CN111114437A - Trunk space arrangement device and trunk space arrangement method - Google Patents

Abstract

The invention relates to a trunk space arranging device and a trunk space arranging method, wherein the trunk space arranging device comprises: a monitoring component, the monitoring component is installed in the trunk cavity of the trunk, and is used for collecting the empty space of the trunk. Distribution information of objects in the cavity; a computing component, which is used to calculate and obtain the space utilization rate of the trunk according to the distribution information; a display component, which receives and displays the space utilization rate of the trunk . The invention realizes the acquisition of the space utilization rate of the trunk without opening the trunk door through the monitoring component, the calculation component and the display component in the trunk space arrangement device, and then quickly judges whether it can continue to be placed in the to-be-placed container. objects, simplifying the operation steps.

Description

Trunk space arrangement device and trunk space arrangement method

Technical Field

The invention relates to the field of automobile accessories, in particular to a trunk space arrangement device and a trunk space arrangement method.

Background

The trunk of car mainly is used for depositing objects such as luggage and first-aid appliances, and when partial space of vapour car trunk was occupied and need continue to place luggage in the trunk, need open the trunk earlier under the general condition, the space utilization of artificial evaluation trunk, and then the evaluation obtains the residual space of trunk, and then judges whether can continue to put into and wait to place the object, and operating procedure is loaded down with trivial details.

Disclosure of Invention

Therefore, in order to solve the problem that the operation step of judging whether the trunk can be continuously put in the object to be placed is complicated, it is necessary to provide a trunk space arrangement device and a trunk space arrangement method which can quickly display the space utilization rate of the trunk and the remaining space of the trunk.

A trunk space arrangement apparatus comprising:

the monitoring assembly is arranged in a trunk cavity of the trunk and is used for acquiring distribution information of objects in the trunk cavity;

the calculation component is used for calculating the space utilization rate of the trunk according to the distribution information;

and the display component receives and displays the space utilization rate of the trunk.

Further, the monitoring assembly includes:

a first monitor for collecting first distribution information of the object in a first direction;

a second monitor for collecting second distribution information of the object in a second direction;

a third monitor to collect third distribution information of the object in a third direction.

Further, the trunk space arrangement device further includes:

an unlocking member for locking and unlocking the display assembly.

Preferably, the unlocking component is any one of a fingerprint unlocking element or a password unlocking element.

Preferably, the unlocking component can also be an external camera, and the external camera is used for locking and unlocking the display assembly through face recognition.

Further, the display assembly is disposed on a vehicle housing.

Further, the display assembly is covered with a film having a color consistent with the color of the vehicle exterior.

Further, the trunk space arrangement device further includes:

and the simulation component is used for simulating to obtain a stacking mode that the trunk cavity can continuously accommodate the objects and the maximum volume of the objects which can continuously accommodate and corresponds to the stacking mode according to the distribution information.

A trunk space arrangement method for carrying out trunk space arrangement based on any one of the above trunk space arrangement devices includes:

the computing component receives the distribution information of the objects in the trunk cavity, which is acquired by the monitoring component;

the computing component computes the space utilization rate of the trunk according to the distribution information;

and the calculation component feeds the space utilization rate back to the display component and displays the space utilization rate through the display component.

Further, after the computing component feeds the space utilization back to the display component and displays the space utilization through the display component, the method further includes:

the simulation component calculates to obtain a stacking mode of the trunk cavity capable of continuously accommodating the objects and the maximum volume of the objects capable of continuously accommodating the objects corresponding to the stacking mode according to the distribution information;

the simulation component feeds the stacking mode and the maximum volume back to the display component and displays the stacking mode and the maximum volume through the display component.

Further, the monitoring component collects the distribution information of the object in real time.

Above-mentioned trunk space arrangement device is through setting up the control subassembly in the trunk cavity at the trunk to gather the distribution information of trunk cavity internal object through the control subassembly, and then calculate the space utilization who obtains the trunk according to the distribution information, and demonstrate space utilization to the user through the display module, and then directly obtain the volume that the trunk can continue to hold the object according to the volume of trunk cavity. Therefore, the unoccupied residual volume of the trunk cavity can be quickly evaluated under the condition that the trunk door is not opened, and then whether the trunk can be continuously placed into an object or not can be quickly judged, so that the operation steps are simplified.

