CN115630179A - Motor vehicle-mounted photo printing method, system, storage medium and equipment - Google Patents

Abstract

The invention provides a method, a system, a storage medium and equipment for printing a vehicle-mounted photo of a motor vehicle, wherein the method comprises the following steps: pre-establishing a mapping relation between a target vehicle and a corresponding vehicle-mounted photo image to obtain vehicle type mapping information, and storing the vehicle type mapping information in a storage unit; in the off-line process of the target vehicle, collecting a unique identifier on a vehicle following list corresponding to the target vehicle; according to the unique identifier and the vehicle type mapping information, searching the vehicle-mounted photo image of the target vehicle corresponding to the unique identifier in the storage unit; sending a printing instruction to a preset printer to print an actual carrier containing the vehicle-mounted photo image; and sending a cutting instruction to a preset cutting machine according to the specification information of the on-vehicle photo, so that the cutting machine executes the cutting instruction according to the specification information to cut the actual carrier to obtain the on-vehicle photo. With high-efficient printing vehicle-mounted photo under the flexible production mode of vehicle, promote vehicle-mounted photo and distribute efficiency, avoid vehicle-mounted photo mistake to distribute simultaneously.

Description

Motor vehicle-mounted photo printing method, system, storage medium and equipment

Technical Field

The invention relates to the technical field of data processing, in particular to a method, a system, a storage medium and equipment for printing a vehicle-mounted photo of a motor vehicle.

Background

At present, most of all motor vehicle production lines adopt a flexible production mode (namely, the same production line can produce various vehicle types), under the flexible production mode, motor vehicles are produced continuously in batches, vehicle-mounted photos of the motor vehicles also need to be distributed in real time in the production process, and the styles of the vehicle-mounted photos need to be distributed correspondingly according to different vehicle types or different configurations, so that the styles of the vehicle-mounted photos are very numerous.

In the prior art, a plurality of vehicle-mounted photos corresponding to different vehicles or vehicle types are usually printed in batch in advance, when a vehicle enters a photo distribution station, the vehicle is identified manually, and the vehicle-mounted photos corresponding to the vehicle are screened manually and distributed.

However, in the flexible production mode, the work load of manually distributing the onboard photos is large, which causes the photo distribution efficiency to be low; meanwhile, the vehicles are relatively similar, so the vehicle-mounted photos are relatively similar, and the vehicle-mounted photos are very easy to be wrongly distributed in the distribution process.

Disclosure of Invention

Based on the above, the invention aims to provide a method, a system, a storage medium and equipment for printing vehicle-mounted photos of a motor vehicle, and aims to solve the technical problems that the vehicle-mounted photos are printed in batch in advance in a flexible production mode in the prior art, the distribution efficiency of the vehicle-mounted photos is not high, and the vehicle-mounted photos are easily subjected to mismatching.

A first aspect of the present invention provides a method of printing a photograph on board a motor vehicle, the method comprising:

the method comprises the steps of pre-establishing a mapping relation between a target vehicle and a corresponding vehicle-mounted photo image to obtain vehicle type mapping information, and storing the vehicle type mapping information in a storage unit;

in the off-line process of the target vehicle, acquiring a unique identifier on a car-following list corresponding to the target vehicle through a preset image acquisition device;

according to the unique identification and the vehicle type mapping information, the vehicle-mounted photo image of the target vehicle corresponding to the unique identification is searched in the storage unit;

sending a printing instruction to a preset printer so as to enable the printer to execute the printing instruction to print an actual carrier containing the vehicle-mounted photo image;

and sending a cutting instruction to a preset cutting machine according to the specification information of the vehicle-mounted photo so that the cutting machine executes the cutting instruction according to the specification information to cut the actual carrier to obtain the vehicle-mounted photo.

