Title of Invention	AN EDGING MILL FOR HOT OPERATION
Abstract	The present invention relates to an edging mill for hot operation, comprising a pair of mutually adjustable rolls (3; 4) which are arranged with the center axes (5) vertic~lly and are connected to a rotary drive (8) by means of cardan shafts (6, 7), characterized in that a rotary drive motor (8) for the two rolls (3, 4) is arranged in stationary position below the mill floor .level (2) and is connected in each instance with a stationary transmission (9) which is arranged in stationary location, and this is connected in terms of drive in each instance with its cardan shaft (6; 7). f

Title of Invention

AN EDGING MILL FOR HOT OPERATION

Abstract

The present invention relates to an edging mill for hot operation, comprising a pair of mutually adjustable rolls (3; 4) which are arranged with the center axes (5) vertic~lly and are connected to a rotary drive (8) by means of cardan shafts (6, 7), characterized in that a rotary drive motor (8) for the two rolls (3, 4) is arranged in stationary position below the mill floor .level (2) and is connected in each instance with a stationary transmission (9) which is arranged in stationary location, and this is connected in terms of drive in each instance with its cardan shaft (6; 7). f

Full Text	TRANSLATION (HM-655PCT ~ original): WO 2004/082,859 Al PCT/EP2004/002,573 ROLLING MILL, ESPECIALLY AN EDGING MILL, FOR HOT OPERATION The invention concerns a rolling mill, especially an edging mill for hot operation, with a pair of rolls, which are arranged with their center axes vertical, can be adjusted relative to each other, and are connected to at least one rotary drive by means of cardan shafts. Edging mills of this type are widely used as vertical rolling stands or edging stands with one or more crossheads, on which the heavy rotary drives for the rolls are supported (DE 1 602 177 A) . The rolls can also be supported in horizontally cross-sliding cassettes (EP 0 491 785 Bl). The cassette can also be vertically displaced (EP 0 493 430 Bl. In accordance with an older proposal (DE 2 227 549 A), the rolls can be taken out in the upward direction vertically between the rotary drives. The previously-known rotary drives and adjustment drives have the disadvantage that this type of construction is technically complicated and not very reliable. Due to the large number of working action intervals of drive parts moving within each other, a great deal of wear occurs, and this results in high maintenance costs. The previously known drive arrangement is also associated with poor accessibility for maintenance work. Other disadvantages result from the sluggish adjustment response of the edging rolls, which are very heavy, cause tremendous friction and require large lever arms for the adjustment* The objectives of the invention are to produce a more favorable adjustment response with lower displaced masses, to reduce friction, and to achieve better lever arm ratios. In accordance with the invention, these objectives are achieved by stationary installation of the rotary drive for the two rolls below the mill floor level and by drive connection of the rotary drive with the respective cardan shaft by a stationary transmission. This allows faster and easier adjustment of the edging rolls, and, in addition, the displaced masses are smaller. The transmission is no longer moved together with the edging rolls but rather is anchored on the foundation or areas of the foundation. The lower displaced weight results in less friction. The lever arm relationships are also more favorable due to shorter adjustment devices. Furthermore, maintenance costs are reduced, and maintenance is easier, because the accessibility on the level of the mill floor and on the level of the foundation is easier. All of these advantages together result in greater plant availability and greater operational readiness, and this makes it possible to achieve optimized product quality. In accordance with a refinement of the invention, the displaced masses can be further reduced by connecting the rotary drive to each cardan shaft by means of a continuous drive shaft and detached bevel gears on both sides and a spur gear. In a further refinement, weight can also be locally adjusted by installing the adjustment drives on both sides of the vertical rolls above the mill floor level. The edging rolls can be freely lifted out upwardly between the adjustment drives and can be managed during installation. In accordance with a refinement of the invention, the drive components located in the lower foundation area are protected by deflector plates that are mounted on the receivers for the heads of the cardan shafts and that can be moved together with the rolls. In this connection, means for collecting and carrying the process waste materials to be removed are created by the formation of an essentially vertical, first shaft, by the movable deflector plates. In a refinement of this system, a second shaft that follows the first shaft is formed between the stationary spur gears of the cardan shafts by stationary deflector plates. The protection of the lower-lying drive components can be further enhanced by the stationary deflector plates forming a trapezoidal or conical inlet that follows and is directly opposite the movable deflector plates. The process waste materials