According to the space arrangement method of the trunk, the distribution information acquired by the monitoring assembly is received through the calculation assembly, the space utilization rate of the trunk is calculated according to the distribution information, and the space utilization rate is fed back to the display assembly and displayed. According to the method, the volume of the trunk capable of continuously accommodating the object can be directly obtained according to the space utilization rate and the volume of the trunk cavity under the condition that the trunk door of the trunk is not opened, so that whether the object to be placed can be continuously placed or not can be quickly judged, and the operation steps are simplified.

Various specific structures of the present application, as well as the functions and effects thereof, will be described in further detail below with reference to the accompanying drawings.

Drawings

FIG. 1 is a front view of a trunk space arrangement apparatus according to an embodiment of the present application;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1 of a trunk space arrangement apparatus according to an embodiment of the present application;

FIG. 3 is a flow chart of a trunk space arrangement method according to an embodiment of the present application.

In the reference symbols: 100-a monitoring component; 110-a first monitor; 120-a second monitor; 130-a third monitor; 200-a display assembly; 300-a scaffold; 400-trunk; 410-trunk enclosure; 420-trunk cavity; 500-unlocking means.

Detailed Description

The technical solutions in the embodiments of the present application will be further clearly and completely described below with reference to the accompanying drawings, but it should be noted that the following embodiments are only some preferred embodiments in the present application, and do not refer to all embodiments covered by the technical solutions of the present application.

It should be noted that when an element is referred to as being "fixed" to another element in the description of the present application, it may be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Fig. 1 is a front view of a trunk space arrangement apparatus according to an embodiment of the present application. Fig. 2 is a sectional view of the trunk space arrangement apparatus according to an embodiment of the present application, taken along the section a-a in fig. 1.

In one embodiment, as shown in fig. 1 and 2, the trunk space arrangement apparatus includes a monitoring component 100, a computing component (not shown) and a display component 200. It will be appreciated that trunk 400 is comprised of a trunk shell 410, and that trunk shell 410 defines a trunk cavity 420 therein for placement of objects. Monitoring assembly 100 is disposed within trunk cavity 420 of trunk 400. The monitoring assembly 100 is used for acquiring distribution information of objects in the trunk cavity 420, the calculating assembly is used for calculating the space utilization rate of the trunk 400 according to the distribution information acquired by the monitoring assembly 100, and the display assembly 200 receives and displays the space utilization rate of the trunk 400 to a user. The space utilization rate displayed by the display assembly 200 can be used for evaluating the use condition of the trunk and judging whether articles to be placed can be placed continuously, and the space utilization rate displayed by the display assembly 200 can also be used for guiding the completion of the arrangement of the trunk. It is understood that the distribution information is data for characterizing the positional relationship and the dimensional relationship between the object and the trunk cavity. Specifically, the distribution information may be a specific position of the object in the trunk cavity, and the distribution information may also be size information of the object.

Further, the computing component communicates with the monitoring component 100 and the display component 200 over a network.

Above-mentioned trunk space arrangement device is through setting up the control subassembly in the trunk cavity at the trunk to gather the distribution information of trunk cavity internal object through the control subassembly, and then calculate the space utilization who obtains the trunk according to the distribution information, and demonstrate space utilization to the user through the display module, and then directly obtain the volume that the trunk can continue to hold the object according to the volume of trunk cavity. Therefore, the unoccupied residual volume of the trunk cavity can be quickly evaluated under the condition that the trunk door is not opened, and then whether the trunk can be continuously placed into an object or not can be quickly judged, so that the operation steps are simplified.

Preferably, in one embodiment, the display assembly 200 is provided on a vehicle housing (not shown). It is understood that the vehicle exterior skin includes a hood, a trunk skin, and a door of the vehicle. Display assembly 200 is located on the vehicle shell, and the user of being convenient for when the vehicle outside is to the space utilization's of trunk acquireing.

In another embodiment, the display assembly 200 is provided on an interior structure (not shown) of a vehicle. It is understood that the vehicle interior structure includes a dashboard and a seat back of the vehicle. Display assembly 200 is located on the inner structure of vehicle, and the user of being convenient for when the vehicle is inside acquires the space utilization of trunk.

Preferably, as shown in fig. 1 and 2, the display assembly 200 is disposed on the trunk shell 410 of the trunk 400, and when the user moves to the tail of the vehicle, the display assembly 200 on the trunk shell 410 of the trunk 400 is used to know the space utilization rate of the trunk 400, so as to quickly judge whether the object to be placed can be continuously placed in the trunk, thereby simplifying the confirmation process, shortening the vehicle staying time, and avoiding traffic congestion.