According to an aspect of the foregoing technical solution, the step of pre-establishing a mapping relationship between a target vehicle and a corresponding onboard photograph image to obtain vehicle type mapping information, and storing the vehicle type mapping information in a storage unit specifically includes:

acquiring vehicle type information of a target vehicle, and generating a vehicle type comparison table of the target vehicle according to the vehicle type information; wherein the target vehicle has a number of vehicle types;

in a preset MES system, according to the vehicle type comparison table, establishing a mapping relation between each vehicle type of the target vehicle and the corresponding vehicle-mounted photo image to obtain vehicle type mapping information;

and storing the vehicle type mapping information in a storage unit.

According to one aspect of the above technical solution, the unique identifier is a VIN code of the target vehicle or an identifier code generated according to the VIN code, wherein the identifier code is a barcode or a two-dimensional code.

According to an aspect of the foregoing technical solution, the step of searching the on-vehicle photo image of the target vehicle corresponding to the unique identifier in the storage unit according to the unique identifier and the vehicle type mapping information specifically includes:

according to the acquired unique identifier and the vehicle type mapping information, searching a vehicle-mounted photo image of a target vehicle corresponding to the unique identifier in a preset storage unit of a MES (manufacturing execution system) in the preset MES;

after the step of searching the storage unit for the on-board photo image of the target vehicle corresponding to the unique identifier, the method further comprises:

determining the searched vehicle-mounted photo image as a target image;

and verifying the target image to judge whether the target image conforms to the appearance and the color of the target vehicle.

According to an aspect of the foregoing technical solution, the step of verifying the target image to determine whether the target image conforms to the shape and color of the target vehicle specifically includes:

acquiring a first monitoring image of the target vehicle when the target vehicle enters a photo distribution station;

and comparing the target image with the first monitoring image, and judging whether the shapes and colors of the target vehicle shown in the target image are consistent with those of the target vehicle shown in the first monitoring image.

According to an aspect of the foregoing technical solution, after the step of comparing the target image with the first monitor and determining whether the shape and the color of the target vehicle shown in the target image are consistent with those of the target vehicle shown in the first monitor image, the method further includes:

if yes, sending a printing instruction to a preset printer so that the printer executes the printing instruction to print an actual carrier containing the target image.

According to an aspect of the foregoing technical solution, after the step of cutting the actual carrier to obtain the onboard photo, the method further includes:

after the vehicle-mounted photo is distributed to the corresponding target vehicle, a second monitoring image of the vehicle-mounted photo leaving a photo distribution station after being distributed is obtained;

and extracting an assembly image of the target vehicle and the vehicle-mounted picture in the same frame, and storing the assembly image in the storage unit.

A second aspect of the present invention provides an onboard vehicle photographic printing system, the system comprising:

the information storage module is used for pre-establishing a mapping relation between a target vehicle and a corresponding vehicle-mounted photo image to obtain vehicle type mapping information, and storing the vehicle type mapping information in a storage unit;

the identification acquisition module is used for acquiring a unique identification on a car following list corresponding to the target vehicle through preset image acquisition equipment in the off-line process of the target vehicle;

the image searching module is used for searching the vehicle-mounted photo image of the target vehicle corresponding to the unique identifier in the storage unit according to the unique identifier and the vehicle type mapping information;

the printing execution module is used for sending a printing instruction to a preset printer so that the printer executes the printing instruction to print an actual carrier containing the vehicle-mounted photo image;

and the cutting execution module is used for sending a cutting instruction to a preset cutting machine according to the specification information of the vehicle-mounted photo so that the cutting machine executes the cutting instruction according to the specification information to cut the actual carrier to obtain the vehicle-mounted photo.

A third aspect of the present invention provides a computer-readable storage medium having stored thereon computer instructions which, when executed by a processor, implement the steps of the method as set forth in the above-mentioned embodiments.

A fourth aspect of the present invention is to provide a computer device, comprising a memory, a processor and a computer program stored in the memory and executable on the processor, wherein the processor implements the steps of the method of the above technical solution when executing the program.

