CN110482026B - EPS packing box customizing method for automobile parts - Google Patents

Abstract

The invention discloses an EPS packing box customizing method for an automobile part in the technical field of packing boxes, and aims to solve the technical problems that in the prior art, the packing box of the automobile part is not standardized and customized according to a delivery tool and the automobile part, so that the loading rate of the automobile part is limited, and the logistics cost is increased. The method comprises the following steps: obtaining the external structure size and the carrying mode of the automobile part; establishing an automobile part loading model according to the external configuration size and the automobile part carrying mode of the automobile part; acquiring the external dimension and the internal construction dimension of the packing box according to the automobile part loading model; and customizing the EPS packing box according to the external dimension and the internal construction dimension of the packing box.

Description

EPS packing box customizing method for automobile parts

Technical Field

The invention relates to a method for customizing an EPS packing box for an automobile part, and belongs to the technical field of packing boxes.

Background

At present, when the automobile industry is divided into different industries and refined and rapidly developed, automobile parts are usually manufactured by automobile part manufacturers scattered in different regions according to design drawings, and then are respectively transported to an automobile enterprise general assembly department for unified assembly. In the processes of delivery, storage, transportation and assembly of automobile parts, the automobile part packaging box is scientifically selected, so that the transportation loss is reduced to the maximum extent, the transportation cost is reduced, and the carrying efficiency is improved.

Automobile parts packing box among the prior art still has not few defect, and especially packing box design itself is reasonable inadequately, and automobile parts packing box designs the production according to the automobile parts that it held mostly, and does not consider the inner space size of delivery vehicle, leads to packing box and delivery vehicle incomplete matching, and a large amount of spaces of delivery vehicle are wasted to the loading rate of automobile parts has been restricted, logistics cost has been improved.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a method for customizing an EPS packing box for an automobile part, so as to solve the technical problems that in the prior art, the automobile part packing box is not standardized and customized according to a delivery tool and the automobile part, so that the loading rate of the automobile part is limited, and the logistics cost is increased.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

an EPS packing box customizing method for automobile parts comprises the following steps:

obtaining the external structure size and the carrying mode of the automobile part;

establishing an automobile part loading model according to the external configuration size and the automobile part carrying mode of the automobile part;

acquiring the external dimension and the internal construction dimension of the packing box according to the automobile part loading model;

and customizing the EPS packing box according to the external dimension and the internal construction dimension of the packing box.

Further, obtaining the external configuration dimension of the automobile part comprises the following steps:

obtaining a digital model of an automobile component, the digital model comprising a three-dimensional digital model;

and acquiring the external configuration dimension of the automobile part according to the digital model of the automobile part.

Further, according to the external configuration size and the carrying mode of the automobile part, the automobile part loading model is established, and the method comprises the following steps:

obtaining the size of the inner space of the vehicle according to the vehicle part carrying mode;

setting a safety distance between the automobile parts according to the external configuration size of the automobile parts and the internal space size of the carrier;

simulating the space position of the automobile part after the automobile part is installed in the carrier based on the internal space size of the carrier, the external structure size of the automobile part and the safety distance between the automobile parts;

setting a packing box loading mode, an automobile part loading mode and the loading quantity of automobile parts in a packing box based on the spatial position of the automobile parts after the automobile parts are loaded into a carrier under the condition of maximizing the automobile part loading rate;

and establishing an automobile part loading model based on a packing box loading mode, an automobile part loading mode and the loading quantity of the automobile parts in the packing box.

Further, the vehicle comprises a container comprising any one of a forty-foot high chest container, a forty-foot chest container, and a twenty-foot chest container.

Further, the packing box loading mode includes: the packing box is placed in the carrier in the positive direction or/and the side direction.

Further, an automobile parts loading method includes: the automobile parts are transversely or/and longitudinally placed in the packing box.

Further, according to the automobile part loading model, acquiring the external dimension and the internal construction dimension of the packing box, wherein the method comprises the following steps:

extracting a continuous space constructed by the safety distance between the automobile parts in the automobile part loading model;

and setting the overall dimension and the internal construction dimension of the packing box based on the continuous space constructed by the safe distance between the automobile parts.