In one embodiment, as shown in FIG. 2, display assembly 200 is secured to trunk enclosure 410 by brackets 300.

Further, in order to enhance the aesthetic appearance of the exterior of the vehicle, as shown in fig. 2, the display assembly 200 is fixed to a middle position of the trunk housing 410 by a bracket 300.

In one embodiment, the display assembly 200 of the trunk space arrangement apparatus is covered with a film having a color corresponding to that of the vehicle exterior. When the display assembly 200 does not work, the area of the display assembly 200 is consistent with the color of the vehicle shell around the display assembly, and the aesthetic property of the vehicle shell is guaranteed.

In one embodiment, the display assembly 200 of the above described trunk space arrangement is covered on top with a film of a color consistent with the trunk shell 410 of the trunk. When the display assembly 200 is not operated, the color of the area where the display assembly 200 is located is consistent with that of the trunk housing 410, thereby ensuring the aesthetic appearance of the vehicle housing.

According to the trunk space arrangement device, the thin film which is consistent with the color of the vehicle shell covers the display assembly, so that the color of the area where the display assembly is located is consistent with the color of the vehicle shell under the non-working state of the display assembly, and the attractiveness of the vehicle shell is guaranteed.

In one embodiment, as shown in fig. 1 and 2, the monitoring assembly 100 includes a first monitor 110, a second monitor 120, and a third monitor 130. Wherein the first monitor 110 is configured to collect first distribution information of objects in the trunk cavity 420 in a first direction, and the second monitor 120 is configured to collect second distribution information of objects in the trunk cavity 420 in a second direction. Third monitor 130 is configured to monitor third distribution information of objects in trunk cavity 420 in a third direction. It is understood that the first direction, the second direction and the third direction are three different directions. The calculation component receives the first distribution information, the second distribution information, and the third distribution information, and calculates the usage rate of the trunk cavity 420 according to the first distribution information, and the third distribution information.

Specifically, in one of the embodiments, the first direction is an X-axis direction in a preset coordinate system; the second direction is a Y-axis direction in a preset coordinate system; the third direction is a Z-axis direction in the preset coordinate system, that is, the first direction, the second direction and the third direction are directions in which three axes of the same preset coordinate system extend. Where the origin of the predetermined coordinate system is located within trunk cavity 420.

The calculation component establishes three-dimensional distribution information of objects in the trunk cavity 420 according to the received first distribution information, second distribution information and third distribution information, calculates the actual volume of the objects in the trunk cavity 420 in the current state according to the three-dimensional distribution information, calculates the utilization rate of the trunk cavity 420 according to the actual volume of the objects and the actual volume of the trunk cavity 420, and takes the utilization rate as the space utilization rate of the trunk. It is to be understood that the stereoscopic distribution information may be a three-dimensional stereoscopic map file for characterizing the positional relationship and the dimensional relationship between the object and the trunk cavity.

Further, the calculation component calculates the spatial volume of the object according to the stereo distribution information, and calculates the actual utilization rate of the trunk cavity 420 according to the spatial volume. It will be understood that the volume of space refers to the volume actually occupied by the object in the trunk, i.e., the volume of space includes the actual volume of the object and the space in the trunk cavity 420 that cannot be used any further due to stacking or object structure considerations. The calculation component generates three-dimensional distribution information according to the distribution information, further calculates the space volume of the object according to the three-dimensional map file, then calculates the actual utilization rate of the trunk cavity 420 according to the space volume of the object and the actual volume of the trunk cavity 420, and takes the actual utilization rate as the space utilization rate of the trunk.

In another embodiment, the monitoring assembly 100 may also be a three-dimensional scanner secured within a trunk cavity of a trunk. The trunk space arrangement device scans an object placed in a trunk cavity through the three-dimensional scanner, establishes a three-dimensional model of the object, calculates the volume of the object according to the size of the three-dimensional model, and further obtains the space utilization rate of the trunk.

According to the space arrangement device for the trunk, the first monitor, the second monitor and the third monitor in the monitoring assembly are used for collecting the first distribution information, the second distribution information and the third distribution information from three directions respectively, then the three-dimensional distribution information of the object is generated according to the first distribution information, the second distribution information and the third distribution information, the size of the object is obtained according to the three-dimensional distribution information, and then the space utilization rate of the trunk is obtained. Through the trunk space arrangement device, the three-dimensional distribution information of the object can be accurately constructed, and the accuracy of the space utilization rate of the trunk calculated by the calculation component is improved.

