[0001] This invention concerns a device for the continuous grinding of metal bars. More
precisely it concerns a device which can perform this operation on products of any
cross-section, whether round or polygonal, and of indefinite length.
[0002] In pieces subject to fatigue, such as ties, bolts, springs, etc., one of the main
requirements is the absence - preferably complete - of surface defects, where cracks
may be initiated.
[0003] In the production of bars, wire-bars, wires and the like (hence-forth referred to
as bars), the hot-rolled feed material, in the form of a coil of indefinite length
or bars cut to measure, is drawn. In other words it is subjected to plastic deformation,
generally cold, which reduces the cross-section to approximately that desired. It
is impossible to eliminate surfece defects during this operation, but this state of
affairs is rectified by grinding which is presently performed by totating wheels that
eliminate the surface layer and bring the product to the desired final shape.
[0004] Though this sequence of operations is satisfactory from the aspect of gauge and the
elimination of surface defects, it is costly. In fact, since the contact between the
grinder and the surface of the workpiece occurs along a straight line, and since there
cannot be very many grinders, for obvious reasons of space and cost, the bar must
be rotated to ensure that the entire surface is ground.
[0005] Hence it is only possible to grind round bars, and these must be of limited length.
This not only leads to technical problems during subsequent machining operations,
it is also costly because short lengths have to be collected, handled, transported
and often even stored.
[0006] It is obvious, therefore, that it would be highly desirable to make drawing and grinding
one continuous process, which would clearly be beneficial also for downstream processors.
[0007] An attempt was made in the past to produce round bars by utilizing several tools
with semicircular section arranged to form a circular hole of the desired diameter.
However, because of the problem of lining-up the various tools and that of tool wear
the finished bars were scored and unsymmetrical, so this approach was abandoned.
[0008] The present invention is designed to overcome these drawbacks and to provide a device
for the continuous grinding of bars that may even be of indefinite length, and of
accepting products of any desired cross-section. According to the invention, on a
plant for the production of drawn and ground bars, the drawing machine is replaced
by a device consisting of a cage containing a first die, grinding means and a second
die arranged along the direction of travel of the bar.
[0009] The first die has a hole of the same shape as that of the bar leaving the rolling
mill, but with a smaller cross-section. The grinding means proper consist of at least
one cutter which strips a layer of desired thickness from the bar. The second die
has a hole whose shape and cross-section are about the same as the required finished
bar.
[0010] The distance between said grinding means and said dies is preferably between three
and five times the diameter of the bar, so that said dies support the latter perfectly
in position vis-à-vis the grinding means.
[0011] The dies and the grinding means are mounted in a rigid structure or cage, said structure
being open between the first die and the grinding means so as to permit the removal
of the cuttings, and is closed between the grinding means and the second die, so that
a lubricant under pressure can be introduced into the space thus bounded to permit
the second die to operate without seizure.
[0012] As already indicated, the grinding unit proper consists of at least one cutter. When
round bar is being dealt with, the cutter can consist of a metal plate in which there
is a sharp-edged hole of the desired diameter, perhaps hardened by surface treatment
or plated or covered with hard metallic or ceramic coatings.
[0013] If the bar in question has a polygonal cross-sectionhexagonal for instance - pairs
of appropriately-positioned, counterposed cutters set at the desired distance can
be employed; a plate with a polygonal hole can also be used.
[0014] If there are cutting problems (bar material too hard or too pasty or the like), the
layer to be eliminated from the surface of the bar can be removed by successive treatments,
by positioning at least two cutting elements with progressively smaller holes, in
a sequence along the direction of travel of the bar.
[0015] According to the present invention, therefore, the following operations can be performed
in a single pass along the line:
- drawing of bar by first die to an intermediate cross-section
- centring of bar on tool by the alignment between the first and second dies
- removal of surface layer of bar (affected by defects and/or decarburization, etc.)
- reduction to the precise final dimension required, by means of the second die.
[0016] The present invention will now be described in greater detail by reference to an
embodiment illustrated purely by way of example and in no way limiting in the accompanying
diagrams where:
- Fig.1 represents a general layout of the drawing and grinding installation according
to the known technique
- Fig.2 represents a schematic sectional view of the drawing and grinding device as
per the present invention.
[0017] According to the Fig.1 set-up a coiled bar is straightened in straightener 2, drawn
in 3, cut into lengths 4, which are stored in 5, and then are ground one by one in
plant 6 and made up into bundles 7.
[0018] Fig.2 provides a schematic sectional view of the drawing and grinding device as per
the invention, which consists of a cage 30 carrying a first die 31, a cutter 32 maintained
at the desired distance from the first die by a distance-piece 35, and a second die
33, separated from the cutter by a distance-piece 36. The hot-rolled bar B, which
travels in the direction indicated by the arrow, is centred vis-à-vis the cutter 32
by dies 31 and 33, and is drawn in 31, ground by cutter 32 and reduced to the final
desired size by die 33. Cage 30 is divided into two parts with dies and cutter in
the first part 301, which has open sides to facilitate removal of cuttings produced
by cutter 32, and a second part 302, which is closed so it can be filled through pipe
37, preferably by lubricant under pressure in order to reduce friction between bar
and die, thus favouring gauging.
[0019] A prototype device as per the invention has permitted the continuous treatment of
4000 kg of bar without any stoppages or other drawbacks and with final surface tolerances
and quality completely within specification.
1. Device for the continuous grinding of hot-rolled bars, wire-bars, wire and the like,
characterized by the fact that it consists of a cage containing a first die having
a hole the same shape as that of the hot-rolled bar but a smaller cross-section, ,grinding
means and a second die having a hole the same shape and cross-section as the desired
finished bar, all arranged along the direction of travel of the bar.
2. Device for grinding bar, wire-bar, wire and the like as per Claim 1, characterized
by the fact that said grinding means consist of at least one cutter.