RU2150564C1 - Glass block for windows - Google Patents

Abstract

FIELD: construction industry, manufacture of glass blocks to glaze buildings and structures. SUBSTANCE: glass block for windows includes at least two sheets of window glass, gaskets placed between sheets and made of material having melting temperature above that of sealant of glass block and sealing joint. At least one base of each gasket has layer of material whose melting temperature is below that of sealant of glass block. Gaskets between sheets of window glass are positioned uniformly at distance of 2.0-7.0 cm one from another. EFFECT: increased mechanical strength of glass block. 2 cl, 2 dwg

Description

 The invention relates to the field of construction and can be used in the design and manufacture of glass blocks for glazing windows of industrial buildings, residential buildings, etc.

 Known glass block, which is a fiberglass plate mounted in a window frame [ed. testimonial. 711263, E 06 B 5/00, 1980].

The disadvantage of this glass block is that when used in windows, a low heat transfer resistance of not more than 0.32 sq. m ^o C / W. Windows using such glass blocks fog up at low air temperatures.

 Known heat-protective glazing of the inspection opening of the hot shop, including heat-absorbing glass internal to the observer and outer glass with heat-reflecting film facing the radiation source [ed. testimonial. N 310017, E 06 B 7/26, 1968.].

 This glazing is designed to increase the resistance to heat transfer to the room from radiation sources. To combat heat loss from the premises in the winter, it is not intended.

 Closest to the proposed glass block is a glass block, comprising at least two sheets of window glass, gaskets located between the sheets of glass to form a gap, a sealing joint [Avenue of Energotechmash JSC "Windows from combined and lightweight aluminum profiles". - Zhigulevsk, Samara region, ul. Morkvashinskaya, 40 - prototype].

 The disadvantage of this glass block is its low mechanical strength, which is due to the fact that the window glass sheets have local non-flatness. As a result, when creating a vacuum inside the glass block in such places, there is strong pressure on the gaskets, leading to cracking of the glass unit.

 The objective of the invention is to increase the mechanical strength of the glass block.

 The specified technical effect during the implementation of the invention is achieved by the fact that in the known glass block containing at least two sheets of window glass, gaskets located between the sheets of window glass and made of material with a melting point above the glass block sealing temperature, and the sealing joint. At least one of the bases of each gasket has a layer of material whose melting point is lower than the glass block sealing temperature.

 The use of gaskets consisting of two parts, the material of one of which has a melting temperature lower than the glass block sealing temperature, allows you to "absorb" the arising stresses in the glass when creating a vacuum inside the glass block in places of local flatness of the window glass sheets. Due to this, the mechanical strength of the glass block increases.

 If the distance between the gaskets is more than 7 cm, then when the vacuum is created inside the enclosed space, the glass unit cracks, and when the distance between the gaskets is less than 2 cm, the mechanical strength of the glass does not increase, but the laboriousness of the laying of the gaskets increases, which is impractical.

 It was experimentally established that if the thickness of the low-temperature gasket material is less than 5% of its total thickness, then the mechanical strength of the glass block drops sharply, i.e. this gasket works like a regular gasket made of high temperature material.

 If the thickness of the low-temperature material exceeds 20% of the total thickness, then when creating a vacuum in places of local flatness, an increase in the size of the gaskets occurs due to crushing of the low-temperature material. As a result, the appearance of the glass block worsens and glare is formed when light enters those places where the crushed layer of gasket material is located, which is also unacceptable for the glass block.

 As a material with a low melting point, tin-based solders (POS-40; POS-61, etc.), tin, and low-melting glass were used.

 An analysis of the prior art by the applicant, including a search by patents and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention as an object - a glass block design for viewing windows, made it possible to establish that the applicant did not find an analogue characterized by identical signs of the claimed invention, and the definition from the list of identified analogues - the prototype as the closest in the totality of the features of the analogue allowed to identify the combination significant with respect to the applicant sees technical result in the distinguishing features of the claimed subject set out in the claims. Therefore, the claimed invention meets the requirement of "novelty."

 To verify the compliance of the claimed invention with the requirement of inventive step, an additional search was carried out for known technical solutions. The analysis showed that the claimed invention does not follow explicitly from the prior art for a specialist, since technical solutions have not been identified in which the mechanical strength of the glass block would be increased through the use of gaskets, at least on one of the bases of which a layer of material is applied whose melting point is lower than the glass block sealing temperature.

 Thus, the claimed glass block meets the requirement of "inventive step".

 The proposed design of the glass block is illustrated by drawings.

 In FIG. 1 shows a variant of a glass block in which one of the bases of each gasket has a layer of material whose melting point is lower than the glass block sealing temperature.

 In FIG. Figure 2 shows a variant of a glass block in which a layer of material is applied on both bases of each gasket, the melting temperature of which is lower than the glass block sealing temperature.

 The glass block in FIG. 1-2 contains two sheets of window glass 1 and 2, between the inner surfaces of which the spacers 3 are evenly placed. In FIG. 1 is one of the bases of each gasket 3, and in FIG. 2, a layer 4 of material is applied to both of the bases of each gasket 3, the melting temperature of which is lower than the glass block sealing temperature. Both sheets of glass around the perimeter are connected by a sealing material 5 to form a closed volume 6.

 An example of a specific implementation.

Two glass plates with a size of 500 x 800 x 4 mm are connected hermetically around the perimeter by a sealing seam to form a closed volume, which is pumped out to a pressure of 2 x 10 ^-3 mm Hg. The gap between the glass plates is 0.25 mm. In it, with a step of 5 cm, gaskets made of alloy 47 ND are 0.24 mm high and 0.4 mm in diameter. POS-61 solder 0.03 mm thick was applied on the basis of each pad. The glass block was sealed at a temperature of 450 ^o C. The glass block is mechanically strong.

 Thus, the use of gaskets in the glass block, at least on one of the bases of each of which a layer of material is applied, the melting temperature of which is lower than the glass block sealing temperature, allows creating a glass block with high mechanical strength.

Claims (3)

 1. Glass block for windows, containing at least two sheets of window glass, gaskets located between sheets of window glass and made of a material with a melting point above the glass block sealing temperature, and a sealing seam, characterized in that at least by one of the bases of each gasket is coated with a layer of material whose melting point is lower than the glass block sealing temperature, while the gaskets between the glass sheets are evenly spaced 2-7 cm apart.  2. The glass block according to claim 1, characterized in that the thickness of the layer made of a material with a melting point lower than the glass block sealing temperature is 5 to 20% of the total laying height.  3. The glass block according to claim 1 or 2, characterized in that as a material with a low melting point, solders based on tin, tin, and low-melting glass are used.

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