In one embodiment, the display assembly 200 is any one of an organic light emitting diode display or a liquid crystal display.

In one embodiment, as can be seen from fig. 1, the trunk space allocation apparatus is further provided with an unlocking member 500 for locking and unlocking the display assembly 200.

In one embodiment, the unlocking member 500 is any one of a fingerprint unlocking element or a password unlocking element.

In one embodiment, the unlocking member 500 may also be an external camera. The trunk space arrangement device performs face recognition through an external camera, and further locking and unlocking of the display assembly 200 are achieved.

In the trunk space arrangement device, the unlocking component is arranged to control the working state of the display assembly, the locking state and the unlocking state of the display assembly are flexibly switched, and the safety of the trunk in the use process of the trunk space arrangement device is improved.

In order to realize the intelligent use of the trunk, in one embodiment, the trunk space arrangement device further includes a simulation component (not shown), and the simulation component is used for simulating to obtain the stacking mode of the trunk capable of continuously accommodating the objects and the maximum volume of the trunk capable of continuously accommodating the objects corresponding to the stacking mode according to the distribution information.

Specifically, the simulation component generates the three-dimensional distribution information of the object according to the distribution information acquired by the monitoring component 100, further simulates the stacking mode of all objects in the trunk cavity 420 according to the three-dimensional distribution information of the object, and calculates the maximum volume of objects which can be continuously accommodated in the trunk cavity 420 according to the stacking mode. It will be appreciated that the simulation of the stacking may be for stacking with a minimum dimension in a predetermined direction after stacking, or for stacking with a minimum volume occupied by objects in the trunk cavity.

Further, the simulation component communicates with the monitoring component 100 and the display component 200 through a network.

Furthermore, in order to make reasonable use of the space of the trunk, the simulation module can quickly provide an adjustment mode of the stacking mode of the objects in the trunk cavity 420 according to the stacking mode selected by the user, and the adjustment step of the user for adjusting the existing objects is simplified. The adjusting mode comprises the placing sequence and the placing angle of the objects.

The simulation assembly is arranged in the trunk space arrangement device, different stacking modes of the existing objects in the trunk cavity are simulated through the simulation assembly, the maximum volume of the objects which can be continuously accommodated in the trunk cavity under the different stacking modes is achieved, different requirements of a user are met, and user experience is improved.

A trunk space arrangement method for performing trunk space arrangement based on any one of the above-described trunk space arrangement devices, comprising the steps of, as shown in fig. 3:

in step S202, the calculation component receives the distribution information of the objects in the trunk cavity 420 collected by the monitoring component 100.

Specifically, the distribution information refers to the size and the positional relationship between the object in trunk cavity 420 and trunk cavity 420, and the distribution information includes the coordinates of the object in trunk cavity 420 and the size of the object. When the monitoring component is a monitor, the distribution information is pictures shot by the monitor or recorded images. When the monitoring component is a three-dimensional scanner, the distribution information is a curved surface scanned by the three-dimensional scanner and used for representing the external profile of the object.

In step S204, the calculation component calculates the space utilization rate of the trunk 400 according to the distribution information image.

The calculation component establishes three-dimensional distribution information of objects in the trunk cavity 420 according to the received first distribution information, second distribution information and third distribution information, calculates the volume of the objects in the trunk cavity 420 in the current state according to the three-dimensional distribution information, calculates the utilization rate of the trunk cavity 420 according to the volume of the objects and the actual volume of the trunk cavity 420, and takes the utilization rate as the space utilization rate of the trunk. It is to be understood that the stereoscopic distribution information may be a three-dimensional stereoscopic map file for characterizing the positional relationship and the dimensional relationship between the object and the trunk cavity.

Further, the calculation component receives the distribution information of the objects in the trunk cavity 420 collected by the monitoring component 100, and calculates the actual utilization rate of the trunk 400 according to the distribution information. It will be understood that the volume of space refers to the volume actually occupied by the object in the trunk, i.e., the volume of space includes the actual volume of the object and the space in the trunk cavity 420 that cannot be used any further due to stacking or object structure considerations. Specifically, the calculation component generates three-dimensional distribution information according to the distribution information, further calculates the space volume of the object according to the three-dimensional map file, then calculates the actual utilization rate of the trunk cavity 420 according to the space volume of the object and the actual volume of the trunk cavity 420, and takes the actual utilization rate as the space utilization rate of the trunk.

In step S206, the calculation component feeds back the space utilization of the trunk 400 to the display component 200, and displays the space utilization through the display component 200.