Compared with the prior art, the vehicle-mounted photo printing method, the system, the storage medium and the equipment in the offline process of the vehicle have the advantages that:

the method comprises the steps of obtaining vehicle type mapping information and storing the vehicle type mapping information through pre-establishing a mapping relation between a target vehicle and a corresponding vehicle-mounted photo image, determining a specific vehicle type of the target vehicle through scanning a unique identification of the target vehicle in the off-line process of the target vehicle, searching the vehicle-mounted photo image corresponding to the vehicle type in a storage unit, sending a printing instruction to a printer to print an actual carrier containing the vehicle-mounted photo image, and sending a cutting instruction to a cutting machine to cut the actual carrier to obtain the vehicle-mounted photo.

Drawings

Fig. 1 is a schematic flow chart of a method for printing an onboard photo of a motor vehicle according to a first embodiment of the invention;

fig. 2 is a block diagram showing the configuration of an on-vehicle photo printing system according to a third embodiment of the present invention;

the following detailed description will further illustrate the invention in conjunction with the above-described figures.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Several embodiments of the invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can 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. The terms "vertical," "horizontal," "left," "right," and the like are used herein for purposes of illustration only.

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.

Example one

Referring to fig. 1, a schematic flow chart of a method for printing a photo on board a motor vehicle according to a first embodiment of the present invention is shown, where the method includes steps S10 to S50:

step S10, a mapping relation between a target vehicle and a corresponding vehicle-mounted photo image is pre-established to obtain vehicle type mapping information, and the vehicle type mapping information is stored in a storage unit;

the target vehicle link is a vehicle to be offline, namely a vehicle which has finished final assembly. In the flexible production mode, different vehicles can be produced by the same production line, and the height of the vehicles is also included, so that multiple vehicle types can be produced by the same production line, namely the same platform vehicle type.

Just because the vehicle is usually produced by adopting a flexible production mode at present, in order to avoid the insufficient distribution efficiency and possible mismatching caused by the manual distribution of the vehicle-mounted certificate in the vehicle offline process, in the embodiment, before the vehicle-mounted photo is printed and distributed, the mapping relation between the target vehicle and the corresponding image of the vehicle-mounted photo is firstly established, so that the vehicle type mapping information is obtained, and the vehicle type mapping information is stored in a preset storage unit.

For example, the platform needs to perform mixed production on three types of ABC vehicles, that is, simultaneously perform mixed production on a target vehicle a, a target vehicle B and a target vehicle C, where the target vehicle a, the target vehicle B and the target vehicle C may be different vehicles, that is, different types of vehicles, or different configurations of the same vehicle type, that is, different versions of vehicles. For example, the target vehicle a and the target vehicle C are both cars, the target vehicle B is an SUV car, and the target vehicle a and the target vehicle C have different configurations and appearances, and are correspondingly provided with the on-vehicle picture a, the on-vehicle picture B, and the on-vehicle picture C.

Therefore, in step S10, all target vehicles (including vehicles with different vehicle types and versions) and their corresponding vehicle-mounted photos are associated and mapped to obtain vehicle type mapping information, so that original data of vehicle types required to be produced by the platform can be obtained, and later-stage calling is facilitated, so as to facilitate printing and distribution of the vehicle-mounted photos.

Step S20, in the off-line process of the target vehicle, acquiring a unique identifier on a car following list corresponding to the target vehicle through a preset image acquisition device;

it should be noted that the target vehicle is off-line, i.e. the target vehicle has completed the assembly of all the components and enters the visual inspection and the stage before entering the warehouse, so the vehicle-mounted certificate is usually distributed in the process according to the actual vehicle, and is usually distributed by the visual inspection personnel. In vehicle assembly, a following order is typically customized for the vehicle, including, but not limited to, recording the unique identification of the subject vehicle, the assembly sequence, and the notice.

