摘要:
A forming apparatus includes a frame, an air grid system, and a forming system; the air grid system includes a plurality of upper air grids and a plurality of lower air grids; the upper air grids are mounted at an upper part of the frame through a lifting mechanism, and the lower air grids are mounted in the forming system at a lower part of the frame; a gradual transition section is arranged at an inlet side of the forming system to enable a glass pane to be gradually arched in a transverse direction, and the gradually arched glass pane is conveyed into the forming system; and the forming system includes two groups of longitudinal forming and arching mechanisms and a plurality of transverse forming and arching mechanisms arranged in a glass pane conveying direction.
摘要:
The disclosure describes a tempered vacuum glass, which comprises: at least two glass sheets arranged parallel to each other; surrounding edges of adjacent glass sheets being sealed using an edge sealing structure; and support members placed in an array between the adjacent glass sheets to form a vacuum space. The edge sealing structure is a metallic edge-sealing structure. The structure comprises a first transition layer, a first metallized layer, a first intermetallic compound layer, a solder layer, a second intermetallic compound layer, a second metallized layer, and a second transition layer stacked in that order. The first and second metallized layers are in a spongy skeleton structure formed by sintering a metal paste. The first and second transition layers are formed by sintering the metal paste on the adjacent glass sheets, and contain a glass phase layer including metallic particles and a metal oxide layer with a net structure.
摘要:
The disclosure discloses a manufacturing method of tempered vacuum glass. At least one glass substrate constituting the tempered vacuum glass is reserved with an extraction opening, and the manufacturing method comprises the following steps: (1) manufacturing metalized layers, and performing tempering or thermal enhancement on the glass substrates; (2) placing a metal solder on the metalized layers; (3) superposing the glass substrates; (4) heating the overall glass substrates to 60-150° C.; (5) hermetically sealing the glass substrates under the condition of ensuring the heating temperature; (6) heating; (7) vacuumizing; and (8) closing the extraction opening, thus accomplishing the manufacturing process. The manufacturing method in the present disclosure can greatly reduce the stress when the two glass substrates are sealed, improve the soldering strength and prolong the service life of the tempered vacuum glass. The disclosure further discloses a tempered vacuum glass production line based on the above manufacturing method.
摘要:
This application discloses a tempering and cooling system for a glass plate. The system comprises a roller table to convey the glass plate, wind gratings to blow air to reduce a surface temperature of the glass plate, and a temperature sensor arranged above and/or below the roller table to detect the surface temperature and enable the system to control a tempering process and/or a cooling process of the glass plate according to the detected surface temperature. The system controls the wind gratings to: produce a first wind pressure when the glass plate is in a tempering stage; produce a second wind pressure when the system determines the detected surface temperature drops to a temperature of a tempering point such that the glass plate enters a cooling stage; produce a third wind pressure when the system determines the detected surface temperature drops to a temperature of a cooling point.
摘要:
A detection system based on modulation of line structured laser image of glass comprises processing section (2), control system, and roller conveying mechanisms (5). Detection mechanism (6) provided over entrance of the processing section (201) comprises shell and camera (602) with laser (601) which emits beam on the surface of the glass in the gap between sliding rollers. Focal plane of the camera (602) corresponds to the beam irradiation surface, and signal output terminal of the camera (602) is connected with the control system in such a way that when glass passes the detection area, laser irradiates the glass surface and the line structured laser is modulated based on the glass to form laser modulation image with distribution of light and shade, staggered movement direction, or distorted laser lines. The camera (602) will transmit the captured glass information and parameters to the control system. In the system, the detection mechanism (6), with integral design and compact structure, can be easily fitted over the entrance of the processing section (201), has strong adaptation to other processing means, has no special requirements on incident angle of light and angle of detection surface during detection, and obtains highly accurate data through measurement.
