e. "real space", and the preset initial position of the current interface sequentially displays the virtual reference "portable charging gun". The user can drag the portable charging gun from the initial position into the front box at the current interface, and the front box is updated and displayed by the empty state of fig. 4 to be in a state of placing a portable charging gun.

When the current interface displays the trunk of the opened vehicle, as shown in fig. 10 to 12, the user accesses the first function access entry, i.e. "real space", and the preset initial position of the current interface sequentially displays the virtual reference "20 inch boarding case". The user may drag the 20 inch chassis from the initial position into the boot at the current interface. Since the accommodation space of the trunk can accommodate 3 boarding cases, the user can repeat 3 drag operations. Correspondingly, each boarding box in the trunk is provided with a turnover control, so that a user can turn over the placement angle of each boarding box respectively, and the knowledge of the user on different placement modes is met.

The following describes an interaction procedure in which a user accesses the second function access portal at the terminal interface.

S223, in response to the access operation of the user to the second function access entrance, size information is displayed in the storage space of the vehicle part accessed by the current interface.

The outline size is marked at the corresponding position according to a preset mode based on the three-dimensional structure of the trunk or the trunk. Such as the trunk shown in fig. 6, when the user accesses the second function access portal "measure size", the real size information is displayed at the length, width, and height of the trunk, respectively. The accuracy unit of the dimension may be preset, for example, millimeter, centimeter, or the like. Similarly, in the trunk shown in fig. 9, size information is displayed correspondingly at different contour positions of the trunk.

The following describes an interaction procedure in which a user accesses a third function access portal at a terminal interface.

S224, in response to the access operation of the user to the third function access entrance, displaying the empty state of the storage space of the vehicle part accessed by the current interface.

In this step, the first function access entry and the second function access entry are different from each other, and are used for displaying the empty state of the storage space without placing any object and without marking, so that the user can compare the size of the storage space in the initial state.

As with the trunk shown in fig. 4 and the trunk shown in fig. 8, after the user triggers the third function to access the portal "initial state", the current interface hides the size information and the virtual reference, so that the user can clearly view the storage space.

In the above steps, the interaction operations of the first function access portal, the second function access portal, and the third function access portal may be switched according to the user's needs, and the execution sequence is not limited.

S230, closing the corresponding storage space and hiding the storage space function access entrance at the terminal interface in response to a closing instruction of the vehicle storage space displayed on the current interface.

In the step, the storage space displayed on the current interface can be closed by triggering a storage part control by a user or by operating a preset gesture on the terminal interface. Accordingly, multiple storage space function access portals of the current interface are hidden.

According to the interaction method of the vehicle storage space, which is disclosed by the application, the requirement of a user for checking the size of the storage space in different scenes is met by providing the storage space function access entry with a plurality of different functions, so that the user can measure the size of the vehicle storage space according to the multi-dimensional display effect.

Corresponding to the embodiment of the application function implementation method, the application also provides an interaction device of the vehicle storage space and a corresponding embodiment.

Fig. 13 is a schematic structural view of an interactive apparatus for a storage space of a vehicle according to the present application.

Referring to fig. 13, the interactive device for a vehicle storage space according to the present application includes a receiving module 310 and a display module 320, wherein:

The receiving module 310 is configured to receive a triggering operation of opening a storage space of a vehicle in a terminal interface by a user, an access operation of accessing an access port of a storage space function by the user, and an interaction operation of controlling a virtual reference by the user.

The display module 320 is configured to display an access entry for a storage space function in response to a triggering operation of a user to open a storage space of a vehicle in a terminal interface after a user accesses a remote vehicle display function on the terminal; responding to the access operation of a user to an access inlet of the storage space function, and displaying a plurality of virtual references for the user to measure the size of the storage space in a terminal interface; and in response to the interactive operation of controlling the virtual reference objects by the user, placing the plurality of virtual reference objects in the storage space according to the placement position expected by the user in the terminal interface until the space of the storage space is used up, so that the user can measure the size of the storage space according to the placed plurality of virtual reference objects.