that are collected in the first shaft and the second shaft can be further conveyed and disposed of by providing a trough-like collecting pit below the second shaft for carrying away dirt, scale, wastewater and the like. The rolling mill is illustrated in the drawing and explained in greater detail below. The sole drawing shows a front elevation of the rolling mill, in which the rolling stock moves perpendicularly to the plane of the drawing. The rolling mill, which is shown in cross section perpendicular to the rolling direction, is constructed as an edging mill for hot - operation. The direct deformation zone 1 lies above the mill floor level 2. The rolls 3 and 4 are arranged with the center axes 5 vertical and are connected to at least one rotary drive 8 by means of cardan shafts 6 and 7. The special features, then, are the stationary installation of the rotary drive 8 for the two rolls 3 and 4 below the mill floor level 2 and the drive connection of the rotary drive 8 with a cardan shaft 6, 7 on each side by a stationary transmission 9. For drive transmission, starting from the rotary drive 8 (which consists of a heavy electric motor), the driving power is transmitted by means of a continuous, rotatably supported drive shaft 10 and detached bevel gears on both sides (bevel gear steps) 11 and a one-step spur gear 12 on each cardan shaft 6 and 7. In contrast to the installation of the rotary drive 8 below the mill floor level 2 on a foundation 13 built at a low level, the adjustment drives 14 and 15 are arranged on both sides of the vertical rolls 3, 4 above the mill floor level 2, Between the paired adjustment drives 14 and 15 on both sides, hydraulically actuated piston-cylinder units 16 and 17 for roll crossheads 18, 19 are mounted in the columns 20 of the rolling stand. Deflector plates 24 and 25 are mounted on receivers 22 and 23 for the heads of the cardan shafts 6, 7 and move together with the rolls 3, 4 when the rolls are adjusted. The pair of deflector plates 24, 25 forms a first, vertical shaft 26 or two adjacent partial shafts 26a and 2.6b. A second shaft 27 is formed between the stationary spur gears 12 of the cardan shaft 6, 7. In consists of stationary deflector plates 27a, 27b. The stationary deflector plates 27a, 27b form a trapezoidal or conical inlet 28 that follows and is directly opposite the movable deflector plates 24, 25. A trough-like collecting pit 29 is formed in the foundation below the second shaft 27 for carrying away the collected dirt, scale, wastewater and the like. TRANSLATION (HM-655PCT — amended pages): Printed: 12/30/04 iH\| 111111111 List of Reference Numbers 1 direct deformation zone 2 mill floor level 3 roll 4 roll 5 center axis 6 cardan shaft 7 cardan shaft 8 rotary drive motor 9 stationary transmission 10 drive shaft 11 bevel gear 12 spur gear (spur gear step) 13 foundation 14 adjustment drive 15 adjustment drive 16 piston-cylinder unit 17 piston-cylinder unit 18 roll crosshead 19 roll crosshead 20 roll column 21 22 receiver for the head of a cardan shaft 23 receiver for the head of a cardan shaft 24 movable deflector plate 25 movable deflector plate 26 first shaft 2 6a partial shaft 26b partial shaft 4 TRANSLATION (HM-655PCT -- amended claims): Printed: 12/30/04 HH EP0402373 CLAIMS 1. Edging mill for hot operation, with a pair of rolls (3; 4), which are arranged with their center axes (5) vertical, can be adjusted relative to each other, and are connected to a rotary drive (8) by means of cardan shafts (6, 7), characterized by stationary installation of the rotary drive motor (8) for the two rolls (3, 4) below the mill floor level (2) and by drive connection of the rotary drive motor (8) with each stationary transmission (9) and of each stationary transmission (9) with its cardan shaft (6; 7). 2. Edging mill in accordance with Claim 1, characterized by the fact that the rotary drive motor (8) is connected to each cardan shaft (6, 7) by means of a continuous drive shaft (10) with detached bevel gears on both sides (11) and spur gears (12) . 3. Edging mill in accordance with Claim 1 or Claim 2, characterized by the fact that the adjustment drives (14, 15) are installed on both sides of the vertical rolls (3, 4) above the mill floor level (2). 4. Edging mill in accordance with any of Claims 1 to 3, characterized by the fact that deflector plates (24, 25) are mounted on the receivers (22, 23) for the heads of the cardan shafts (6, 7) and can be moved together with the rolls (3, 4). 5. Edging mill in accordance with Claim 4, characterized by the fact that the movable deflector plates (24, 25) form an essentially vertical, first shaft (26). 6. Edging mill in accordance with Claims 4 and 5, characterized by the fact that a second shaft (27) that follows the first shaft (26) is formed between the stationary spur gears (12) of the cardan shafts (6, 7) by stationary deflector plates (27a, 27b). 7. Edging mill in accordance with any of Claims 4 to 6, characterized by the fact that the stationary deflector plates (27a, 27b) form a trapezoidal or conical inlet (28) that follows and is directly opposite the movable deflector plates (24, 25) . 8. Edging mill in accordance with any of Claims 4 to 7, characterized by the fact that a trough-like collecting pit (29) is formed below the second shaft (27) for carrying away dirt, scale, wastewater, and the like.

