U.S. patent application number 09/202036 was filed with the patent office on 2001-12-06 for strip casting plant.
Invention is credited to BRUHL, MICHAEL, FEUERSTACKE, EWALD, FREIER, PAUL, KROOS, JOACHIM, REICHELT, WOLFGANG, SCHWERDTFEGER, KLAUS, SPITZER, KARL-HEINZ, URLAU, ULRICH, VON HINRICHS, THOMAS.
Application Number | 20010047856 09/202036 |
Document ID | / |
Family ID | 26026409 |
Filed Date | 2001-12-06 |
United States Patent
Application |
20010047856 |
Kind Code |
A1 |
SCHWERDTFEGER, KLAUS ; et
al. |
December 6, 2001 |
STRIP CASTING PLANT
Abstract
The invention relates to a strip casting plant with side limits
arranged closely adjacent to a carrying belt. The side limits, and
preferably the supply device for molten metal, are capable of
vibrating and are connected to a device for producing vibrations.
The adhesion of solidified material can thus be prevented.
Inventors: |
SCHWERDTFEGER, KLAUS;
(GOSLAR, DE) ; SPITZER, KARL-HEINZ;
(CLAUSTHAL-ZELLERFELD, DE) ; FREIER, PAUL;
(CLAUSTHAL-ZELLERFELD, DE) ; VON HINRICHS, THOMAS;
(BUNTENBACH, DE) ; REICHELT, WOLFGANG; (MOERS,
DE) ; URLAU, ULRICH; (MOERS, DE) ;
FEUERSTACKE, EWALD; (DORSTEN, DE) ; KROOS,
JOACHIM; (MEINE, DE) ; BRUHL, MICHAEL;
(WOLFENBUTTEL, DE) |
Correspondence
Address: |
THOMAS C PONTANI
COHEN PONTANI LIEBERMAN & PAVANE
551 FIFTH AVENUE
SUITE 1210
NEW YORK
NY
10176
|
Family ID: |
26026409 |
Appl. No.: |
09/202036 |
Filed: |
August 2, 1999 |
PCT Filed: |
June 2, 1997 |
PCT NO: |
PCT/DE97/01153 |
Current U.S.
Class: |
164/478 ;
164/416; 164/429; 164/479 |
Current CPC
Class: |
B22D 11/066 20130101;
B22D 11/0642 20130101; B22D 11/0631 20130101 |
Class at
Publication: |
164/478 ;
164/416; 164/479; 164/429 |
International
Class: |
B22D 011/06; B22D
027/08 |
Foreign Application Data
Date |
Code |
Application Number |
Jun 7, 1996 |
DE |
196 22 925.1 |
Sep 10, 1996 |
DE |
196 36 698.4 |
Claims
1. Strip casting plant with a supply device for molten metal, a
carrying belt for molten and solidified metal, and side limits
closely adjacent to the carrying belt, characterized by the fact
that the supply device and/or side limits are capable of vibrating,
particularly on the plane of the carrying belt, and are connected
to a device for producing vibrations.
2. Strip casting plant as in claim 1, characterized by the fact
that the vibration of the supply device and/or side limits occurs
substantially vertically to the conveyance device of the strip.
3. Strip casting plant as in claim 2, characterized by the fact
that there are side limits adjustable at an angle to each
other.
4. Strip casting plant as in one of the claims 1 through 3,
characterized by the fact that the side limits comprise one or more
sections of water-cooled hollow profiles.
5. Strip casting plant as in claim 1, characterized by the fact
that the vibration of the side limit occurs simultaneously both
vertically and parallel to the casting direction.
Description
Description
[0001] The invention relates to a strip casting plant, especially
for the strip casting of steel.
[0002] When strip casting steel, it is largely possible to
optimally select the casting thickness of the strip (e.g.,
approximately 10 mm) in keeping with the required thickness of the
finish-rolled hot strip (1 to 3 mm) and for the purpose of
attaining adequate material properties in light of the required
heat deformation.
[0003] DE 31 42 099 discloses a device for the continuous casting
of metal that has a supply device for molten metal, a carrying belt
for molten and solidified metal, and side limits closely adjacent
to the carrying belt. The side limits are attached to the carrying
belt in the manner of a link chain.
[0004] Such a design is quite expensive technically. Moreover, it
is basically suitable only for relatively small strip widths. The
stress in the carrier due to the thermal load is substantially
higher with larger strip widths than with narrow strips; thus, the
aforementioned side limit, which revolves in a chain-like fashion
and acts as a reinforcement, cannot be used with large strip
widths.
[0005] When side limits are used that remain stationary relative to
the carrier or conveyance device of the cast strip, solidified
steel occasionally sticks to a side limit during the casting
process. This leads to massive defects in the strip and to
operational disruptions or even interruptions in casting. Similar
problems can occur in the supply device, since solidified steel
occasionally sticks there as well, leading to similar
difficulties.
[0006] The object is therefore to indicate a strip casting plant
that reliably prevents the adhesion of solidified steel to the
supply device or side limits.
[0007] This object is attained by embodying the supply device
and/or side limits so that they can vibrate on the plane of the
carrying belt and are connected to a device that produces
vibrations. This measure prevents the adhesion of solidified
material.
[0008] In a preferred embodiment, the vibrations of the supply
device and/or side limits occur substantially vertically to the
conveyance device of the strip. Thus, the vibrations occur on the
plane of the carrying belt or the cast steel strip, but at a right
angle to the conveyance device. Advantageously, this design is less
expensive than one that vibrates in the conveyance direction,
wherein the side limits would have to run exactly over the entire
length. In addition, this embodiment advantageously allows the
vibrations to be optimally adjusted in the region of the
metallurgical length (from the pouring area to complete strip
solidification). This is done, for example, by dividing the side
limits in this region into individual sections with optimal
frequencies and amplitudes.
[0009] In a further preferred embodiment, the side limits can be
set at an angle relative to each other. This is true for side
limits located across from each other as well as for sections
located on one particular side. As a result, the evenness of the
strip thickness can be improved over the entire width of the cast
strip. In particular, side limits are also inclined relative to the
vertical toward the carrying belt surface.
[0010] In a preferred example, the side limits comprise
water-cooled hollow profiles.
[0011] Preferably, the devices to produce the vibrations are
eccentric drives. However, electric magnets or hydraulic cylinders
can also be used. The vibrations can be sinusoidal, sawtoothed or
trapezoidal in form, for example. The stroke frequency is, for
example, 50 Hz at a stroke of 0.5 mm. The cooling water is supplied
via flexible hoses. Over the cast strip, there is preferably a
cover, in which a layer of temperature-stable sealing material,
especially ceramic fiber felt, is arranged for the purpose of
sealing between the side limits and the cover. A corresponding seal
is also provided between the supply device and the carrying belt,
whereby an aluminum sheet is preferably inserted between the
carrying belt and the seal, so that when vibrations occur, relative
movement takes place only between the felt layer and the aluminum
sheet. The supply device and the side limits are preferably held by
helical screws.
[0012] In a further preferred embodiment, the side limits can
simultaneously vibrate both vertically and parallel to the strip
movement (casting direction), so that all told a thrust force that
also acts in the casting direction is exerted on the strip edge.
Specifically, the vibration has components in all three spatial
directions.
[0013] Furthermore, the vibrations can occur vertically to the
strip surface.
[0014] In a special embodiment, the vibrations are generated by
impacts in the longitudinal or transverse direction of the side
limits. Shock-like longitudinal waves, with which adhesion can be
effectively prevented, can be applied in this way.
* * * * *