Plate-shaped shearing knife

Details Plate-shaped shearing knife Plate-shaped shearing knife

2000-04-26

2003-10-21

Vincent, Sean (Department: 1731)

Glass manufacturing

With molten glass charge cutting or scraping means

C065S332000, C065S374110, C065S374120, C030S345000, C030S350000

Reexamination Certificate

active

06634188

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention pertains to a plate-shaped shearing knife for shearing off allotments of liquid glass, the knife having a roughly V-shaped or circular-shaped cutting region and a wedge-shaped cross section with respect to its thickness.
Shearing knives of this kind are used in pairs in fully-automated systems, and use opposing movements to shear off glass allotments from a stream of liquid glass from a glass reservoir, these allotments can then be processed into glass bottles, container glass, video screens, and similar products.
In particular, when shearing off small allotments of glass, as occurs in the manufacture of glass bottles, container glass, or incandescent light bulbs, the shearing process takes place at a very high frequency, i.e., about 100 shearing steps per minute or more.
Because of this high frequency, the shearing knives are in direct contact with the glass melt over a relatively long period of time, and this glass melt has a temperature of between about 1100° C. and 1300° C. depending on the type of glass and the glass article to be manufactured. Thus, the knives are heated to temperatures of up to about 400° C. by the glass melt in spite of cooling of the knife by cooling emulsions. As a result, the wear of the shearing knife is accelerated.
OBJECT OF THE INVENTION
The purpose of the present invention is to create plate-shaped shearing knives of hard metal for shearing off allotments of liquid glass. Such knives heat up far less, even at very high shearing frequencies and thus are subject to a smaller amount of wear.
DETAILED DESCRIPTION OF THE INVENTION
According to this invention, the problem is solved in that the hard metal has a thermal conductivity of at least 85W/m° K, and the shear knife has on both sides adjoining the wedge-shaped cutting region, an edge region having an average width b which is in the range of 5% to 30% of the total width of the shearing knife B.
In this manner, the heat absorption capacity of the shearing knife is increased and the dissipation of the quantity of heat absorbed by the knife to the cooling emulsion is accelerated so that over-heating of the shearing knife is reduced. Likewise, rigidity and thus strength against higher impact stresses is improved even at high cutting frequencies.
It is not practical to increase the dimensions of the shearing knife indefinitely to increase the thermal absorption of the shearing knife due to cost considerations-since hard metal is expensive and too large a knife takes up too much space. Also, the great accelerations and decelerations occurring at the high shearing frequencies make providing knives too large in size entirely impractical.
However, according to this invention, it turns out that even minor increases in volume of the shearing knife will provide considerable improvements by providing nonwedge-like sections adjoining the neighboring cutting edge region.
It has proven to be particularly advantageous when the thermal conductivity of the knife hard metal has a value in the range between 90 and 100 W/m° K.
An increase in thermal conductivity of the hard metal, as a rule, has a tendency to occur with the greatest possible tungsten carbide percentage, preferably with no supplemental carbides and rather small percentages of binder metal.
In addition, it is an advantage if the hard metal has a coarse grain with an average grain size of at least 2 &mgr;m.
A hard metal alloy that is particularly suitable for shearing knives for shearing of liquid glass allotments turns out to have 91 wt % of tungsten carbide and 9 wt % of cobalt.
This alloy is particularly resistant to the impact stresses occurring during operation of the shear knife.
An additional improvement with respect to the prevention of unacceptable heating of the shearing knife is attained in that the surface facing the glass reservoir beyond the glass contact region has a coating having relatively poor thermal conductivity and the opposing surface beyond the glass contact region has a coating with good thermal conductivity. Thus, on the one hand, too rapid heating of the shear knife by the glass melt can be avoided, and, on the other hand, the absorbed heat can be released to the cooling emulsion as quickly as possible.
In particular, aluminum oxide has proven valuable for the coating requiring poor thermal conductivity, and copper has proven valuable for the coating requiring good thermal conductivity.
Overall, to further reduce the settling of abrasion glass and, thus, to reduce the wear on the shearing knife, it is an advantage that the processing grooves at the cutting edge run essentially in the cutting direction of the shearing knife in the region of glass contact.
An additional means to avoid the increased wear on the shearing knife consists of providing the underside of the shearing knife with a 0.03 to 0.5 mm-deep recess that extends to a range of 1 to 8 mm from the outer tip of the cutting edge, and from there the recess flares out (diminishes in depth) conically to the outer tip of the cutting edge.
Due to this opening and exposure of the cutting edge, the surface area onto which the abrasion glass can settle will again be reduced, to prevent the quality at the cut surface of the glass from deteriorating.


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