In this embodiment, when a target vehicle enters a photo distribution assembly station (or an appearance inspection station), an operator acquires a unique identifier corresponding to the target vehicle on a car following list through an image acquisition device, and then enters the process of printing and distributing the on-vehicle photos shown in this embodiment.

The unique identifier corresponding to the target vehicle includes, but is not limited to, a VIN code, an identification code corresponding to the VIN code, such as a barcode, a two-dimensional code, and the like.

Preferably, in this embodiment, the unique identifier corresponding to the target vehicle is a VIN code, and the VIN code is located in a relatively conspicuous area on the car-following list, so that each operator can scan the VIN code to perform corresponding operation, and the image acquisition device for acquiring the image is a code scanning gun.

Step S30, searching the vehicle-mounted photo image of the target vehicle corresponding to the unique identifier in the storage unit according to the unique identifier and the vehicle type mapping information;

specifically, after the VIN code is scanned by the code scanning gun, the system automatically judges whether the vehicle is specifically the target vehicle a, the target vehicle B or the target vehicle C according to the VIN code, and if the vehicle corresponding to the VIN code is judged to be the target vehicle a, the on-vehicle photo image a corresponding to the target vehicle a is automatically searched in the storage unit.

It should be noted that the VIN code includes a specific vehicle type, a production date, a check code, and the like of the vehicle, and is encoded based on a preset encoding rule, and after the VIN code is scanned, the system analyzes the VIN code to obtain vehicle type information.

Step S40, sending a printing instruction to a preset printer so that the printer executes the printing instruction to print an actual carrier containing the vehicle-mounted photo image;

specifically, after the vehicle-mounted photo image of the vehicle type corresponding to the VIN code is found in the storage unit according to the VIN code of the target vehicle, the system sends a printing instruction to a preset printer, and the printer is controlled to print an actual carrier containing the vehicle-mounted photo image. Of course, the printing process needs to be performed based on the specification information of the onboard certificate.

Among these, the actual support is, for example, a plain paper or a gummed paper, usually a gummed paper, dedicated to the printing of photographs, facilitating the long-term preservation of images.

And S50, sending a cutting instruction to a preset cutting machine according to the specification information of the vehicle-mounted photo, so that the cutting machine executes the cutting instruction according to the specification information to cut the actual carrier to obtain the vehicle-mounted photo.

Specifically, after the printer prints the on-vehicle photo image, the system sends a cutting instruction to a preset cutting machine, so that the cutting machine is controlled to cut the actual carrier containing the on-vehicle photo image according to a preset specification, and the on-vehicle photo is obtained.

To sum up, the basic flow of the printing of the photos on board the motor vehicle shown in the present embodiment is as follows: an operator collects the unique identification of a target vehicle, the system automatically searches a vehicle-mounted photo image corresponding to the target vehicle according to the unique identification and pre-stored vehicle type mapping information, the system sends a printing instruction to a printer, an actual carrier containing the vehicle-mounted photo image is obtained through printing, a cutting instruction is sent to a cutting machine, and the vehicle-mounted photo corresponding to the target vehicle is obtained through cutting. The onboard photo is then distributed by the operator.

Compared with the prior art, the method for printing the vehicle-mounted photo of the motor vehicle has the advantages that:

the method comprises the steps of obtaining vehicle type mapping information and storing the vehicle type mapping information by pre-establishing a mapping relation between a target vehicle and a corresponding vehicle-mounted photo image, determining a specific vehicle type of the target vehicle by scanning a unique identifier of the target vehicle in the off-line process of the target vehicle, searching the vehicle-mounted photo image corresponding to the vehicle type in a storage unit, sending a printing instruction to a printer to print an actual carrier containing the vehicle-mounted photo image, and sending a cutting instruction to a cutting machine to cut the actual carrier to obtain the vehicle-mounted photo.