According to the space arrangement method of the trunk, the distribution information acquired by the monitoring assembly is received through the calculation assembly, the space utilization rate of the trunk is calculated according to the distribution information, and the space utilization rate is fed back to the display assembly and displayed. According to the method, the volume of the trunk capable of continuously accommodating the object can be directly obtained according to the space utilization rate and the volume of the trunk cavity under the condition that the trunk door of the trunk is not opened, so that whether the object to be placed can be continuously placed or not can be quickly judged, and the operation steps are simplified.

In order to improve the intelligence and rationalization of the spatial arrangement of the trunk, in one embodiment, after the computing component feeds back the space utilization rate to the display component and displays the space utilization rate through the display component, the following steps are further included, as shown in fig. 3:

in step S208, the simulation component simulates according to the distribution information to obtain a stacking manner in which the trunk cavity 420 can continuously accommodate the object and a maximum volume corresponding to the stacking manner and capable of continuously accommodating the object.

In step S210, the simulation module feeds back the stacking method and the maximum volume to the display module 200, and displays the stacking method and the maximum volume through the display module 200.

According to the method for arranging the trunk space, the simulation assembly obtains the volume of the objects in the trunk cavity according to the distribution information of the objects, and then different stacking modes are simulated by adjusting the placing sequence and the placing angle of the objects, so that the space matched with the objects to be placed is reserved in the trunk cavity, the adjusting steps of the objects in the trunk are simplified, the adjusting efficiency of the objects in the trunk is improved, and the efficiency of the spatial arrangement of the trunk is improved.

Preferably, to ensure the accuracy of the distribution information of the objects in the trunk collected by the monitoring assembly, in one embodiment, the collection of the distribution information of the objects in the trunk cavity 420 by the monitoring assembly 100 is real-time.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (11)

1. A trunk space arrangement device, characterized in that, comprising: a monitoring component, the monitoring component is installed in the trunk cavity of the trunk, and is used for collecting distribution information of objects in the trunk cavity; a computing component, which is configured to calculate and obtain the space utilization rate of the trunk according to the distribution information; a display assembly that receives and displays the space utilization of the trunk. 2. The trunk space arrangement device according to claim 1, wherein the monitoring component comprises: a first monitor, where the first monitor is used to collect first distribution information of the object in a first direction; a second monitor, where the second monitor is configured to collect second distribution information of the object in the second direction; A third monitor, where the third monitor is configured to collect third distribution information of the object in the third direction. 3. The trunk space arrangement device according to claim 1, characterized in that, further comprising: The unlocking part is used for locking and unlocking the display assembly. 4 . The trunk space arrangement device according to claim 3 , wherein the unlocking component is any one of a fingerprint unlocking element or a password unlocking element. 5 . 5 . The trunk space arrangement device according to claim 3 , wherein the unlocking component can also be an external camera, and the external camera is used to lock and lock the display assembly through face recognition. 6 . Unlock. 6 . The trunk space arrangement device according to claim 1 , wherein the display assembly is provided on a vehicle shell. 7 . 7 . The trunk space arrangement device according to claim 6 , wherein the upper part of the display assembly is covered with a film of the same color as the outer shell of the vehicle. 8 . 8. The trunk space arrangement device according to claim 1, characterized in that, further comprising: A simulation component, which is used for simulating, according to the distribution information, a stacking method that can continue to accommodate objects in the trunk cavity and a maximum volume of the object that can continue to accommodate objects corresponding to the stacking method. 9. A method for arranging a trunk space, wherein the trunk space arrangement is carried out based on the device according to any one of claims 1-8, wherein the method comprises: The computing component receives the distribution information of the objects in the trunk cavity collected by the monitoring component; The computing component calculates and obtains the space utilization rate of the trunk according to the distribution information; The computing component feeds back the space utilization to the display component, and displays through the display component. 10 . The method for arranging trunk space according to claim 9 , wherein after the computing component feeds back the space utilization rate to the display component and displays it through the display component, the method further comprises: 10 . The simulation component calculates, according to the distribution information, a stacking manner in which the trunk cavity can continue to accommodate objects and the maximum volume of the objects that can continue to be accommodated corresponding to the stacking manner; The simulation component feeds back the stacking manner and the maximum volume to the display component, and displays it through the display component. 11 . The method for arranging a trunk space according to claim 9 , wherein the collection of the distribution information of the objects by the monitoring component is real-time collection. 12 .

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