Further, the receiving module 310 is further configured to receive a vehicle view angle switching operation of the user at the terminal interface, and the display module 320 is configured to display the storage space and the corresponding storage position control of the corresponding position of the vehicle in response to the vehicle view angle switching operation of the user at the terminal interface.

The receiving module 310 is further configured to receive a trigger operation of accessing the storage part control by the user; the display module 320 is configured to display, in response to a triggering operation of accessing the storage part control by a user, an opened vehicle storage space and a first function access entry for displaying a virtual reference object that is available for control on a terminal interface, so that the user views and places the virtual reference object into the storage space by accessing the first function access entry.

Specifically, the receiving module 310 is further configured to receive an access operation of the user to the first function access portal, and the display module 320 is configured to display, in response to the access operation of the user to the first function access portal, a virtual reference object of a corresponding type, which can be used by the user to measure the size of the storage space, in the terminal interface according to the vehicle location accessed by the current interface.

Further, the receiving module 310 is configured to receive an interactive operation that a user sequentially drags the virtual reference object located at the initial position of the terminal interface to a desired position and a desired angle of the storage space. The display module 320 is configured to update and display the placement effect of each virtual reference object in the storage space, and continuously display the virtual reference objects available for control at the initial position, so that the user drags more virtual reference objects to the storage space for placement until the storage space is exhausted. The display module 320 is configured to update and display physical relative positions of the plurality of virtual references in the storage space in response to an interactive operation that a user drags the plurality of virtual references into the storage space for placement, so that the user measures the size of the storage space according to the placement positions of the virtual references. Optionally, the receiving module 310 is configured to receive a flipping operation of the virtual reference object in the storage space by a user. The display module 320 is configured to display the adjusted placement angle of the corresponding virtual reference object in the storage space in response to the turning operation of the user on the virtual reference object in the storage space.

Optionally, the display module 320 is further configured to display a capacity introduction window on the terminal interface, so as to display the corresponding storage space capacity and/or the number of receivable references through text. The display module 320 is further configured to display, in real time, a remaining capacity of the storage space and/or a remaining number of the receivable references after each placement of the virtual references on the terminal interface; after the space of the storage space is used up, prompting is carried out according to a preset mode.

Optionally, the receiving module 310 is further configured to receive an access operation of the user to the second function access portal, and the display module 320 is further configured to display the opened vehicle storage space and the second function access portal for displaying size information of the storage space on the terminal interface, so that the user views the size information of the storage space through the second function access portal.

Optionally, the receiving module 310 is further configured to receive an access operation of the user to the third function access port, and the display module 320 is further configured to display, on the terminal interface, the opened vehicle storage space and the third function access port for displaying an initial state of the storage space, so that the user views a empty state of the storage space through the third function access port.

In summary, the interactive device for the storage space of the vehicle can facilitate users to flexibly access different functional inlets in a man-machine interactive mode, simulate the actual placement effect of objects and view specific size information through virtual references, and more intuitively experience and know the sizes of different storage spaces of the vehicle.

The specific manner in which the respective modules perform the operations of the interaction device for a vehicle storage space in the above embodiment has been described in detail in the embodiments related to the method, and will not be described in detail herein.

Fig. 14 is a schematic structural view of an electronic device shown in the present application.

Referring to fig. 14, the electronic device 1000 includes a memory 1010 and a processor 1020.