Full Text

TRANSLATION (HM-655PCT ~ original): WO 2004/082,859 Al PCT/EP2004/002,573
ROLLING MILL, ESPECIALLY AN EDGING MILL, FOR HOT OPERATION
The invention concerns a rolling mill, especially an edging mill for hot operation, with a pair of rolls, which are arranged with their center axes vertical, can be adjusted relative to each other, and are connected to at least one rotary drive by means of cardan shafts.
Edging mills of this type are widely used as vertical rolling stands or edging stands with one or more crossheads, on which the heavy rotary drives for the rolls are supported (DE 1 602 177 A) . The rolls can also be supported in horizontally cross-sliding cassettes (EP 0 491 785 Bl). The cassette can also be vertically displaced (EP 0 493 430 Bl. In accordance with an older proposal (DE 2 227 549 A), the rolls can be taken out in the upward direction vertically between the rotary drives.
The previously-known rotary drives and adjustment drives have the disadvantage that this type of construction is

technically complicated and not very reliable. Due to the large number of working action intervals of drive parts moving within each other, a great deal of wear occurs, and this results in high maintenance costs. The previously known drive arrangement is also associated with poor accessibility for maintenance work. Other disadvantages result from the sluggish adjustment response of the edging rolls, which are very heavy, cause tremendous friction and require large lever arms for the adjustment*
The objectives of the invention are to produce a more favorable adjustment response with lower displaced masses, to reduce friction, and to achieve better lever arm ratios.
In accordance with the invention, these objectives are achieved by stationary installation of the rotary drive for the two rolls below the mill floor level and by drive connection of the rotary drive with the respective cardan shaft by a stationary transmission. This allows faster and easier adjustment of the edging rolls, and, in addition, the displaced masses are smaller. The transmission is no longer moved together with the edging rolls but rather is anchored on the foundation or areas of the foundation. The lower displaced weight results in less friction. The lever arm relationships are also more favorable due to shorter adjustment devices.

