High-strength explosion-proof tempered glass and manufacturing process thereof
A technology of tempered glass and manufacturing process, which is applied in the field of high-strength explosion-proof tempered glass and its manufacturing process, and can solve the problems of non-ideal sound insulation and noise reduction effects, poor sound insulation and noise reduction, etc.
Inactive Publication Date: 2021-11-23
余虹瑾
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Problems solved by technology
[0002] The safety of explosion-proof glass is high, it is not easy to be surrounded after being damaged by impact, and the fragments are not easy to fall off. It is firmly bonded with PVB film. Compared with other glasses, it is shock-resistant, anti-theft, bullet-proof, explosion-proof, Ultraviolet rays and other characteristics, the surface is treated with compressive stress, so when this kind of glass is subjected to external forces, the stress of this layer will be consumed first, so it has better bearing capacity, better impact resistance and wind resistance than ordinary glass. Pressed well, it is more resistant to cold and heat, but the sound insulation and noise reduction effect is not very ideal, because it has no vacuum layer, it cannot be well sound insulation and noise reduction
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[0030] The present invention will be described in further detail below in conjunction with the accompanying drawings.
[0031] Such as figure 1 shown;
[0032] A high-strength explosion-proof tempered glass manufacturing process, the method includes the following steps:
[0033] Step 1: Place the tempered glass plate on the high-strength explosion-proof tempered glass manufacturing device;
[0034] Step 2: Put and transport the tempered glass plate to the top of the airtight container, and clean the lower end surface of the tempered glass plate;
[0035] Step 3: Paste a sealing ring on the explosion-proof glass plate, and apply glass glue on the sealing ring;
[0036] Step 4: Argon gas is filled between the tempered glass plate and the explosion-proof glass plate, and then the tempered glass plate and the explosion-proof glass plate are glued together.
[0037] High-strength explosion-proof tempered glass is composed of explosion-proof glass plate and tempered glass plate....
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The invention relates to the technical field of tempered glass, in particular to high-strength explosion-proof tempered glass and a manufacturing process thereof, and the manufacturing process of the high-strength explosion-proof tempered glass comprises the following steps: step 1, placing a tempered glass plate on a high-strength explosion-proof tempered glass manufacturing device; step 2, conveying the tempered glass plate to the position above a closed container, and cleaning the lower end face of the tempered glass plate; step 3, pasting a circle of sealing ring on the explosion-proof glass plate, and smearing glass cement on the sealing ring; step 4, loading argon between the tempered glass plate and the explosion-proof glass plate, and then bonding the tempered glass plate and the explosion-proof glass plate. The strength explosion-proof tempered glass is composed of the explosion-proof glass plate and the tempered glass plate, and the explosion-proof glass plate and the tempered glass plate are connected through a sealing ring to form an internal sealed space. Argon is added into the internal sealed space of the explosion-proof glass plate and the tempered glass plate, so that the sound insulation and noise reduction effects of the high-strength explosion-proof tempered glass are improved.
Description
technical field [0001] The invention relates to the technical field of tempered glass, more specifically high-strength explosion-proof tempered glass and its manufacturing process. Background technique [0002] The safety of explosion-proof glass is high, it is not easy to be surrounded after being damaged by impact, and the fragments are not easy to fall off. It is firmly bonded with PVB film. Compared with other glasses, it is shock-resistant, anti-theft, bullet-proof, explosion-proof, Ultraviolet rays and other characteristics, the surface is treated with compressive stress, so when this kind of glass is subjected to external forces, the stress of this layer will be consumed first, so it has better bearing capacity, better impact resistance and wind resistance than ordinary glass. Pressed well, it is more resistant to cold and heat, but the sound insulation and noise reduction effect is not very ideal, because it has no vacuum layer, it cannot be well sound insulation and...
Claims
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IPC IPC(8): C03C27/10
CPCC03C27/10
Inventor 余虹瑾
Owner 余虹瑾