JPH0764572B2 - How to make a seamless glass package body - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (1) Field of Industrial Application The present invention relates to a method for producing a glass package main body which is not at a joint.

(2) Conventional Technology Conventionally, when the glass package main body 1 is made, a glass piece 6 cut into a predetermined size as shown in FIG. 6 is placed in the mold 7 and the inside 24 as shown in FIG. Load 23 to the presser die 25
And melt it by heating to about 1,000 ° C
By welding, or by heating a thin glass plate 8 as shown in FIG. 8 sufficiently with a gas burner 9 and bending it to form a frame 4, after which a flat glass is used as the back glass 3 on the frame 4. Heat and weld with frit glass 26,
The glass package body 1 was manufactured.

(3) Problems to be Solved by the Invention The conventional processing method requires a welding mold 7, a jig, a tool, or the like, and the glass piece 6 is welded or the glass thin plate 8 is bent during the processing. Welding part 10 does not completely weld,
Small bubbles and gaps often result in complicated processes and often require skill to process, and it is easy for bubbles and gaps to form in the welded part 10 and leaks occur, resulting in inconsistent product quality. It was bad.

Therefore, it takes a high processing cost to obtain a good glass package body 1.

(4) Means for Solving the Problem By molding the frame body 4 forming the glass package body 1 and the rear glass 3 as one body, the seam is lost by welding and the product quality system is made uniform. At the same time, in consideration of making the process simple without requiring skill, we decided to use the following process.

I. The glass package body 1 has the same weight as the glass package body 1 including the weights of the rear glass 3 and the frame body 4.
The glass plate 11 that fits within the outer dimensions of is used as the material.

B. Prepare the upper mold 12 and the lower mold 13, and then press the upper mold guide 14 of the upper mold 12.
The lower die guide portion 15 of the lower die 13 slides vertically correctly and stops at the contact surface 16.

C. The upper die guide portion 14 is provided with a protruding portion 17 having the same size and shape as the inner hollow portion 5 of the glass package body 1, and the lower die guide portion 15 is provided with a pit 18 having the same outer size and shape as the glass package body 1. Set up.

D. As shown in FIG. 12, a glass plate is placed in the pit 18 of the lower mold 13.
After putting 11 in, place the upper die 12 and properly align the lower die guide portion 15 and the upper die guide portion 14 and then put in the continuous furnace, and apply a load from above the upper die 12 as shown in FIG. While glass plate 11
Elevates the temperature to the temperature required for the softening and flow.

E. As shown in FIG. 14, the glass plate 11 has started to soften and flow.
Is pushed down to the protruding portion 17 of the upper die 12, and the excess glass is pushed out to the peripheral portion to be pushed up to form the frame body 4, and the upper die guide portion 14 and the lower die guide portion 15 contact the contact surface 16 When the glass package body 1 is contacted with, the molding of the glass package body 1 is completed, and then only the upper mold 12 is forcibly cooled and shrunk so that the glass package body 1 in the softened state can be separated.

F. The upper mold 12 and the lower mold 13 move on the table 19 of the continuous furnace sandwiching the glass package main body 1 in the softened state, and then, as shown in FIG. Is pushed up the end portion 21 by about 1 m / m, and a gap 22 is formed between the protruding portion 17 of the upper die 12 and the glass package body 1,
The die mark by the protruding portion 17 of the upper die 12 on the upper surface of the rear glass 3 is eliminated.

G. While gradually cooling, the upper mold 12 is removed, and the solid glass package body 1 is removed from the lower side 13.

J. All the moldings for Ni-He-Heot are done automatically in a continuous furnace.

Re. Use a carbon material with a coefficient of expansion close to that of glass for the mold.

(5) Effects of the Invention Since the present invention is configured as described above, the following effects can be obtained.

I. Since the frame body 4 is manufactured integrally with the glass package body 1, cracks and leaks do not occur in each part. B. A glass plate 11 of a predetermined weight is placed in the pit 18 of the lower mold 13.
Since it is a work that only puts in, it does not require skill, and it is a manufacturing method that even an amateur can do.

C. Since the temperature can be automatically adjusted in the continuous furnace, the process can proceed almost unattended compared to the conventional method.

D. Suitable for mass production.

E. Product quality is uniform.

F. Manufacturing costs are low.

[Brief description of drawings]

FIG. 1 is a plan view of a glass package, FIG. 2 is a front view of the glass package, FIG. 3 is a side view of the glass package, FIG. 4 is a sectional view taken along line AA, and FIG. FIG. 6 is a perspective view of a conventional individual piece 6 synthetic glass package body 1
FIG. 7 is a sectional view of the mold 7, the presser die 25, and the inner mold 24. FIG. 8 is a manufacturing process diagram of the conventional glass thin plate 8 folding type glass package body 1, FIG. Is a front view of the glass plate 11, FIG. 10 is a front view of the upper mold 12, FIG. 11 is a front view of the lower mold 13, and FIG. 12 is a lower mold 13 Put the glass plate 11 in the pit 18. Sectional view, FIG. 13 is a sectional view in which the upper die 12 is placed on the lower die 13, FIG. 14 is a sectional view in which the temperature is increased and a load 23 is applied to the upper die 12, and FIG. Diagram of mold 12 separated by about 1 m / m, 1 is glass package body, 2 is surface glass, 3
Is a back glass, 4 is a frame, 5 is an internal hollow portion, 6
Is an individual piece, 7 is a mold, 8 is a thin glass plate, 9 is a gas burner, 10 is a welded portion, 11 is a glass plate, 12 is an upper mold,
13 is a lower die, 14 is an upper die guide portion, 15 is a lower die guide portion, 16 is a contact surface, 17 is a protruding portion, 18 is a pit, 19
Is a table, 20 is a release guide rail, 21 is an end portion, 22 is a gap, 23 is a load, 24 is an inner mold, 25 is a holding mold, and 26 is a frit glass.

Claims (1)

[Claims] 1. A seamless glass package body (1) comprising:
As a manufacturing method, the upper mold has an upper mold (12) having a protrusion (17) having the same size and shape as the inner hollow portion (5) of the glass package body (1), and the lower mold (13) is made of glass. Pit (1) that has the same external dimensions as the package body (1)
Prepare the lower mold (13) with 8) and put the glass plate (11) in the pit (18) with the same weight as the glass package body (1).
The glass plate (11) is heated to a temperature necessary for softening and flowing while moving on the table (19) in a continuous furnace, and a load (23) is applied by the weight of the upper mold (12). ,
A load (23) is applied until the upper mold (12) and the lower mold (13) come into contact with each other on the contact surface (16), and the glass plate (11) is softened and deformed to form a frame (4) part. After that, the temperature is gradually lowered, and the upper mold (12) is moved up to about 1 m / m to lower the temperature until the glass package body (1) is in a solid state.