Furthermore, maintenance costs are reduced, and maintenance is easier, because the accessibility on the level of the mill floor and on the level of the foundation is easier. All of these advantages together result in greater plant availability and greater operational readiness, and this makes it possible to achieve optimized product quality.
In accordance with a refinement of the invention, the displaced masses can be further reduced by connecting the rotary drive to each cardan shaft by means of a continuous drive shaft and detached bevel gears on both sides and a spur gear.
In a further refinement, weight can also be locally adjusted by installing the adjustment drives on both sides of the vertical rolls above the mill floor level. The edging rolls can be freely lifted out upwardly between the adjustment drives and can be managed during installation.
In accordance with a refinement of the invention, the drive components located in the lower foundation area are protected by deflector plates that are mounted on the receivers for the heads of the cardan shafts and that can be moved together with the rolls.
In this connection, means for collecting and carrying the process waste materials to be removed are created by the

formation of an essentially vertical, first shaft, by the movable deflector plates.
In a refinement of this system, a second shaft that follows the first shaft is formed between the stationary spur gears of the cardan shafts by stationary deflector plates.
The protection of the lower-lying drive components can be further enhanced by the stationary deflector plates forming a trapezoidal or conical inlet that follows and is directly opposite the movable deflector plates.
The process waste materials that are collected in the first shaft and the second shaft can be further conveyed and disposed of by providing a trough-like collecting pit below the second shaft for carrying away dirt, scale, wastewater and the like.
The rolling mill is illustrated in the drawing and explained in greater detail below.
The sole drawing shows a front elevation of the rolling mill, in which the rolling stock moves perpendicularly to the plane of the drawing.
The rolling mill, which is shown in cross section perpendicular to the rolling direction, is constructed as an edging mill for hot - operation. The direct deformation zone 1 lies above the mill floor level 2. The rolls 3 and 4 are

arranged with the center axes 5 vertical and are connected to at least one rotary drive 8 by means of cardan shafts 6 and 7.
The special features, then, are the stationary installation of the rotary drive 8 for the two rolls 3 and 4 below the mill floor level 2 and the drive connection of the rotary drive 8 with a cardan shaft 6, 7 on each side by a stationary transmission 9.
For drive transmission, starting from the rotary drive 8 (which consists of a heavy electric motor), the driving power is transmitted by means of a continuous, rotatably supported drive shaft 10 and detached bevel gears on both sides (bevel gear steps) 11 and a one-step spur gear 12 on each cardan shaft 6 and 7.
In contrast to the installation of the rotary drive 8 below the mill floor level 2 on a foundation 13 built at a low level, the adjustment drives 14 and 15 are arranged on both sides of the vertical rolls 3, 4 above the mill floor level 2,
Between the paired adjustment drives 14 and 15 on both sides, hydraulically actuated piston-cylinder units 16 and 17 for roll crossheads 18, 19 are mounted in the columns 20 of the rolling stand.

Deflector plates 24 and 25 are mounted on receivers 22 and 23 for the heads of the cardan shafts 6, 7 and move together with the rolls 3, 4 when the rolls are adjusted. The pair of deflector plates 24, 25 forms a first, vertical shaft 26 or two adjacent partial shafts 26a and 2.6b.
A second shaft 27 is formed between the stationary spur gears 12 of the cardan shaft 6, 7. In consists of stationary deflector plates 27a, 27b.
The stationary deflector plates 27a, 27b form a trapezoidal or conical inlet 28 that follows and is directly opposite the movable deflector plates 24, 25.
A trough-like collecting pit 29 is formed in the foundation below the second shaft 27 for carrying away the collected dirt, scale, wastewater and the like.

TRANSLATION (HM-655PCT — amended pages):
Printed: 12/30/04 iH|
111111111
List of Reference Numbers
1 direct deformation zone
2 mill floor level
3 roll
4 roll
5 center axis
6 cardan shaft
7 cardan shaft
8 rotary drive motor
9 stationary transmission
10 drive shaft
11 bevel gear
12 spur gear (spur gear step)
13 foundation
14 adjustment drive
15 adjustment drive
16 piston-cylinder unit
17 piston-cylinder unit
18 roll crosshead

19 roll crosshead
20 roll column 21

22 receiver for the head of a cardan shaft
23 receiver for the head of a cardan shaft
24 movable deflector plate
25 movable deflector plate
26 first shaft
2 6a partial shaft
26b partial shaft