Example two

A second embodiment of the present invention provides an onboard photograph printing method, and the onboard photograph printing method shown in this embodiment is different from the onboard photograph printing method shown in the first embodiment in that:

in this embodiment, the step of pre-establishing a mapping relationship between the target vehicle and the corresponding onboard photo image to obtain vehicle type mapping information, and storing the vehicle type mapping information in the storage unit specifically includes steps S11 to S113:

s11, obtaining vehicle type information of a target vehicle, and generating a vehicle type comparison table of the target vehicle according to the vehicle type information; wherein the target vehicle has a number of vehicle types;

s12, in a preset MES system, according to the vehicle type comparison table, establishing a mapping relation between each vehicle type of the target vehicle and a corresponding vehicle-mounted photo image to obtain vehicle type mapping information;

and S13, storing the vehicle type mapping information in a storage unit.

In this embodiment, the step of searching the on-vehicle photo image of the target vehicle corresponding to the unique identifier in the storage unit according to the unique identifier and the vehicle type mapping information specifically includes:

and searching a vehicle-mounted photo image of a target vehicle corresponding to the unique identifier in a preset storage unit of the MES system according to the acquired unique identifier and the vehicle type mapping information.

In order to avoid that the associated mapping between the vehicle type and the vehicle-mounted photo image in the vehicle type mapping information has an error, which causes misallocation of the vehicle-mounted photo, in this embodiment, after the step of searching the vehicle-mounted photo image of the target vehicle corresponding to the unique identifier in the storage unit, the method further includes:

determining the searched vehicle-mounted photo image as a target image;

and verifying the target image to judge whether the target image conforms to the appearance and the color of the target vehicle.

The step of verifying the target image to determine whether the target image conforms to the shape and color of the target vehicle specifically includes:

acquiring a first monitoring image of the target vehicle when the target vehicle enters a photo distribution station;

comparing the target image with the first monitoring image, and judging whether the shape and the color of the target vehicle shown in the target image are consistent with those of the target vehicle shown in the first monitoring image;

if yes, sending a printing instruction to a preset printer so that the printer executes the printing instruction to print an actual carrier containing the target image.

After the step of printing to obtain the actual carrier, sending a cutting instruction to a cutting machine to control the cutting machine to cut the actual carrier containing the vehicle-mounted photo image according to a preset specification, and finally obtaining the vehicle-mounted photo.

Meanwhile, in order to facilitate the later traceability, after the step of cutting the actual carrier to obtain the onboard photo, the method further comprises the following steps:

after the vehicle-mounted photo is distributed to the corresponding target vehicle, a second monitoring image of the vehicle-mounted photo leaving a photo distribution station after being distributed is obtained;

and extracting an assembly image of the target vehicle and the vehicle-mounted picture in the same frame, and storing the assembly image in the storage unit.

The operator places the vehicle-mounted photo at the upper left corner of the instrument panel on the rear side of the front windshield, the distribution process and the video of the distribution result are acquired by the monitoring device, and the assembly image of the target vehicle and the vehicle-mounted photo frame is extracted and stored, so that the assembly image can be called at the later stage to realize the source tracing.

Compared with the prior art, the method for printing the vehicle-mounted photo of the motor vehicle has the advantages that at least:

the method comprises the steps of obtaining vehicle type mapping information and storing the vehicle type mapping information through pre-establishing a mapping relation between a target vehicle and a corresponding vehicle-mounted photo image, determining a specific vehicle type of the target vehicle through scanning a unique identification of the target vehicle in the off-line process of the target vehicle, searching the vehicle-mounted photo image corresponding to the vehicle type in a storage unit, sending a printing instruction to a printer to print an actual carrier containing the vehicle-mounted photo image, and sending a cutting instruction to a cutting machine to cut the actual carrier to obtain the vehicle-mounted photo.

EXAMPLE III

Referring to fig. 2, a block diagram of a vehicular photo printing system according to a third embodiment of the present invention is shown, the system including: the system comprises an information storage module 10, an identification acquisition module 20, an image searching module 30, a printing execution module 40 and a cutting execution module 50.