The Processor 1020 may be a central processing unit (Central Processing Unit, CPU), but may also be other general purpose processors, digital signal processors (DIGITAL SIGNAL Processor, DSP), application SPECIFIC INTEGRATED Circuit (ASIC), field-Programmable gate array (Field-Programmable GATE ARRAY, FPGA) or other Programmable logic device, discrete gate or transistor logic device, discrete hardware components, or the like. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

Memory 1010 may include various types of storage units, such as system memory, read Only Memory (ROM), and persistent storage. Where the ROM may store static data or instructions that are required by the processor 1020 or other modules of the computer. The persistent storage may be a readable and writable storage. The persistent storage may be a non-volatile memory device that does not lose stored instructions and data even after the computer is powered down. In some embodiments, the persistent storage device employs a mass storage device (e.g., magnetic or optical disk, flash memory) as the persistent storage device. In other embodiments, the persistent storage may be a removable storage device (e.g., diskette, optical drive). The system memory may be a read-write memory device or a volatile read-write memory device, such as dynamic random access memory. The system memory may store instructions and data that are required by some or all of the processors at runtime. Furthermore, memory 1010 may comprise any combination of computer-readable storage media including various types of semiconductor memory chips (e.g., DRAM, SRAM, SDRAM, flash memory, programmable read-only memory), magnetic disks, and/or optical disks may also be employed. In some implementations, memory 1010 may include readable and/or writable removable storage devices such as Compact Discs (CDs), digital versatile discs (e.g., DVD-ROMs, dual-layer DVD-ROMs), blu-ray discs read only, super-density discs, flash memory cards (e.g., SD cards, min SD cards, micro-SD cards, etc.), magnetic floppy disks, and the like. The computer readable storage medium does not contain a carrier wave or an instantaneous electronic signal transmitted by wireless or wired transmission.

The memory 1010 has stored thereon executable code that, when processed by the processor 1020, can cause the processor 1020 to perform some or all of the methods described above.

Furthermore, the method according to the application may also be implemented as a computer program or computer program product comprising computer program code instructions for performing part or all of the steps of the above-described method of the application.

Or the application may also be embodied as a computer-readable storage medium (or non-transitory machine-readable storage medium or machine-readable storage medium) having stored thereon executable code (or a computer program or computer instruction code) which, when executed by a processor of a server (or server, etc.), causes the processor to perform some or all of the steps of the above-described method according to the application.

The foregoing description of embodiments of the application has been presented for purposes of illustration and description, and is not intended to be exhaustive or limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the various embodiments described. The terminology used herein is chosen in order to best explain the principles of the embodiments, the practical application, or the improvement of technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (11)

1. An interactive method for a vehicle storage space, comprising:

After a user accesses a remote vehicle display function on a terminal, responding to a triggering operation of opening a vehicle storage space in a terminal interface by the user, and displaying a storage space function access entrance;

Responding to the access operation of a user to an access inlet of the storage space function, and displaying a plurality of virtual references for the user to measure the size of the storage space in a terminal interface;

Responding to the interactive operation of the user for controlling the virtual reference objects, placing a plurality of virtual reference objects in a storage space according to the placement position expected by the user in a terminal interface until the space of the storage space is used up, so that the user can measure the size of the storage space according to the placed plurality of virtual reference objects;

The storage space comprises at least one of a trunk and a trunk, and the storage space function access inlet comprises a first function access inlet;

The responding to the access operation of the user to the access entrance of the storage space function displays a plurality of virtual references for the user to measure the size of the storage space in the terminal interface, and the method comprises the following steps:

According to the storage spaces with different sizes, presetting selectable virtual reference object types;

Responding to the access operation of the user to the first function access entrance, and displaying a corresponding kind of virtual reference object which can be used for measuring the size of the storage space by the user in the terminal interface according to the vehicle part accessed by the current interface.

2. The method of claim 1, wherein after the user accesses the remote vehicle display function on the terminal, displaying the access entry for the storage space function in response to a triggering operation by the user to open the storage space of the vehicle in the terminal interface, comprises:

after a user accesses a remote vehicle display function on a terminal, responding to a vehicle visual angle switching operation of the user on a terminal interface, and displaying a storage space and a corresponding storage part control of a corresponding part of a vehicle;

and responding to the triggering operation of the user for accessing the storage part control, displaying an opened vehicle storage space and a first function access inlet for displaying the controllable virtual reference object on the terminal interface, so that the user can view and put the virtual reference object into the storage space by accessing the first function access inlet.