摘要:
The present invention discloses a method for processing a columnar curved tempered glass. The method specifically comprises the following steps. Bending and tempering of the high temperature flat glass are divided into two stations. Bending is firstly carried out on the high temperature flat glass output by a heating furnace; the columnar extending direction of the curved glass is perpendicular to the direction the glass output from the heating furnace in the bending process, and then the formed curved glass is output to a tempering station in the columnar extending direction thereof to undergo tempering. In the present invention, bending and tempering of the high temperature flat glass are completed by two stations to break the normal procedure that bending and tempering are carried out by a single bending device intensively, thereby providing a novel technological approach for processing the columnar curved tempered glass.
摘要:
The present invention discloses a vacuum glass sealing device. The device comprises an air extraction table, an upper pressing plate and a heating device, wherein the air extraction table is provided with an accommodating groove for placing glass plates to be sealed, the upper pressing plate is pressed on the glass plates to be sealed in the accommodating groove and air-tightly connected with the air extraction table around the periphery of the accommodating groove; and the air extraction table and/or the upper pressing plate are provided with air extraction ports, and the heating device heats the glass plates to be sealed from the exterior. The air extraction table and the upper pressing plate form a closed space in the sealing device, and the upper pressing plate is directly pressed on the glass plates to be sealed, so the volume of the closed space is greatly reduced, and conditions are created for quick vacuumizing of the closed space and quick sealing of the vacuum glass. The closed space in the sealing device is only used for providing a vacuum environment, and the heating device for welding is separately arranged at the exterior, so equipment operation is convenient, equipment construction is simplified, and a condition is created for large-scale processing of the vacuum glass.
摘要:
The disclosure discloses a manufacturing method of tempered vacuum glass, comprising the following steps: (1) manufacturing metalized layers, and performing tempering or thermal enhancement on the glass substrates; (2) placing a metal solder on the metalized layers; (3) superposing the glass substrates to form a tempered glass assembly; (4) heating the tempered glass assembly to 60-230° C.; (5) keeping the tempered glass assembly within the heating temperature range of step (4) in a vacuum chamber, and vacuumizing the vacuum chamber to a preset vacuum degree; and (6) hermetically sealing the metalized layers by adopting a metal brazing process. By adopting the manufacturing method of the disclosure, the stress when the two glass substrates are sealed can be greatly reduced, and the connection strength can be increased; moreover, when gas is exhausted within the temperature range, the exhaust efficiency is high, and the exhaust effect is better, vacuum glass with high vacuum degree can be obtained, and the service life of the vacuum glass is prolonged. The disclosure further discloses a tempered vacuum glass production line based on the above mentioned manufacturing method.
摘要:
The present disclosure discloses a mobile scanning device for retrieving stress information of one of a plurality of reinforced glass panels. The device includes an image capturing device to capture an image of an identification code installed on a surface of the one of the plurality of reinforced glass panels, an image processor to process the captured image and recognize the identification code, a central processor to instruct the mobile scanning device to retrieve stress information corresponding to the identification code from a glass panel production information database, and a display device to display the retrieved stress information. The stress information was obtained via at least one stress sensor testing a stress at different testing locations on a surface of each of a plurality of glass panels being processed on a production line for manufacturing the plurality of reinforced glass panels.
摘要:
The disclosure discloses a manufacturing method of tempered vacuum glass. At least one glass substrate constituting the tempered vacuum glass is reserved with an extraction opening, and the manufacturing method comprises the following steps: (1) manufacturing metalized layers, and performing tempering or thermal enhancement on the glass substrates; (2) placing a metal solder on the metalized layers; (3) superposing the glass substrates; (4) heating the overall glass substrates to 60-150° C.; (5) hermetically sealing the glass substrates under the condition of ensuring the heating temperature; (6) heating; (7) vacuumizing; and (8) closing the extraction opening, thus accomplishing the manufacturing process. The manufacturing method in the present disclosure can greatly reduce the stress when the two glass substrates are sealed, improve the soldering strength and prolong the service life of the tempered vacuum glass. The disclosure further discloses a tempered vacuum glass production line based on the above manufacturing method.