CS255732B1 - Melting glass multipot furnace - Google Patents

Abstract

The solution lies in the fact that the melting spaces ·· individual pans are arranged in a row and separated by the center walls on which, respectively, central individual walls are stored vaults. Each vault has ^ least one retractable construction, stored on adjacent center walls ^ and / or on the center wall and the outer wall. The clamping structure consists of two vertical beams, horizontally mounted spacers and rods with nuts. The rod is guided directly or via a pin that is anchored in the center of the spacer. It binds holes They are located in the rear wall and holes for direct discharge of glass, possibly working holes in the customs wall.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a melting glass furnace, particularly for melting glass of specific properties.

In the production of utility and technical glass, in which smaller quantities of glass of different colors or different physical properties are processed, the glass is usually melted in ladle furnaces.

Ladle furnaces consist of a substructure and an upper structure. The bottom structure of the furnace consists of a glass sump and regenerators or recuperators in which the heat of the flue gases removed from the combustion chambers is used to preheat the combustion air. The upper structure of the furnace consists of left-hand plates, on which the pans are placed, as well as walls with working and charging openings, eventually with holes for direct glass outflow and vault tightened by beams fixed into the floor outside the furnace. The ladles are located in a common melting chamber of a furnace of circular or elliptical shape.

These furnaces have the following disadvantages · Multiple glass melts cannot be melted simultaneously in a common melting chamber, as they usually require different melting conditions, a different temperature regime and / or different oxidation or reduction environment above each melted glass. The pans must be replaced at the same time. This requires preheating furnaces of large dimensions and higher energy consumption for new pans. If a pan breaks or is damaged during melting, its melting space is not used, causing further production and energy losses. Furnaces of circular or elliptical shape require large production halls with regard to differently distributed working or direct glass outlet openings.

Double-pan or multi-pan ovens and separate ones are also known

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- 2 melting rooms and one common vault tightened by beams fixed to the floor outside the furnace * In this furnace, a larger number of pans cannot be arranged side by side, as the vault above the center pans is too concave in this case. It is not possible to melt glass with significantly different temperature regimes in individual melting rooms of this furnace, because due to the dependence of volume expansion of the vault material on temperature different volume changes of the material over each melting space occur.

These disadvantages will be eliminated or substantially reduced by the melting glass furnace of the invention consisting of a substructure with a glass sump and regenerators or recuperators and an upper structure with bench plates carrying melting pans, walls provided with charging and working or discharge openings and vaults. The essence of the glass melting furnace according to the invention is that the melting spaces of the individual pans are arranged in a row and separated from each other by central walls which are common to two adjacent melting spaces. Above each melting chamber there is a vault with at least one shrinking structure mounted on adjacent central walls or on the central wall and the outer wall of the furnace.

It is advantageous to make the clamping structure from a pair of vertical beams, horizontally spaced struts and a rod provided with nuts. The rod is guided directly and / or through a pin which is anchored in the span *

Furthermore, it is advantageous to place the charging and loading holes in the rear wall and the holes for the direct glass outlet or the working holes in the front wall.

The advantage of the present invention is the possibility of melting different types of glass under different melting conditions. Another advantage is the possibility of gradual replacement of individual pans. For this reason, preheating furnaces with lower investment and operating costs are sufficient to preheat new pans.

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Saving energy also results from the possibility of immediate assessment of damaged pans »

An exemplary embodiment is described below and schematically shown in the accompanying drawing. Giant. 1 is a front elevation of the furnace of FIG.

The multi-pan melting furnace according to the invention consists of a glass sink, regenerator or recuperator (not shown) and an upper structure. The upper structure comprises left-hand plates 1 carrying pans 12, end walls of the central wall 2, front and rear walls, and individual, for example, cylindrical, vaults 4, each vault 4 comprising at least one contraction structure. The clamping structure consists of a pair of beams 6 arranged vertically on the central walls 2 or on the central wall 2 and the outer wall 6. These beams are £ horizontally connected strut 2 ^and loading rod 8 retracts rod eighth beams .6 either directly and / or via pivot _9, which is embedded in the middle rotpěry 2 · if ^the vaults are spherical, they are downloaded from the front and back sides of structures with beams fixed to the floor. The charging openings 10 for changing the pans and the loading openings 13 are located in the rear wall and the openings 10 for direct discharge of glass in the front wall. The work apertures 16 and the feed apertures 11 are either identical, then located in the rear wall, or are separated, then the feed aperture 13 in the wall is rear and the work aperture 14 in the front wall.

Claims (4)

OBJECT OF THE INVENTION 255 732 / Multi-pan melting furnace consisting of a substructure with a glass sump and regenerators or recuperators and an upper structure with bench plates, walls provided with feed openings, work openings and / or openings for direct glass discharge and a vault, characterized in that the melting compartments ( 3) the individual pans (12) are arranged in a row and separated pd by the central walls (2) on which, optionally, on the central wall (2) and the outer wall (5), individual arches (4) are arranged, the arch (4) is at least one clamping structure mounted on adjacent central walls (2) and / or on the central wall (2) and the outer wall (5); The melting glass furnace according to claim 1, characterized in that the clamping structure consists of two vertical beams (6), horizontally spaced struts (7) and a rod (8). Melting glass furnace according to Claims 1 and 2, characterized in that the rod (8) of the structure is guided directly and / or through a pin (9) which is anchored in the spacer (7). 4. A multilayer furnace according to claim 1, characterized in that the charging openings (10) are located in the rear wall and the openings (11) for the direct flow of glass or the working openings (14) in the front wall.