CN110840182A

CN110840182A - Automatic control method for intelligent photo frame production line

Info

Publication number: CN110840182A
Application number: CN201910925967.3A
Authority: CN
Inventors: 王春光; 马林旭
Original assignee: Tianjin Sino German Vocational Technical College
Current assignee: Tianjin Sino German University of Applied Sciences; Tianjin Sino German Vocational Technical College
Priority date: 2019-09-27
Filing date: 2019-09-27
Publication date: 2020-02-28

Abstract

The invention relates to the technical field of industrial automation equipment, in particular to an automatic control method of a photo frame intelligent production line, which comprises the following steps: in a fixed place of an exhibition hall, taking a picture of a visitor by using an intelligent camera, transmitting image data to an artificial image workstation through a WIFI gateway, converting the image data into binary image data by adopting a feature extraction method, transmitting the binary image data to an order processing and touch control integrated machine for data processing, and placing an order; and the storage control cabinet receives the order, and the stereoscopic warehouse-roadway robot conveys materials such as photo frame blanks, photo blanks and LOGO nameplates to the loop. The production line of the photo frame comprises intelligent manufacturing general process flows of order placing, CNC machining, laser engraving, quality inspection, workpiece assembling, packaging and the like. The assembly line adopts technical means such as industrial Internet of things, big data and cloud computing, and solves the problem that the photo frame cannot be produced intelligently.

Description

Automatic control method for intelligent photo frame production line

Technical Field

The invention relates to the technical field of industrial automation equipment, in particular to an automatic control method for a photo frame intelligent production line.

Background

In recent years, intelligent manufacturing technology is developed rapidly in China, so-called intelligent manufacturing is that the information manufacturing under the perception condition is realized for the whole life cycle of a product. The intelligent manufacturing technology is based on advanced technologies such as modern sensing technology, network technology, automation technology, anthropomorphic intelligence technology and the like, realizes the intellectualization of a design process, a manufacturing process and manufacturing equipment through intelligent perception, man-machine interaction, decision and execution technology, and is the deep fusion and integration of information technology, intelligent technology and equipment manufacturing technology. Intelligent manufacturing is a great trend of deep integration of informatization and industrialization. At present, along with the development of intelligent manufacturing technology, an intelligent manufacturing production demonstration line is urgently needed in the market so as to solve the problem that the intelligent level of the production line in the current market is low and provide a safe and reliable intelligent production line automatic control solution.

Disclosure of Invention

The invention aims to overcome the defects of the technology and provide an automatic control method of a photo frame intelligent production line.

In order to achieve the purpose, the invention adopts the following technical scheme: an automatic control method for a photo frame intelligent production line is characterized in that: the method comprises the following steps:

step 1:

in a fixed place of an exhibition hall, an intelligent camera is used for taking a picture of a visitor, image data are transmitted to an artificial image workstation through a WIFI gateway, the image data are converted into binary image data by a feature extraction method, the binary image data are transmitted to an order processing and touch control integrated machine for data processing, and an order is placed;

step 2:

the storage control cabinet receives the order, and the stereoscopic warehouse-roadway robot conveys materials such as photo frame blanks, photo blanks and LOGO nameplates to the loop;

and step 3:

carrying the photo frame blank to a numerical control machine tool by a seventh axis and a sixth axis robot for groove milling and chamfering, carrying the photo frame blank to a polisher by the seventh axis and the sixth axis robot after finishing processing, polishing and marking the photo frame by the polisher and a station of a photo frame marking machine, and carrying the photo frame blank to the loop line by the seventh axis and the sixth axis robot after finishing processing; the photo blank enters a photo marking machine station through a loop line branch line, photo carving is carried out, and the photo blank enters a loop line after the carving is finished;

and 4, step 4:

the LOGO nameplate enters a 3D printer station through a branch line, and enters a loop line after printing is finished;

and 5:

carrying the processed photo frame, photo and LOGO nameplate to a detection station by a six-axis robot and a six-axis robot in a station for visual detection and assembly of the table body, detecting the parallelism and the processing precision of a workpiece, and assembling the photo frame, the photo and the LOGO nameplate after detection;

step 6:

the assembled photo frame and the LOGO nameplate are placed into a gift box together by using the SCARA robot, the gift box is transferred to a waiting AGV, the AGV rapidly moves to a designated place by using WIFI (wireless fidelity) routing and two-dimensional code tracking according to the path planning of an AGV workstation, and the gift box is delivered to a visitor; if the visitor is not required to be sent, the visitor enters the finished product warehouse through a loop.

Compared with the prior art, the photo frame production line has the beneficial effects that the photo frame production line comprises intelligent manufacturing general process flows of order placing, CNC machining, laser engraving, quality inspection, workpiece assembling, packaging and the like. The assembly line adopts technical means such as industrial Internet of things, big data and cloud computing, and solves the problem that the photo frame cannot be produced intelligently.

Drawings

FIG. 1 is a flow chart of the present invention.

Detailed Description

The following detailed description of the preferred embodiments will be made with reference to the accompanying drawings. As shown in fig. 1, in a fixed place of an exhibition hall, an intelligent camera is used for taking a picture of a visitor, image data are transmitted to an artificial image workstation through a WIFI gateway, converted into binary image data through a feature extraction method, transmitted to an order processing and touch control integrated machine for data processing, and orders are placed. And the storage control cabinet receives the order, and the stereoscopic warehouse-roadway robot conveys materials such as photo frame blanks, photo blanks and LOGO nameplates to the loop. Carrying the photo frame blank to a numerical control machine tool by a seventh axis and a sixth axis robot for groove milling and chamfering, carrying the photo frame blank to a polisher by the seventh axis and the sixth axis robot after finishing processing, polishing and marking the photo frame by the polisher and a station of a photo frame marking machine, and carrying the photo frame blank to the loop line by the seventh axis and the sixth axis robot after finishing processing; the photo blank enters a photo marking machine station through a loop line branch line to carry out photo carving, and the photo blank enters a loop line after the carving is finished. LOGO nameplate gets into 3D printer station through the branch line, prints the back of accomplishing, gets into the loop line. The processed photo frame, photo and LOGO nameplate are carried to the detection station by the six-axis robot in the six-axis robot, the visual detection station and the assembly station, and the parallelism and the processing precision of the workpiece are detected. After the detection is finished, the photo frame, the photo and the LOGO nameplate are assembled. The assembled photo frame and the LOGO nameplate are placed into a gift box together by using the SCARA robot, the gift box is transferred to a waiting AGV, the AGV rapidly moves to a designated place by using WIFI (wireless fidelity) routing and two-dimensional code tracking according to the path planning of an AGV workstation, and the gift box is delivered to a visitor; if the visitor is not required to be sent, the visitor enters the finished product warehouse through a loop.

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

Claims