The information storage module 10 is used for establishing a mapping relation between a target vehicle and a corresponding vehicle-mounted photo image in advance to obtain vehicle type mapping information, and storing the vehicle type mapping information in a storage unit;

the target vehicle link is a vehicle to be offline, namely a vehicle which has finished final assembly. In the flexible production mode, different vehicles can be produced by the same production line, and the height of the vehicles is also included, so that multiple vehicle types can be produced by the same production line, namely the same platform vehicle type.

Just because a flexible production mode is generally adopted to produce vehicles at present, in order to avoid insufficient distribution efficiency and possible mismatching distribution caused by manual distribution of vehicle-mounted certificates in a vehicle offline process, in the embodiment, before a vehicle-mounted photo is printed and distributed, a mapping relation between a target vehicle and a corresponding vehicle-mounted photo image is firstly established, so that vehicle type mapping information is obtained, and the vehicle type mapping information is stored in a preset storage unit.

For example, the platform needs to perform mixed production on three types of ABC vehicles, that is, simultaneously perform mixed production on a target vehicle a, a target vehicle B and a target vehicle C, where the target vehicle a, the target vehicle B and the target vehicle C may be different vehicles, that is, different vehicle types, and may also be different configurations of the same vehicle type, that is, different vehicle versions. For example, the target vehicle a and the target vehicle C are both cars, the target vehicle B is an SUV vehicle, and the target vehicle a and the target vehicle C have different configurations and appearances, and are correspondingly provided with the onboard photos a, the onboard photos B, and the onboard photos C.

Therefore, all target vehicles (including vehicles with different vehicle types and versions) and the corresponding vehicle-mounted photos are subjected to associated mapping to obtain vehicle type mapping information, so that original data of vehicle types required to be produced by the platform can be obtained, and later calling is facilitated, and printing and distribution of the vehicle-mounted photos are facilitated.

The identification acquisition module 20 is configured to acquire, through a preset image acquisition device, a unique identification on a car-following list corresponding to the target vehicle in the off-line process of the target vehicle;

it should be noted that the target vehicle is off-line, i.e. the target vehicle has completed the assembly of all the components and enters the visual inspection and the stage before entering the warehouse, so the vehicle-mounted certificate is usually distributed in the process according to the actual vehicle, and is usually distributed by the visual inspection personnel. In vehicle assembly, a following order is typically customized for the vehicle, including, but not limited to, a unique identification of the subject vehicle, the assembly sequence, and the notice.

In this embodiment, when a target vehicle enters a photo distribution assembly station (or an appearance inspection station), an operator acquires a unique identifier corresponding to the target vehicle on a car following list through an image acquisition device, and then enters the process of printing and distributing the on-vehicle photos shown in this embodiment.

The unique identifier corresponding to the target vehicle includes, but is not limited to, a VIN code, an identification code corresponding to the VIN code, such as a barcode, a two-dimensional code, and the like.

Preferably, in this embodiment, the unique identifier corresponding to the target vehicle is a VIN code, and the unique identifier is located in a relatively conspicuous area on the car following list, so that each operator can scan the VIN code to perform corresponding operation, and the image acquisition device for acquiring the image is a code scanning gun.

The image searching module 30 is configured to search the onboard photo image of the target vehicle corresponding to the unique identifier in the storage unit according to the unique identifier and the vehicle type mapping information;

specifically, after the VIN code is scanned by the code scanning gun, the system automatically determines that the vehicle is specifically the target vehicle a, the target vehicle B or the target vehicle C according to the VIN code, and if the vehicle corresponding to the VIN code is determined to be the target vehicle a, automatically searches the onboard photo image a corresponding to the target vehicle a in the storage unit.

It should be noted that the VIN code includes a specific vehicle type, a production date, a check code, and the like of the vehicle, and is encoded based on a preset encoding rule, and after the VIN code is scanned, the system analyzes the VIN code to obtain vehicle type information.

