JP2013203629A5 - - Google Patents

Claims (12)

A glass welding method for producing a glass welded body by welding a plate-like first glass member and a plate-like second glass member,
The second glass member is overlaid on the first glass member in which the glass layer is arranged so as to extend along the annular welding planned region, and the glass layer is interposed in the region where the glass layer is interposed. The distance between the first glass member and the second glass member at the corresponding annular portion is larger than the distance between the first glass member and the second glass member at the center portion and the outer edge portion. A first step of deforming at least one of the first glass member and the second glass member;
After the first step, in a state where at least one of the first glass member and the second glass member is deformed, the irradiation region of the laser beam relatively moves along the planned welding region. Irradiating the glass layer with the laser beam to melt the glass layer along the planned welding region and welding the first glass member and the second glass member; A glass welding method.   In the first step, one of the first glass member and the second glass member is placed on a placing table, and the first glass member and the second glass member are placed using a pressing jig. The glass welding method according to claim 1, wherein the other is pressed toward the mounting table.   3. The glass welding method according to claim 2, wherein, in the second step, the laser light is irradiated to the glass layer through the pressing jig and the other of the first glass member and the second glass member. . The mounting table has a flat surface on which the first glass member is mounted,
The pressing jig includes a first convex surface facing a region located inside the planned welding region, a concave surface facing the planned welding region, and a region along the planned welding region outside the planned welding region. The glass welding method according to claim 2, further comprising a second convex surface facing each other and pressing the second glass member. A glass welding apparatus for producing a glass welded body by welding a plate-like first glass member and a plate-like second glass member,
The glass layer in a state in which the second glass member is superimposed on the first glass member in which the glass layer is disposed so as to extend along the annular welding planned region. The distance between the first glass member and the second glass member at the annular portion corresponding to the region where the intervenes are between the first glass member and the second glass member at the center portion and the outer edge portion. A glass member that supports the first glass member and the second glass member in a state where at least one of the first glass member and the second glass member is deformed so as to be larger than the distance. A support part;
In order to fuse the first glass member and the second glass member by melting the glass layer along the planned welding region, the first glass member and the second glass member are supported by the glass member support portion. A laser beam irradiation unit configured to irradiate the glass layer with the laser beam so that an irradiation region of the laser beam relatively moves along the planned welding region in a state where the glass member is supported. Welding equipment.   The glass member support portion includes a mounting table on which one of the first glass member and the second glass member is mounted, and the other of the first glass member and the second glass member described above. The glass welding apparatus according to claim 5, further comprising a pressing jig that presses the side.   The glass welding device according to claim 6, wherein the laser beam irradiation unit irradiates the glass layer with the laser beam through the pressing jig and the other of the first glass member and the second glass member. . The mounting table has a flat surface on which the first glass member is mounted,
The pressing jig includes a first convex surface facing a region located inside the planned welding region, a concave surface facing the planned welding region, and a region along the planned welding region outside the planned welding region. The glass welding apparatus of Claim 6 or 7 which has a 2nd convex surface which opposes, and presses the said 2nd glass member. A plate-like first glass member;
A plate-like second glass member superimposed on the first glass member;
A glass layer extending annularly between the first glass member and the second glass member in a state in which the first glass member and the second glass member are welded,
The distance between the first glass member and the second glass member at the annular portion corresponding to the region where the glass layer is interposed is the first glass member and the second glass at the central portion and the outer edge portion. A glass welded body in which at least one of the first glass member and the second glass member is deformed so as to be larger than a distance to the member. A glass welding method for producing a glass welded body by welding a plate-like first glass member and a plate-like second glass member,
The second glass member is overlaid on the first glass member in which the glass layer is arranged so as to extend along the annular welding planned region, and the glass layer is interposed in the region where the glass layer is interposed. A first first member that deforms at least one of the first glass member and the second glass member so that a distance between the first glass member and the second glass member is maximized in a corresponding annular portion. Process,
After the first step, in a state where at least one of the first glass member and the second glass member is deformed, the irradiation region of the laser beam relatively moves along the planned welding region. Irradiating the glass layer with the laser beam to melt the glass layer along the planned welding region and welding the first glass member and the second glass member; A glass welding method. A glass welding apparatus for producing a glass welded body by welding a plate-like first glass member and a plate-like second glass member,
The glass layer in a state in which the second glass member is superimposed on the first glass member in which the glass layer is disposed so as to extend along the annular welding planned region. At least one of the first glass member and the second glass member so that the distance between the first glass member and the second glass member is maximized in an annular portion corresponding to a region where the In a deformed state, a glass member support that supports the first glass member and the second glass member,
In order to fuse the first glass member and the second glass member by melting the glass layer along the planned welding region, the first glass member and the second glass member are supported by the glass member support portion. A laser beam irradiation unit configured to irradiate the glass layer with the laser beam so that an irradiation region of the laser beam relatively moves along the planned welding region in a state where the glass member is supported. Welding equipment. A plate-like first glass member;
A plate-like second glass member superimposed on the first glass member;
A glass layer extending annularly between the first glass member and the second glass member in a state in which the first glass member and the second glass member are welded,
The first glass member and the second glass member so that the distance between the first glass member and the second glass member is maximized in the annular portion corresponding to the region where the glass layer is interposed. Glass welded body, at least one of which is deformed.