4
TRANSLATION (HM-655PCT -- amended claims):
Printed: 12/30/04 HH
EP0402373
CLAIMS
1. Edging mill for hot operation, with a pair of rolls (3; 4), which are arranged with their center axes (5) vertical, can be adjusted relative to each other, and are connected to a rotary drive (8) by means of cardan shafts (6, 7), characterized by stationary installation of the rotary drive motor (8) for the two rolls (3, 4) below the mill floor level (2) and by drive connection of the rotary drive motor (8) with each stationary transmission (9) and of each stationary transmission (9) with its cardan shaft (6; 7).
2. Edging mill in accordance with Claim 1, characterized by the fact that the rotary drive motor (8) is connected to each cardan shaft (6, 7) by means of a continuous drive shaft (10) with detached bevel gears on both sides (11) and spur gears
(12) .
3. Edging mill in accordance with Claim 1 or Claim 2,
characterized by the fact that the adjustment drives (14, 15)
are installed on both sides of the vertical rolls (3, 4) above
the mill floor level (2).

4. Edging mill in accordance with any of Claims 1 to 3,
characterized by the fact that deflector plates (24, 25) are
mounted on the receivers (22, 23) for the heads of the cardan
shafts (6, 7) and can be moved together with the rolls (3, 4).
5. Edging mill in accordance with Claim 4, characterized
by the fact that the movable deflector plates (24, 25) form an
essentially vertical, first shaft (26).
6. Edging mill in accordance with Claims 4 and 5,
characterized by the fact that a second shaft (27) that follows
the first shaft (26) is formed between the stationary spur gears
(12) of the cardan shafts (6, 7) by stationary deflector plates
(27a, 27b).
7. Edging mill in accordance with any of Claims 4 to 6,
characterized by the fact that the stationary deflector plates
(27a, 27b) form a trapezoidal or conical inlet (28) that follows
and is directly opposite the movable deflector plates (24, 25) .
8. Edging mill in accordance with any of Claims 4 to 7,
characterized by the fact that a trough-like collecting pit (29)
is formed below the second shaft (27) for carrying away dirt,
scale, wastewater, and the like.

Documents:

2709-chenp-2005 abstract duplicate.pdf

2709-chenp-2005 claims duplicate.pdf

2709-chenp-2005 description (complete) duplicate.pdf

2709-chenp-2005 drawing duplicate.pdf

2709-chenp-2005-abstract.pdf

2709-chenp-2005-claims.pdf

2709-chenp-2005-correspondnece-others.pdf

2709-chenp-2005-correspondnece-po.pdf

2709-chenp-2005-description(complete).pdf

2709-chenp-2005-drawings.pdf

2709-chenp-2005-form 1.pdf

2709-chenp-2005-form 18.pdf

2709-chenp-2005-form 3.pdf

2709-chenp-2005-form 5.pdf

2709-chenp-2005-pct.pdf

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Patent Number

224509

Indian Patent Application Number

2709/CHENP/2005

PG Journal Number

49/2008

Publication Date

05-Dec-2008

Grant Date

16-Oct-2008

Date of Filing

20-Oct-2005

Name of Patentee

SMS DEMAG AG

Applicant Address

EDWARD-SCHLOEMANN-STRASSE 4, 40237 DUSSELDORF,

Inventors:

#	Inventor's Name	Inventor's Address
1	HABERMANN, ANDREAS	JOSEF-HOMMEN-STRASSE 11, 52428 JULICH,
2	ZIESER, BERND	PAPELWEG 8, 57250 NETPHEN,
3	ARTEL, GERHARD	AUF DEM KAMP 14, 57339 KIRCHHUNDEM,

PCT International Classification Number

B21B13/06

PCT International Application Number

PCT/EP04/02573

PCT International Filing date

2004-03-12

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	103 12 940.5	2003-03-23	Germany