With the development of the sheet metal industry, sheet metal processing technology is constantly optimized and improved. In the environment of fierce competition in the entire market, laser processing technology came into being in the sheet metal workshop. Laser cutting has the advantages of high precision, high speed, and flexible processing, and has become a new development direction of sheet metal processing technology, which can help enterprises shorten production time, reduce product costs, and improve market competitiveness. Therefore, laser sheet metal cutting technology is becoming more and more Widely favored by the industry.
The automatic cutting machine of the sheet metal processing plant involves the technical service platform of the automatic cutting machine. To be suitable for laser cutting and installation in existing sheet metal processing plants, the clamping function is not improved enough, and the settlement is good after laser cutting. The inner side of the laser cutting aperture is provided with a side discharge hole, and the core of the side-discharge hole is provided with a laser cutting table. The front surface is provided with an active telescopic tube, the lower side of the active telescopic tube is provided with a longitudinal telescopic tube, the lower side of the longitudinal telescopic tube is provided with a fiber laser cutting device, and the lower part of the fiber laser cutting device is provided with a laser cutting head.
The feeding device is accurately positioned and installed in the sheet metal processing plant, including the automatic feeding frame, its transmission mechanism is set in the automatic feeding frame, and the visual effect positioner is negotiated by the whole machine. The entire material organization includes full-material precise positioning components, full-material components, and positioning components; the visual effect locator is placed on the automatic feeding rack and continues to be connected to the visual positioning management system; the entire material components and positioning components are installed on both sides of the transfer mechanism, with transfer bias. The entire material assembly goes through the entire material precise positioning assembly, which is placed in the automatic feeder rack and can be used to return the positioning assembly. The positioning components are placed in the automatic feeder rack. The novel structure is reasonable, the layout is simple, and the control is convenient. It can obtain the precise positioning information of the sheet metal processing plant, and the manhole feeding robot can climb to the core selection point of the sheet metal processing plant.
The active sheet metal processing robot includes the manipulator; the suction cup holder installed on the part-time end of the manipulator itself, and the suction cup frame used to digest and absorb the parts of the sheet metal processing factory. The suction cup holder consists of a continuous support plate with the part-time end of the manipulator itself, a core continuous block mounted on the appearance of the support plate and back to the robot itself, a continuous movable suction cup group with the core continuous block, a second movable suction cup group, a third movable suction cup group, and a fourth movable suction cup group; in which, the robotic arm itself pushes the suction cup holder, sends the sheet metal processing plant into the CNC bending machine, and passes through the CNC bending machine in the sheet metal processing plant Sheet metal bends are made on the top. The active sheet metal processing robot of the present invention has high precision, and can adjust the size of all suction cups through the movable suction cup group, the second movable suction cup group, the third movable suction cup group, and the fourth movable suction cup group in the suction cup frame, and is suitable for different sizes. sheet metal workshop parts, which greatly improves the applicability of active sheet metal workshop robots.