The printing execution module 40 is configured to send a printing instruction to a preset printer, so that the printer executes the printing instruction to print an actual carrier containing the onboard photo image;

specifically, after the vehicle-mounted photo image of the vehicle type corresponding to the VIN code is found in the storage unit according to the VIN code of the target vehicle, the system sends a printing instruction to a preset printer, and the printer is controlled to print the actual carrier containing the vehicle-mounted photo image. Of course, the printing process needs to be performed based on the specification information of the onboard certificate.

Among these, the actual support is, for example, a plain paper or a gummed paper, usually a gummed paper, dedicated to the printing of photographs, facilitating the long-term preservation of images.

And the cutting execution module 50 is used for sending a cutting instruction to a preset cutting machine according to the specification information of the vehicle-mounted photo, so that the cutting machine executes the cutting instruction according to the specification information to cut the actual carrier to obtain the vehicle-mounted photo.

Specifically, after the printer prints the on-vehicle photo image, the system sends a cutting instruction to a preset cutting machine, so that the cutting machine is controlled to cut the actual carrier containing the on-vehicle photo image according to a preset specification, and the on-vehicle photo is obtained.

In summary, the basic flow of the printing of the photos on the vehicle shown in the embodiment is as follows: an operator collects the unique identification of a target vehicle, the system automatically searches a vehicle-mounted photo image corresponding to the target vehicle according to the unique identification and pre-stored vehicle type mapping information, the system sends a printing instruction to a printer, an actual carrier containing the vehicle-mounted photo image is obtained through printing, a cutting instruction is sent to a cutting machine, and the vehicle-mounted photo corresponding to the target vehicle is obtained through cutting. And then the vehicle-mounted photo is distributed by an operator.

Compared with the prior art, adopt the vehicle-mounted photo printing system who shows among this embodiment, beneficial effect lies in:

the method comprises the steps of obtaining vehicle type mapping information and storing the vehicle type mapping information by pre-establishing a mapping relation between a target vehicle and a corresponding vehicle-mounted photo image, determining a specific vehicle type of the target vehicle by scanning a unique identifier of the target vehicle in the off-line process of the target vehicle, searching the vehicle-mounted photo image corresponding to the vehicle type in a storage unit, sending a printing instruction to a printer to print an actual carrier containing the vehicle-mounted photo image, and sending a cutting instruction to a cutting machine to cut the actual carrier to obtain the vehicle-mounted photo.

Example four

A fourth embodiment of the invention provides a computer readable storage medium having stored thereon computer instructions which, when executed by a processor, implement the steps of the method described in the above embodiments.

EXAMPLE five

A fifth embodiment of the invention provides a computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the steps of the method in the above embodiments when executing the program.

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

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is specific and detailed, but not to be understood as limiting the scope of the present 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 should be subject to the appended claims.

Claims (10)

1. A method of printing a photograph on board a motor vehicle, the method comprising:

the method comprises the steps of establishing a mapping relation between a target vehicle and a corresponding vehicle-mounted photo image in advance to obtain vehicle type mapping information, and storing the vehicle type mapping information in a storage unit;

in the off-line process of the target vehicle, acquiring a unique identifier on a car following list corresponding to the target vehicle through preset image acquisition equipment;

according to the unique identification and the vehicle type mapping information, the vehicle-mounted photo image of the target vehicle corresponding to the unique identification is searched in the storage unit;

sending a printing instruction to a preset printer so as to enable the printer to execute the printing instruction to print an actual carrier containing the vehicle-mounted photo image;

and sending a cutting instruction to a preset cutting machine according to the specification information of the vehicle-mounted photo, so that the cutting machine executes the cutting instruction according to the specification information to cut the actual carrier to obtain the vehicle-mounted photo.

