RU95120157A - RING FOR ANNEALING THE GLASS SHEET, METHOD FOR MANUFACTURING THE GLASS SHEET AND THE SHEET MANUFACTURED IN SUCH A METHOD - Google Patents

Claims (15)

1. Ring for annealing a glass sheet, characterized in that it contains an insulating ring located on the inner periphery of the annealing ring to reduce the cooling rate of the glass sheet in the area of interaction with the insulating ring, thereby reducing the tensile stress in the inner zone and at the same time supporting edge compression during glass cooling.  2. The ring according to claim 1, characterized in that the insulating ring extends 7-13 cm inward with respect to the annealing ring, increasing the width of the zone and proportionally decreasing the total tensile stress in the inner zone of the glass sheet.  3. The ring according to claim 2, characterized in that it further includes a support ring mounted inside and around the inner periphery of the lower part of the forming and annealing rings.  4. The ring according to claim 3, characterized in that the support ring protrudes into the annealing ring, essentially the same amount as the insulating ring, and forms a support for the insulating ring.  5. The ring according to claim 4, characterized in that the insulating ring contains a matrix material of fiberglass.  6. The ring according to claim 5, characterized in that the support ring is made of a thin sheet of stainless steel.  7. A method of cooling a glass sheet from a temperature above its deformation point, characterized in that it includes the step of arranging the glass sheet on the annealing ring to create constant stresses in the glass sheet and isolating the peripheral part of the glass sheet during cooling to maintain the temperature of the peripheral part above the point its deformation when constant stresses are created in the glass sheet.  8. The method according to p. 7, characterized in that the cooling stage includes natural convection of air from the environment.  9. The method according to p. 7, characterized in that the cooling stage includes forced air cooling to a low level.  10. A glass sheet suitable for laminating, comprising an outer peripheral part and an inner peripheral part surrounded by an outer peripheral part, the outer peripheral part having edge compression with a maximum value on the edge of the glass sheet, decreasing towards the middle of the glass sheet, and the inner peripheral part characterized by tensile stress and the maximum value of tensile stress, and the edge compression force and tensile stress are balanced to 0 per a distance exceeding 6 cm inward from the edge of the glass sheet.  11. The glass sheet according to claim 10, characterized in that balancing to 0 occurs at a distance between 7-16 cm inward from the edge of the glass sheet.  12. The glass sheet according to claim 10, characterized in that the balancing occurs at a distance of 11 cm inward from the edge of the glass sheet. 13. The glass sheet according to claim 10, characterized in that in it the maximum value of the compression of the edges is more than 300 kg / cm ² and the maximum value of the tensile stress is less than 60 kg / cm ² . 14. A glass sheet according to claim 13, characterized in that the maximum value of the compression of the edges is more than 400 kg / cm ² and the maximum value of the tensile stress is less than 60 kg / cm ² . 15. The glass sheet according to claim 13, characterized in that the maximum value of the compression of the edges of more than 400 kg / cm ² and the maximum value of the tensile stress is less than 40 kg / cm ² .