Title of Invention

HORIZONTAL STRIP ACCUMULATOR

Abstract A horizontal strip accumulator for metal strip includes a looper car which is moveable along a travel path at at least one swivel gate which is moveable, when the looper car is moved, by the looper car between a starting position and an end position. For moving the swivel gate, the looper car acts on an actuating element which is connected with the swivel gate through a four-gear mechanism with two swivels. The swivel gate is rotatably arranged on one swivel and the actuating element is rotatably arranged on the other swivel. The actuating element has spoke-shaped projections and the looper car has counter projections which engage between the spoke-shaped projections.
Full Text

Translation of WO 00/12238 (PCT/EP99/06061)
Horizontal Strip Accumulator
The present invention relates to a horizontal strip accumulator for metal strip, in particular, steel strip, comprising a looper car, which can be moved along a travel path, and at least one swivel gate, which is moved by the looper car from a starting position to an end position when the looper car is moved, wherein the looper car, when moving the swivel gate, acts on an actuating element which is connected with the swivel gate by means of a four-gear mechanism with two swivels, wherein the swivel gate is rotatably arranged on one and the actuating element is rotatably arranged on the other of the swivels.
In horizontal strip accumulators, the stored strip must be supported in order to prevent too much sagging of, the strip. Two systems are known for this purpose. In one system follower cars are used which follow behind the looper car and thus provide strip support with uniform spacing. In the other system, swivel gates are fastened on the sides of the strip accumulator at uniform spacing. The swivel gates are opened for passage of the looper car. The present invention relates to the system with the swivel gates.
Horizontal strip accumulators according to the preamble of claim 1 have been used in the past in rolling mills. Here, the actuating element was in the form of a vehicle tire which was entrained by the looper car with frictional connection. The construction of this horizontal strip accumulator was relatively simple. However, as a result of the frictional connection of looper car and

actuating element, the adjustment of the actuating element was very critical. Moreover, the actuating element was very wear-prone and also comparatively unreliable as a result of the dependency of the frictional connection on the tire pressure.
The object of the present invention resides in that a horizontal strip accumulator for metal strip is to be provided which operates considerably more reliably while maintaining the simple constructive configuration.
The object is solved in that the looper car upon movement of the swivel gate engages positive-lockingly the actuating element. By doing so, a forced guiding of the actuating element is effected so that disturbances by a faulty frictional connection can no longer occur. Also, the adjustment of the actuating element relative to the travel path of the looper car is significantly less critical.
When the swivel gate has a holding element, by which the swivel gate is reliably secured in the starting position as well as in the end position, a separate locking mechanism for the swivel gate is obsolete. The holding element can alternatively be embodied, for example, as a spring or as a weight.
When the actuating element has spoke-shaped projections having a projecting thickness and being spaced from one another by a spoke distance and the looper car engages with counter projections the space between the spoke-shaped proj ections, the constructive configuration of the actuating element of the looper car is especially simple.

When the counter proj ections are embodied to be roll -like, an especially wear-reduced and friction-reduced contact of the counter projections with the projections is realized. Also, in this case the swivel gate is entrained especially smoothly by the looper car.
When neighboring counter projections are spaced from one another alternatingly by a large and small spacing, an especially minimal play of the actuating element and thus of the swivel gate results when the looper car changes its direction of movement during actuation.
The play of the swivel gate/the actuating element is practically zero when the small spacing corresponds such with the projecting thickness that one of the spoke-shaped projections can be introduced between the neighboring counter projections, which are spaced from one another by the small spacing, and the sum of the large and small spacings is at least approximately identical to the spoke distance.
Further advantages and details result from the following description of one embodiment. The basic representation shows in:
Fig. 1 a horizontal strip accumulator, and
Fig. 2 a looper car and a swivel gate.
According to Fig. 1 a steel strip 1 exits the roll stand 2. The steel strip 1 is guided across a first deflection roll 3 and a second deflection roll 4 after exiting from the roll stand 2. The first deflection roll 3 is arranged on a looper car 5. The looper