Further, according to packing box overall dimension and internal structure size, customization EPS packing box includes:

generating a script file based on the external dimension of the packing box and the internal construction dimension of the packing box;

starting a script file to drive a production processing machine to process on the EPS base material to obtain the EPS packing box;

the production processing machine comprises a three-dimensional printer or an engraving machine.

Further, the packing box is provided with an observation port, and the EPS comprises flame-retardant EPS.

Further, the automobile part includes any one of a door, a lamp, a roof panel, a subframe, a bumper, a fender, a window, and a sunroof.

Compared with the prior art, the invention has the following beneficial effects: the EPS packing box customized by the method has low cost and light weight, can be completely matched with a delivery vehicle and an automobile part, ensures the loading rate of the automobile part to the maximum extent, avoids the space waste of the delivery vehicle and the packing box, and reduces the logistics cost.

Detailed Description

The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

An EPS packing box customizing method for automobile parts comprises the following steps:

step one, obtaining the external structure size of the automobile part and the internal space size of the carrying tool.

Firstly, obtaining a three-dimensional digital model of an automobile part and a carrying mode of the automobile part from an automobile manufacturer; then, the external configuration dimension of the automobile part is obtained according to the three-dimensional digital model, and the internal space dimension of the vehicle is obtained according to the carrying mode reference of the automobile part.

The automobile part comprises any one of an automobile door, an automobile lamp, an automobile roof, an auxiliary frame, a bumper, a fender, an automobile window and a skylight; the vehicle comprises a container including any one of a forty foot high chest container, a forty foot standard chest container, and a twenty foot standard chest container.

And step two, setting the safety distance between the automobile parts.

Namely, the safety distance between the automobile parts is set according to the external configuration size of the automobile parts and the internal space size of the vehicle. The safety distance is set in such a way that the necessary buffer space is created between adjacent vehicle parts and between a vehicle part and the vehicle. Through filling EPS material in the continuous space that safe distance found, form the tank wall of EPS packing box and various chambeies and the isolation part in the box to car parts that hold in to the packing box play buffering shock attenuation and spacing fixed effect, avoid in the transportation car parts to rock all around in the packing box because of self inertia, ensure that normal storage, loading, handling in-process car parts do not take place the damage.

And step three, establishing an automobile part loading model.

Firstly, according to the internal space size of a carrier, the external structure size of automobile parts and the safety distance between the automobile parts, the space position combination of the automobile parts after being installed in the carrier is set by utilizing computer software simulation; then, the spatial position of the automobile part after being loaded on the carrier is adjusted and optimized by using computer software to maximize the loading rate of the automobile part, namely, the carrier contains the maximum number of automobile parts in a rated bearing range, the weight of the EPS packing box is estimated, and the EPS packing box is added into the total bearing weight; then, setting a packing box loading mode, an automobile part loading mode and the loading quantity of the automobile parts in the packing box based on the spatial position of the automobile parts, which are loaded in a carrier, under the condition of maximizing the automobile part loading rate; and finally, establishing an automobile part loading digital model by using computer software based on a packing box loading mode, an automobile part loading mode and the loading quantity of the automobile parts in the packing box.

The packing box loading mode comprises the steps that the packing boxes are placed in the carrier in a forward direction or/and a lateral direction; the automobile part loading mode comprises the following steps: the automobile parts are transversely or/and longitudinally placed in the packing box.

In the process of setting the loading mode of the packing box, the loading mode of the automobile parts and the loading quantity of the automobile parts in the packing box, certain dimensional tolerance needs to be reserved so as to adapt to certain deformation errors possibly generated by the packing box and the loading tool due to thermal expansion and cooling, manufacturing process and the like.

And step four, acquiring the external dimension and the internal construction dimension of the packing box.

Firstly, extracting a continuous space constructed by the safety distance between automobile parts in an automobile part loading digital model by using computer software; then, the outer dimension and the inner dimension of the packing box are set based on the continuous space constructed by the safety distance between the automobile parts.

In the process of setting the external dimension and the internal structure dimension of the packing box, inconvenience in transportation and stacking caused by overlarge box body and overlarge capacity and even exceeding the structural strength of the EPS packing box are avoided; the loading and transferring burden is increased because the box body is prevented from being too small and the capacity is not too small.