3. The method of claim 2, wherein the displaying the access entry to the storage space function in response to a triggering operation by a user to open the storage space of the vehicle in the terminal interface, further comprises:

And responding to the triggering operation of the user for opening the vehicle storage space in the terminal interface, displaying the opened vehicle storage space and a second function access inlet for displaying the size information of the storage space in the terminal interface, so that the user can view the size information of the storage space through the second function access inlet.

4. The method of claim 2, wherein the displaying the access entry to the storage space function in response to a triggering operation by a user to open the storage space of the vehicle in the terminal interface, further comprises:

And responding to the triggering operation of the user for opening the vehicle storage space in the terminal interface, and displaying the opened vehicle storage space and a third function inlet for displaying the initial state of the storage space on the terminal interface so that the user can check the empty state of the storage space through the third function inlet.

5. The method according to claim 1, wherein the placing a plurality of virtual references in the storage space according to the placement position desired by the user in the terminal interface until the storage space is exhausted in response to the interactive operation of the user for controlling the virtual references, so that the user measures the size of the storage space according to the placed plurality of virtual references, includes:

When detecting that a user sequentially drags the virtual reference objects positioned at the initial position of the terminal interface to the expected position and the expected angle of the storage space, correspondingly updating and displaying the placement effect of each virtual reference object in the storage space, and continuously displaying the controllable virtual reference objects at the initial position so as to enable the user to drag more virtual reference objects to the storage space for placement until the storage space is used up.

6. The method of claim 5, wherein the corresponding updating displays a placement effect of each virtual reference in the storage space, comprising:

And in response to the interactive operation that the user drags the plurality of virtual references into the storage space to put, updating and displaying the physical relative positions of the plurality of virtual references in the storage space so that the user can measure the size of the storage space according to the putting positions of the virtual references.

7. The method of claim 5, wherein the method further comprises:

Displaying the residual capacity of the storage space and/or the number of the residual receivable reference objects after the virtual reference objects are placed each time on a terminal interface in real time;

After the space of the storage space is used up, prompting is carried out according to a preset mode.

8. The method of claim 5, wherein the method further comprises:

And responding to the overturning operation of the user on the virtual reference object in the storage space, and adjusting the placement angle of the corresponding virtual reference object in the storage space.

9. An interactive apparatus for a vehicle storage space, comprising:

The receiving module is used for receiving triggering operation of opening the vehicle storage space in the terminal interface by a user, receiving access operation of an access inlet of a storage space function by the user and receiving interactive operation of controlling the virtual reference object by the user;

The display module is used for responding to the triggering operation of the user for opening the vehicle storage space in the terminal interface after the user accesses the remote vehicle display function on the terminal, and displaying the storage space function access entrance; responding to the access operation of a user to an access inlet of the storage space function, and displaying a plurality of virtual references for the user to measure the size of the storage space in a terminal interface; responding to the interactive operation of the user for controlling the virtual reference objects, placing a plurality of virtual reference objects in a storage space according to the placement position expected by the user in a terminal interface until the space of the storage space is used up, so that the user can measure the size of the storage space according to the placed plurality of virtual reference objects;

The storage space comprises at least one of a trunk and a trunk, and the storage space function access inlet comprises a first function access inlet;

the receiving module is used for receiving access operation of a user to the first function access entrance:

The display module is used for presetting selectable virtual reference object types according to storage spaces with different sizes; responding to the access operation of the user to the first function access entrance, and displaying a corresponding kind of virtual reference object which can be used for measuring the size of the storage space by the user in the terminal interface according to the vehicle part accessed by the current interface.

10. An electronic device, comprising:

a processor; and

A memory having executable code stored thereon, which when executed by the processor, causes the processor to perform the interaction method of a vehicle storage space of any of claims 1-8.

11. A computer readable storage medium having executable code stored thereon, which when executed by a processor of an electronic device, causes the processor to perform the interaction method of a vehicle storage space of any of claims 1-8.