car 5 can be moved along a travel path in the movement direction x. By moving the looper car 5, the length of the steel strip 1 which is positioned between the roll stand 2 and the second deflection roll 4 will change. The looper car 5 in cooperation with the roll stand 2 and the second deflection roll 4 thus forms a strip accumulator. Since the strip l is positioned horizontally in the storage area, the strip accumulator is a horizontal strip accumulator.
The looper car 5 can be spaced up to 100 meters from the roll stand 2 and the second deflection roll 4. In order to prevent an excessive sagging of the steel strip 1, it is therefore required to support the steel strip 1. For this purpose, swivel gates 6 are provided. When the looper car 5 moves toward the roll stand 2, it moves the respective closest swivel gate 6 from a closed into an open position. The closed position corresponds in this case to the starting position, the open positioned to the end position. In reverse order, the looper car 5, after passing one of the swivel gates 6 in the opposite direction, will close this swivel gate. In this case, the open position corresponds to the starting position, the closed position to the end position.
The swivel gates 6 are thus moved by the looper car 5. For this purpose, the looper car 5 acts on an actuating element 7 on each one of the swivel gates 6. The cooperation of looper car 5 and actuating element 7 will be explained in the following in connection with Fig. 2.
According to Fig. 2, the actuating element 7 is connected by a four-gear mechanism 8 with the swivel gates 6, respectively. The

four-gear mechanism 8 has two swivels 9, 10 and two hinge points 11, 12. The swivels and the hinge points 9 through 12 are connected to one another by lever arms 13, It is shown that the respective swivel gate 6 is rotatably arranged on one and the actuating element 7 is rotatably arranged on the other one of the swivels 9, 10.
For moving the respective swivel gate 6, the looper car 5 acts on the actuating element 7. The looper car 5 engages in a positive-locking connection the actuating element 7. Accordingly, a forced entrainment of the actuating element 7 results. A frictional connection between actuating element 7 and looper car 5 is not required.
The positive-locking connection according to Fig. 2 is realized in that the actuating element 7 has spoke-shaped projections 14. The spoke-shape projections 14 have a projecting thickness d. They are spaced from one another by a spoke distance a. Counter projections 15 are arranged on the looper car 5 which engage the space between the spoke-shaped projections 14 when the looper car 5 is moved. As can be seen in Fig. 2, the counter projections 15 are embodied in a roll-like fashion and are spaced alternatingly by a large and a small spacing g, k from one another. The small spacing k corresponds to the projecting thickness d such that one of the spoke-shaped projections 14 can be inserted into the space between two counter projections 15, respectively, which are spaced from one another by the small spacing k. The large spacing g is sized such that successively arranged spoke-shaped projections of the actuating element 7 can be introduced into the space between two

counter projections 15 which are spaced from one another by the smaller spacing k. The sum of large spacing g and small spacing k is thus, at least approximately, identical to the spoke spacing a.
. The swivel gate 6 must be secured in its starting position and its end position against accidental positional changes. This can be achieved, for example, by a separate locking mechanism. According to the embodiment, here Fig. 1, the swivel gate 6 has a holding element 16. The swivel gate 6 is stably secured in the starting position as well as in the end position by the holding element 16. According to the embodiment, the holding element 16 is a spring 16. As an alternative, the holding element 16 could also be embodied as a weight.

List of Reference Numerals
1 steel strip
2 roll stand
3, 4 deflection rolls
5 looper car
6 swivel gates
7 actuating element
8 four-gear mechanism
9, 10 swivels
11, 12 hinge points
13 lever arms
14 spoke-shaped projections
15 counter projections
16 holding element/spring
a spoke distance
d projecting thickness
g, k spacings
X movement direction

06/16/2000 PCT/EP99/06061
SMS Schlomann Siemag Aktiengesellschaft Eduard-Schloemann-Str.4, 40237 Diisseldorf
Horizontal Strip Accumulator
Description (Primary Request)
The present invention relates to a horizontal strip accumulator for metal strip, in particular, steel strip, comprising a looper car, which can be moved along a travel path, and at least one swivel gate, which is moved by the looper car from a starting position to an end position when the looper car is moved, wherein the looper car, when moving the swivel gate, acts on an actuating element which is connected with the swivel gate, wherein,the looper car, when moving the swivel gate, positive-lockingly engages the actuating element.
Such a horizontal strip accumulator is, for example, known from JP-A-61 293 606.
From JP-B-45 039 444 a horizontal strip accumulator is known in which the actuating element is actuated by the looper car by frictional connection.
The swivel gates must not only be opened or closed when the looper car passes through, but must also be secured subsequently against accidental positional changes.