And fifthly, customizing the EPS packing box.

Generating a script file based on the external dimension of the packing box and the internal construction dimension of the packing box;

and starting the script file to drive a production processing machine to process on the EPS base material to obtain the EPS packing box.

The production processing machine comprises a three-dimensional printer or an engraving machine; the EPS base material is made of flame-retardant EPS, so that the flame-retardant EPS base material has good flame retardance and is favorable for avoiding accidental fires to the maximum extent; EPS packing box one side is equipped with the viewing aperture to observe packing box content kind and fixed situation, in time handle when the discovery has circumstances such as extrusion, damage.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (7)

1. An EPS packing box customizing method for automobile parts is characterized by comprising the following steps:

obtaining the external structure size and the carrying mode of the automobile part;

establishing an automobile part loading model according to the external configuration size and the automobile part carrying mode of the automobile part;

acquiring the external dimension and the internal construction dimension of the packing box according to the automobile part loading model;

customizing the EPS packing box according to the external dimension and the internal construction dimension of the packing box;

according to the external configuration size and the carrying mode of the automobile part, the automobile part loading model is established, and the automobile part loading model comprises the following steps:

obtaining the size of the inner space of the vehicle according to the vehicle part carrying mode;

setting a safety distance between automobile parts according to the appearance construction size of the automobile parts and the size of the internal space of a carrying tool, and filling EPS materials in a continuous space constructed by the safety distance to form the box wall of an EPS packing box and various cavities and isolation parts in the box body;

based on the internal space size of a carrier, the appearance structure size of automobile parts and the safety distance between the automobile parts, the computer software is utilized to simulate and set the spatial position combination where the automobile parts are arranged in the carrier, then the computer software is utilized to adjust and optimize the spatial position where the automobile parts are arranged in the carrier, so as to maximize the loading rate of the automobile parts, namely, the loading tool contains the maximum number of automobile parts in the rated bearing range, and the weight of an EPS packing box is estimated and added into the total bearing weight;

setting a packing box loading mode, an automobile part loading mode and the loading quantity of automobile parts in a packing box based on the spatial position of the automobile parts after the automobile parts are loaded into a carrier under the condition of maximizing the automobile part loading rate;

establishing an automobile part loading model based on a packing box loading mode, an automobile part loading mode and the loading quantity of automobile parts in the packing box;

according to the automobile parts loading model, obtain packing box overall dimension and internal dimension, include:

extracting a continuous space constructed by the safety distance between the automobile parts in the automobile part loading model;

based on the continuous space that safe distance found between the automobile parts, set for packing box overall dimension and internal structure size, according to packing box overall dimension and internal structure size, customization EPS packing box includes:

generating a script file based on the external dimension of the packing box and the internal construction dimension of the packing box;

starting a script file to drive a production processing machine to process on the EPS base material to obtain an EPS packing box;

the production processing machine comprises a three-dimensional printer or an engraving machine.

2. The EPS packing case customizing method for the automobile parts as claimed in claim 1, wherein the step of obtaining the external structural dimensions of the automobile parts comprises the following steps:

obtaining a digital model of an automobile component, the digital model comprising a three-dimensional digital model;

and acquiring the external configuration dimension of the automobile part according to the digital model of the automobile part.

3. The EPS packing box customizing method for automobile parts as claimed in claim 1, wherein the vehicle comprises a container, and the container comprises any one of a forty-foot high bin container, a forty-foot bin container and a twenty-foot bin container.

4. The EPS packing box customizing method for automobile parts according to claim 1, wherein the packing box loading manner includes: the packing box is placed in the carrier in the positive direction or/and the side direction.

5. The EPS packing case customizing method for automobile parts as claimed in claim 1, wherein the automobile part loading manner comprises: the automobile parts are transversely or/and longitudinally placed in the packing box.

6. The method of customizing an EPS packaging box for automobile parts according to any one of claims 1 to 5, wherein the packaging box is provided with a viewing port, and the EPS comprises flame-retardant EPS.

7. The method for customizing the EPS packing case for the automobile part according to any one of claims 1 to 6, wherein the automobile part comprises any one of a door, a lamp, a roof panel, a subframe, a bumper, a fender, a window and a sunroof.