Roller-hearth kiln for heating glazing sheets

Glass manufacturing – Glassworking or preform by or with reheating means – Planar sheet preform

Reexamination Certificate

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Details

C065S104000, C065S119000

Reexamination Certificate

active

06363752

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a roller furnace for heating windows to their softening temperature.
2. Discussion of the Background
Roller furnaces for heating windows are known in various forms of construction. They are used when the windows have to be bent or toughened in plants provided downstream or when enamels applied to the windows must be fired on. In this case, the windows are generally heated by radiation, in particular by electrical heating elements. The roller furnaces may be designed as continuous furnaces or as furnaces in which the windows undergo an oscillating motion.
When the windows cannot be heated very uniformly on both sides, convex or concave deformations of the window are inevitable during the heating process. In this case, the window deforms on the side heated most and takes on a convex shape. The risk of such deformations is particularly marked when the windows are provided with a surface coating. When coated windows are heated, the coated side is as a general rule uppermost given that, depending on the type of coating, the latter could otherwise be damaged while being transported along the rollers. The coating layers may consist of layers which absorb thermal radiation, as is the case, for example, with firing inks, or of layers which reflect radiation, such as those used as thermal protection layers or as solar protection layers. Whereas in the first case the topside of the window in the furnace is heated more by the radiant heat, in the second case it remains distinctly cooler given that the thermal radiation is reflected by the layer. Consequently, in these cases, the windows deform in opposite directions.
Given that it is particularly difficult in the case of windows provided with a heat-reflecting surface layer to heat the window uniformly, and without causing undesirable bending, by radiant heat, roller furnaces which heat the windows by convection have been developed. Such convection furnaces are, for example, known from documents DE 4,010,281 A1 and DE 4,336,364 A1. In the case of these known convection furnaces, the windows are heated on both sides by blowing, using a hot gas. For this purpose, vanes forming blowing nozzles are arranged both above and below the plane of transportation of the windows, transversely to the direction of movement of the windows, and emerge just above and just below the plane of transportation. By virtue of these vanes forming blowing nozzles, the windows are blown with hot air which, for example, is heated, by electrical heating elements installed in the flow ducts, to a temperature which may reach approximately 700° C. Convection furnaces of this type are relatively flexible with regard to regulating the temperature of the hot blown air. They allow uniform heating even when the windows are coated on one side.
In the case of convection furnaces of the known type, the vanes forming blowing nozzles are arranged between the transporting rollers in the lower part of the furnace, a sufficiently large distance having to be left between the vanes forming blowing nozzles and the transporting rollers so as to allow the hot air to flow. The consequence of this is that the transporting rollers are relatively far apart. Thus, the distances between the lines of support provided by the transporting rollers are themselves relatively large. The risk of the windows deforming under their own weight when they reach their softening temperature increases, particularly when the windows are thin. Moreover, the dead-weight may not be compensated for by the streams of gas which are directed, from below onto the window given that the window is also subjected, on the topside, at the same points, to the same blowing pressure.
SUMMARY OF THE INVENTION
The object of the invention is to develop a roller furnace for heating both window surfaces uniformly, which benefits from the known advantages of convective heating, without the windows present on the transporting rollers being exposed to a significant risk of deforming under their own weight.
This object is achieved according to the invention by the fact that a convective heating means, comprising vanes forming blowing nozzles arranged transversely to the direction of movement of the windows and intended to blow hot gas, is provided above the roller transportation track and an exclusively radiant heating means is provided below the roller transportation track.
A roller furnace according to the invention not only helps considerably to improve the optical quality of the windows, making a close succession of transporting rollers possible, but also has other essential advantages. For example, the manufacturing cost of such a furnace is markedly less than the manufacturing cost of the known convection furnaces, given that the furnace is, below the transporting rollers, of a distinctly simpler construction and relatively low in height. The cost of installing the furnace according to the invention is also considerably less given that, because of the low construction height of the infrastructure of the furnace, a pit no longer needs to be provided in the floor of the factory building, rather the furnace can be mounted above the floor level on a suitable foundation or on a suitable support frame. The investment cost of a furnace according to the invention is thus, overall, appreciably less than in the case of a known convection furnace.
According to a first embodiment, fans, connected to drive motors mounted outside the furnace, are fixed to the internal side walls of the furnace.
According to another embodiment, more particularly suitable for continuous furnaces, the fans are placed in the roof, i.e. facing and above the roller bed, and preferably along a mid-axis parallel to the roller bed. According to this embodiment, the more symmetrical arrangement of the fans within the furnace leads to a more homogeneous and more balanced extraction within the furnace. In addition, the drive motors connected to the fans are thus placed above the furnace, thereby making it possible to reduce the overall width of the furnace compared with the first embodiment.
Furthermore, this second embodiment of the invention provides more room for positioning the heating elements in the ducts conveying the gas. The gas can thus be heated up over a shorter distance. This advantage may allow a controlled temperature gradient to be created over the length of the furnace; in fact, according to this invention, the nozzles placed beneath a fan controlling the temperature can be supplied directly, it also being possible for the temperature of the gas entering all the furnace nozzles to be controlled. Such a temperature gradient over the length of the furnace is especially desirable in the case of continuous furnaces.


REFERENCES:
patent: 4336442 (1982-06-01), Starr
patent: 4390359 (1983-06-01), Reunamaki
patent: 5150534 (1992-09-01), Kramer
patent: 5368624 (1994-11-01), Lehto et al.
patent: 5647882 (1997-07-01), Thiessen
patent: 5669954 (1997-09-01), Kormanyos
patent: 27 41 098 (1979-03-01), None
patent: 40 10 280 (1991-10-01), None
patent: 4 336 364 (1995-04-01), None
patent: 0 721 922 (1996-07-01), None
patent: 2 083 456 (1982-03-01), None
patent: 98/03439 (1998-01-01), None
Derwent abstracts, no. 1996-404377, FI 97378 B (Aug. 1996).

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