The object of the present invention resides in that a horizontal strip accumulator for metal strip is to be provided in which the swivel gates are secured in a constructively simple way against accidental positional changes.
This object is solved in that the swivel gate has a holding element by which the swivel gate is stably secured in the starting position as well as in the end position by non-positive action.
The holding element can be, for example, a spring or a weight.
When the actuating element is connected with the swivel gate by means of a four-gear mechanism with two swivels, and the swivel gate is rotatably arranged on the one and the actuating element rotatably arranged on the other one of the swivels, a simple constructive configuration results as a whole.
When the actuating element has spoke-shaped projections, having a projecting thickness and being spaced by a spoke distance from one another, and the looper car engages with counter projections between the spoke-shaped projections, the constructive configuration of the actuating element and of the looper car is especially simple.





We claims:
1. Horizontal strip accumulator for metal strip (1), in
particular, steel strip (1) with a looper car (5) movable
along a travel path and at least one swivel gate (6) movable,
when the looper car (5) is moved, by the looper car (5) from
a starting position into an end position, wherein the looper
car (5) , for moving the swivel gate (6) , acts onto an
actuating element (7) which is connected with the swivel gate
(6), wherein the looper car (5), when moving the swivel gate
(6), positive-lockingly engages the actuating element(7),
characterized in that where in
the swivel gate (6) comprises a holding element (16) by which the swivel gate (6) is stably and non-positively secured in the starting position as well as in the end position.
2. Horizontal strip accumulator according to claim 1,
characterized in that where in
the actuating element (7) is connected to the swivel gate (6) via a four-gear mechanism (8) with two swivels (9, 10) and in that the swivel gate (6) is rotatably arranged on one and the actuating element (7) is rotatably arranged on the other swivel (9, 10).

3. Horizontal strip accumulator according to claim 2,
characterized in that where in
the holding element (16) is a spring (16).
4. Horizontal strip accumulator according to claim 2,
characterized in that where in
the holding element (16) is a weight.
5. Horizontal strip accumulator according to one of the above
claims claim 1, wherein
the actuating element (7) has spoke-shaped projections (14) with a projecting thickness (d) which are spaced from one another by a spoke distance (a) and in that the looper car (5) engages with counter projections (15) between the spoke-shaped projections (14).
6. Horizontal strip accumulator according to claim 5,
characterized in that where in
the counter projections (15) are roll-like.
7. Horizontal strip accumulator according to claim 5 or 6,
characterized in that where in
the neighboring counter projections (15) are spaced alternatingly by a large and a small spacing (g, k) from one another.

8. Horizontal strip accumulator " according to claim 7, characterized in that where in the small spacing (k) corresponds to the projecting thickness (d) such that one of the spoke-shaped projections (14) can be inserted between neighboring counter proj ections {15) which are spaced from one another by the small spacing (k) and in that the sum of large and small spacings (g, k) is at least approximately identical to the spoke distance (a) .
9. Horizontal strip accumulator for metal strip substantially as herein described with reference to the accompanying drawings.


Documents:

abs-in-pct-2001-395-che.jpg

in-pct-2001-395-che-abstract.pdf

in-pct-2001-395-che-claims filed.pdf

in-pct-2001-395-che-claims granted.pdf

in-pct-2001-395-che-correspondnece-others.pdf

in-pct-2001-395-che-correspondnece-po.pdf

in-pct-2001-395-che-description(complete)filed.pdf

in-pct-2001-395-che-description(complete)granted.pdf

in-pct-2001-395-che-drawings.pdf

in-pct-2001-395-che-form 1.pdf

in-pct-2001-395-che-form 19.pdf

in-pct-2001-395-che-form 26.pdf

in-pct-2001-395-che-form 3.pdf

in-pct-2001-395-che-form 5.pdf

in-pct-2001-395-che-other document.pdf

in-pct-2001-395-che-pct.pdf


Patent Number 212000
Indian Patent Application Number IN/PCT/2001/395/CHE
PG Journal Number 02/2008
Publication Date 11-Jan-2008
Grant Date 13-Nov-2007
Date of Filing 21-Mar-2001
Name of Patentee SMS SCHLOEMANN-SIEMAG AKTIENGESELLSCHAFT
Applicant Address Eduard-Schloemann-Strasse 4, D-40237 Dusseldorf,
Inventors:
# Inventor's Name Inventor's Address
1 SOHL, Ralf-Hartmut Rennpatt 9 D-42697 Solingen
2 DE KOCK, Peter Storpskamp 29 D-46117 Oberhausen
PCT International Classification Number B2 1C 49/00
PCT International Application Number PCT/EP99/06061
PCT International Filing date 1999-08-19
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 198 38 780.6 1998-08-26 Germany