Patent ID: 9073776
Filing Date: 2015-07-07
Classification: C03B,E06B

Abstract:
1. A continuous vacuum glass member processing device comprising: a loading table, front-end auxiliary vacuum chambers, a main vacuum chamber, back-end auxiliary vacuum chambers and an unloading table sequentially along an advancing direction of a glass; wherein the device also comprises a glass plate conveying device and an electric control system; wherein glass plates on the loading table are sequentially conveyed to the front-end auxiliary vacuum chambers, the main vacuum chamber, the back-end auxiliary vacuum chambers and the unloading table through the glass plate conveying device; wherein the electric control system is used for controlling a vacuum sealing process and an equipment operation flow; wherein the front-end auxiliarry vacuum chambers, the main chamber and the back-end auxiliary vacuum chambers are independent from one another and are provided with a vacuum obtaining system and a vacuum detection device, respectively; wherein vacuum degrees of the front-end auxiliary vacuum chambers and the back-end auxiliary vacuum chambers are equal to or lower than a vacuum degree of the main vacuum chamber, and wherein the front-end and back-end auxiliary vacuum chambers provide a transition vacuum space at front and rear ends of the main vacuum chamber, respectively; wherein a plate combining device and a sealing device are arranged in the main vacuum chamber, and wherein the plate combining device and the sealing device provided for plate combining operations and sealing operations on a periphely of glass plates in the main vacuum chamber, and wherein input and output ends of the plate combining device are connected with glass plate conveying devices positioned upstream and downstream, respectively; and wherein both the front-end auxiliary vacuum chambers and the back-end auxiliary vacuum chambers have a modularized structure, wherein front and rear ends of the main vacuum chamber are provided with one or more front-end auxiliary vacuum chambers and one or more back-end auxiliar vacuum chambers, respectively, and wherein the vacuum degrees of the front-end auxiliary vacuum chambers are gradually improved as close to the main vacuum chamber, and the vacuum degrees of the back-end auxiliary vacuum chambers are gradually reduced as away the main vacuum chamber.