SU1212990A1 - Method of manufacturing articles from sheet glass - Google Patents

Description

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The invention relates to the manufacture of glass products and can be used, for example, in the manufacture of glassware by bending sheet glass and then melting the edge of the product.

The purpose of the invention is to increase productivity and yield of products.

Figure 1 shows the form of bending with a glass preparation and a source of IR radiation, the beginning of the bending process, as shown in FIG. 2, the same, the end of the bending process; in FIG. 3, the same, removing the edge of the glass preparation from contact with the mold after moliration.

The method is carried out in the following manner.

In the preheating section, emitter 1 is installed from nichrome wire. In the bending and melting zone, radiator 1 is made of nichrome tape 1-2 mm thick and 15-2.5 mm wide. The dielectric used to mount the radiator, black,

Steklozagotovku 2 of sheet of pane of glass installed in form 902

mu 3 on the carousel machine (not shown). After preheating, the billet is subjected to liK radiation with an energy maximum in the wavelength range of 2.0-2.5 µm, glass making is folded, after which the edge is melted. To this end, the edge of the molded glass production is brought out of contact with Form 3, for example by

lifting rod 4 at a value of 11, 5 of its thickness and is affected by infrared radiation with an energy maximum in

wavelength range 2.0-2.5 microns,

 .

The choice of the wavelength range of 2.0-2.5 µm is due to the need for uniform heating of glass thickness in order to eliminate the thickness variation of the products during the bending process. To provide deep heating of the glass, it is necessary to affect it with radiation with a maximum energy in the region

the transmission threshold, t, e, in the region where the glass is transparent to short-wave infrared radiation,

The test results are presented in the table.

From the data presented in the table, it follows that infrared radiation with an energy maximum in the range of up to 2 μm (example 3) leads to overheating and sticking of steklozagotovki to the form and, accordingly, to marriage. In the case of using infrared radiation with an energy maximum in the range exceeding 2.5 µm, uneven heating occurs over the thickness of the glass preparation and, consequently, deformation (Example 6).

High-quality and effective melting of the edge, as well as a high percentage of usable products is possible only when the glass-making edge is removed from contact with the form by an amount h not less than the thickness of the glass-sheet and not more than 1.5 (examples 1,2,4 and 5). If the edge of a steklozavodov is derived by an amount less than the lower value of the indicated interval (Example 3), then the reflow process is difficult due to the removal of heat from the steklozavodov to the form.

The loss of heat leads to an increase in the duration of infrared radiation, the adherence of glass to the form and, as a result, to a decrease in the percentage of usable products. If the edge of the steklozavodov is taken out of contact with the form by an amount of. More than 1.5 (example 6), then in ProP I I P I Jirn

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In the process of flashing, there is a deformation of the edge and, as a result, a decrease in the percentage of yield of products.

5 As can be seen from Table 1, the yield of glassware manufactured by a known method (Example 7) is 48%, i.e. even lower than in the cases indicated

10 in examples 3 and 6 (60% and 63%, respectively).

The proposed method of manufacturing products from sheet glass ensures uniform heating.

15, both in thickness and in surface, which makes it possible to obtain a uniform product thickness over the entire diametric section. In addition, the use of NK20 radiation reduces the duration of bending and melting of the edge, and performing glass-making operations in a melting operation from contact with a form by a certain amount eliminates sticking of the glass to the form. These conditions improve the quality and percentage of products.

In addition, performing the operation of bending and melting the edge in one technological cycle allows to increase labor productivity by 2 times and reduce electricity costs.

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Claims (1)

METHOD FOR PRODUCING PRODUCTS FROM SHEET GLASS by preheating glass blanks, molding in the mold and flashing the edge, characterized in that, in order to increase productivity and yield suitable products, after molting, the edges of the glass blanks are brought out of contact with the mold by 1-1.5 times thickness, and the bending and fusion of the edge is effected by infrared radiation with a maximum energy in the wavelength range of 2.0-2.5 microns. ^ 1 I I I I I I I I I I and | | y S © s © FIG>