2. The method for printing the vehicle-mounted photo of the motor vehicle according to claim 1, wherein the step of establishing a mapping relationship between the target vehicle and the corresponding vehicle-mounted photo image in advance to obtain vehicle type mapping information, and storing the vehicle type mapping information in a storage unit specifically comprises:

acquiring vehicle type information of a target vehicle, and generating a vehicle type comparison table of the target vehicle according to the vehicle type information; wherein the target vehicle has a number of vehicle types;

in a preset MES system, according to the vehicle type comparison table, establishing a mapping relation between each vehicle type of the target vehicle and a corresponding vehicle-mounted photo image to obtain vehicle type mapping information;

and storing the vehicle type mapping information in a storage unit.

3. The vehicle-mounted photo printing method for the motor vehicle as claimed in claim 2, wherein the unique identifier is a VIN code of the target vehicle or an identification code generated according to the VIN code, and the identification code is a bar code or a two-dimensional code.

4. The method for printing the on-vehicle photo of the motor vehicle according to claim 3, wherein the step of searching the on-vehicle photo image of the target vehicle corresponding to the unique identifier in the storage unit according to the unique identifier and the vehicle type mapping information specifically comprises:

according to the acquired unique identifier and the vehicle type mapping information, searching a vehicle-mounted photo image of a target vehicle corresponding to the unique identifier in a preset storage unit of a MES system;

after the step of searching the storage unit for the on-board photo image of the target vehicle corresponding to the unique identifier, the method further comprises:

determining the searched vehicle-mounted photo image as a target image;

and verifying the target image to judge whether the target image conforms to the appearance and the color of the target vehicle.

5. The method for printing the vehicle-mounted photo of the motor vehicle according to claim 4, wherein the step of verifying the target image to determine whether the target image conforms to the shape and color of the target vehicle specifically comprises:

acquiring a first monitoring image of the target vehicle when the target vehicle enters a photo distribution station;

and comparing the target image with the first monitoring image, and judging whether the shapes and colors of the target vehicle shown in the target image are consistent with those of the target vehicle shown in the first monitoring image.

6. The method for printing the onboard photo of the motor vehicle according to claim 5, wherein after the step of comparing the target image with the first monitoring image and determining whether the shape and the color of the target vehicle shown in the target image are consistent with those of the target vehicle shown in the first monitoring image, the method further comprises:

if yes, sending a printing instruction to a preset printer so that the printer executes the printing instruction to print an actual carrier containing the target image.

7. The method for printing the photograph on board a motor vehicle according to any one of claims 1 to 6, wherein after the step of cutting the actual support to obtain the photograph on board a motor vehicle, the method further comprises:

after the vehicle-mounted photo is distributed to the corresponding target vehicle, a second monitoring image of the vehicle-mounted photo leaving a photo distribution station after being distributed is obtained;

and extracting an assembly image of the target vehicle and the vehicle-mounted picture in the same frame, and storing the assembly image in the storage unit.

8. An automotive onboard photo printing system, the system comprising:

the information storage module is used for pre-establishing a mapping relation between a target vehicle and a corresponding vehicle-mounted photo image to obtain vehicle type mapping information, and storing the vehicle type mapping information in a storage unit;

the identification acquisition module is used for acquiring a unique identification on a car following list corresponding to the target vehicle through preset image acquisition equipment in the off-line process of the target vehicle;

the image searching module is used for searching the vehicle-mounted photo image of the target vehicle corresponding to the unique identifier in the storage unit according to the unique identifier and the vehicle type mapping information;

the printing execution module is used for sending a printing instruction to a preset printer so that the printer executes the printing instruction to print an actual carrier containing the vehicle-mounted photo image;

and the cutting execution module is used for sending a cutting instruction to a preset cutting machine according to the specification information of the vehicle-mounted photo so that the cutting machine executes the cutting instruction according to the specification information to cut the actual carrier to obtain the vehicle-mounted photo.

9. A computer-readable storage medium having stored thereon computer instructions, which when executed by a processor, perform the steps of the method of any one of claims 1 to 7.

10. A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor implements the steps of the method according to any of claims 1-7 when executing the program.

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