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Joined unit of glass base members, airtight envelope, and method for producing glass structural unit

a technology of glass base members and joints, which is applied in the direction of identification means, electrical apparatus casings/cabinets/drawers, instruments, etc., can solve the problems of long-term decrease in the reliability of air tightness, cracks, and tendencies in the joining member, so as to reduce the strength of the joining member and/or the effect of reducing the compressive stress

Inactive Publication Date: 2011-05-05
CANON KK
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

The present invention provides a technique to prevent cracking in a joined unit of glass base members caused by external force, such as vibration or pressure fluctuation. The invention uses a joining member that has a negative temperature coefficient and extends at a predetermined width along the opposing surfaces of the glass base members. The joining member is pressed into the glass base members and is designed to provide a viscosity that increases with decreasing temperature. The invention also includes a method for producing a glass structural unit by joining glass base members together with the joining member. The technical effect of the invention is to prevent cracking in the joined unit of glass base members and to maintain the reliability of the airtight envelope for display apparatus.

Problems solved by technology

In the case of an airtight envelope which is constructed by the joined unit of glass base members, the decrease in the strength of the joining member results in the long-term decrease in the reliability of the airtightness.
In such a situation, any crack tends to appear in the joining member, and the crack, which appears in the joining member, tends to develop in the joining member.

Method used

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  • Joined unit of glass base members, airtight envelope, and method for producing glass structural unit
  • Joined unit of glass base members, airtight envelope, and method for producing glass structural unit
  • Joined unit of glass base members, airtight envelope, and method for producing glass structural unit

Examples

Experimental program
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Effect test

example 1

[0171]The present invention will be explained in detail below as specifically exemplified by Examples. In Example 1, the production method explained in the foregoing embodiment is applied to join a frame member and a rear plate in an airtight manner. Further, the frame member and a face plate are joined to one another in an airtight manner, and thus a vacuum airtight envelope is produced.

Step 1 (Formation of Joining Material on Frame Member (First Glass Base Member))

[0172]A frame member 14 was formed as the first glass base member. Specifically, at first, a high strain point glass base member having a thickness of 1.5 mm (PD 200 produced by Asahi Glass Co., Ltd.) was prepared, and the glass base member was cut out into an outer shape of 980 mm×580 mm×1.5 mm. Subsequently, a central area of 970 mm×570 mm×1.5 mm was cut out by means of the cutting processing to form the frame member 14 having a substantially rectangular cross section with a width of 5 mm and a thickness of 1.5 mm. Sub...

example 2

[0201]In Example 2, as shown in FIG. 9, a face plate 12 and a frame member 14 were firstly joined to one another (FIGS. 9A to 9F). Specifically, the face plate 12 and the frame member 14 were joined to one another (FIG. 9C) by means of the whole heating based on the use of a heating furnace 81 without using the first local heating light beam. After that, the second local heating light beam 42 (identical with the second local heating light beam 42 in Example 1) was radiated onto a joining material 1a in the same manner as in Step 4 in Example 1 to join the face plate 12 and the frame member 14 to one another (FIG. 9E). An atmospheric furnace was used as the heating furnace 81. An assembly of the face plate 12, the frame member 14, and the joining material 1a was retained at a temperature of 500° C. for 30 minutes in the heating furnace 81. After that, the frame member 14 and a rear plate 13 were joined to one another in accordance with a method which was the same as or equivalent to ...

example 3

[0211]The airtight joining was performed for a frame member and a rear plate by applying the embodiment described above, and the airtight joining was further performed for the frame member and a face plate to produce a vacuum airtight envelope.

(Step 1)

[0212]At first, a frame member 14 was formed. Specifically, a high strain point glass base member having a thickness of 1.5 mm (PD 200) was cut out into an outer shape of 980 mm×580 mm×1.5 mm. Subsequently, a central area of 970 mm×560 mm×1.5 mm was cut out by means of the cutting processing to form the frame member 14 having a substantially rectangular cross section with a width of 5 mm and a thickness of 1.5 mm. Subsequently, the surface of the frame member 14 was degreased by means of the washing with organic solvent, the rinse with pure water, and the UV-ozone washing.

[0213]Subsequently, a joining material 1a was formed on the frame member 14. In Example 3, a glass frit was used as the joining material 1a (equivalently as a joining...

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Abstract

A joined unit of glass base members is provided, comprising first and second glass base members and a joining member which extends along opposing surfaces of the first and second glass base members, wherein glass base member is elastically deformed while being depressed in an internal direction of the glass base member in the vicinity of an end portion in a widthwise direction of the joining member, a boundary surface between the elastically deformed glass base member and the joining member and a surface of the elastically deformed glass base member, which are disposed in the vicinity of the end portion in the widthwise direction of the joining member, are positioned on an internal side of the glass base member, and an area, in which a residual stress is a compressive stress, is formed in the vicinity of the end portion in the widthwise direction of the joining member.

Description

BACKGROUND OF THE INVENTION[0001]1. Field of the Invention[0002]The present invention relates to a joined unit of glass base members, an airtight envelope, and a method for producing a glass structural unit. The present invention is applicable especially preferably to an envelope of, for example, a display which includes a device therein and a method for producing the same, wherein it is feared for the device that the performance may be deteriorated by the invasion of any gas such as oxygen, water or the like.[0003]2. Description of the Related Art[0004]A technique has been hitherto known, in which opposing glass base members are joined to one another in an airtight manner to form an internal space having the airtightness. This technique is applied to a method for producing an airtight envelope of a flat panel including, for example, the vacuum heat insulating glass, the organic LED display (OLED), the field emission display (FED), and the plasma display panel (PDP). When the airtig...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): H05K5/06C03B23/203G09F9/30H01J9/26H01J29/86
CPCC03C27/06Y10T428/24562E06B5/00B32B3/263
Inventor MATSUMOTO, MAMOSAITO, TOMOHIROMAEDA, MATSUTAKAITO, NOBUHIROHARA, TOSHITAMI
Owner CANON KK