奥地利专利AT514625A1 Chilled strand guide roller

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专利摘要:
The invention relates to a strand guide roller (30) with the Wasserleitmantel (1) for guiding a steel strand in a continuous casting machine and a method for cooling the Strandführungsralle (30) by a cooling medium. The object of the invention is to present a particularly robust cooled strand guide roller (30). This object is achieved by a strand guide bar (30), comprising a left (10a) and a right bearing block (10b); - A stationary axle (11) having a left (13 a) and a right bearing (13 b), wherein the stationary axle (11) with the left (10 a) and with the right bearing block (10 b) is rigidly connected; a cylindrical roller casing (12), the rotatable roller casing (12) being rotatably supported by the left and right bearings (13a, 13b) relative to the stationary axle (11); and a water guide casing (1) according to one of the preceding claims, comprising cooling water from a cavity (14) between the axis (11) and the water guide casing (1) in the axial (x) and tangential direction (t) between the water guide casing (11). 1) and the roller shell (12) can conduct.
公开号:AT514625A1
申请号:T590/2013
申请日:2013-07-24
公开日:2015-02-15
发明作者:Mario Ruckerbauer；Reinhard Ing Simon；Alfred Ing Trauner
申请人:Siemens Vai Metals Tech Gmbh；
IPC主号:

专利说明:

description
Chilled strand guide roller of engineering
The present invention relates to a Wasserleitmantel, a strand guide roller for guiding a steel strand in a continuous casting machine with the Wasserleitmantel, and a method for cooling a strand guide roller in a continuous casting by a cooling medium.
State of the art
From WO 2001/065040 Al a cooled strand guide roller is known in which a cooling medium first cools a bearing in a left bearing block, the cooling medium flows from the left bearing block through the roller to the right bearing block, and there again a bearing cools. A disadvantage of the known strand guide roller that the cooling medium has to be introduced from a bearing block in each case via a rigid or flexible connecting piece and a rotary feedthrough in the role or on the opposite side again. This restricts the robustness of the roll.
How the design can be simplified, so that can be dispensed with in particular sensitive rotary unions, is not apparent from the Scriptures.
Summary of the invention
The object of the invention is to provide a cooled strand guide roller for guiding a steel strand in a continuous casting machine, which is characterized by a particularly simple design and is particularly robust or störungsunanfällig. As a result, the term of the strand guide roller to be extended even in harsh conditions in the continuous casting machine.
Another object of the invention is to provide a method for cooling a strand guide roll in a continuous casting machine, in which the cooling medium cools the two bearing blocks, and the cooling medium cools the bearings and the cylindrical roller shell of the roll on the way between the two bearing blocks. As a result, a so-called "peripherally cooled " Strand guiding role created, which is due to the high compactness and reliability for billet, bloom and profile continuous casting machines. As a result, craze-sensitive grades can be cast into long products on a continuous casting machine.
In order to achieve the first-mentioned object, a water-conducting jacket is proposed for guiding cooling water along a cylindrical roller jacket in the axial and tangential direction, comprising: a cylindrical tube whose wall thickness is < the longitudinal extent of the cylindrical tube is; - Several tangential outer webs extending on the outer circumferential surface of the tube in each case in a tangential direction over the longitudinal extent of the tube; and - an axial outer web extending on the outer surface of the tube in the axial direction over the longitudinal extent of the tube, wherein each tangential outer web alternately has a passage opening for the cooling water in the axial direction right or left side of the axial outer web.
By the Wasserleitmantel invention, a cooling medium is introduced from a cavity between the Wasserleitmantel and a stationary axis in a longitudinal space between the roll shell and the Wasserleitmantel and performed in the longitudinal space in both the axial and tangential direction. As a result, a particularly uniform distribution of the surface temperature of the roll shell is achieved.
The solution of the former object can also be achieved by a Wasserleitmantel for guiding cooling water along a cylindrical roller shell in the axial and tangential direction, comprising: - a cylindrical tube whose wall thickness < the longitudinal extent of the cylindrical tube is; - At least one spiral-shaped outer web which extends on the outer circumferential surface of the tube at least once spirally around the longitudinal extent of the tube.
In this variant of the water-conducting jacket, the cooling medium is guided through at least one, possibly a plurality of spiral-shaped outer web in the tangential and axial direction along the roll shell, whereby likewise sets a very uniform distribution of the surface temperature on the roll shell.
It is particularly expedient if the Wasserleitmantel has at least one, preferably two or more, inner web, which extends from the inner circumferential surface of the tube in the radial direction. This creates a so-called "hydraulic short circuit". between two cavities located respectively between the left end portion of the axle and the roller casing and the right end portion of the axle and the roller casing. Thereby, the cooling medium is forced to flow from the first cavity along the cylindrical roller shell to the second cavity, whereby a high heat dissipation is ensured by the cast product.
In particular, in the first variant of the Wasserleitmantels with axial outer web, it is advantageous if the tube, the axial and the tangential outer web, and the inner web are made of sheet metal. In terms of manufacturing, it is expedient for the tube to be connected in each case to the axial and the tangential outer web and the inner web via a joint connection.
The first object is also achieved by a strand guide roller for guiding a steel strand in a continuous casting machine, comprising: a left and a right bearing block; - A stationary axle with a left and a right bearing, the stationary axle is connected torsionally rigid with the left and right bearing block; - A cylindrical roller shell, wherein the rotatable roller shell is rotatably supported via the left and right bearings relative to the stationary axis; and - a Wasserleitmantel invention, which can guide cooling water from a cavity between the axis and the Wasserleitmantel in the axial and radial direction between the Wasserleitmantel and the roller shell.
Due to the design of the strand guide roller with a stationary axle, which is torsionally rigidly connected to both the left and the right bearing block, a particularly smooth-running role is created with a low moment of inertia. As a result, the contact between the lateral surface of the roller and the cast strand can be reliably maintained even under transient casting conditions. The torsionally rigid connection can be made, for example, in a form-fitting manner (by a feather key) or non-positively (for example by means of a shrink fit, interference fit connection or by friction).
It is advantageous if the left and the right bearing block each have a bore for receiving the stationary axle, wherein the bearing block has at least one, preferably closed, cavity in the tangential direction around the bore. Through the cavity in the bearing block, which is flowed around by the cooling medium, both the bearing block itself and the seals for the sealing are cooled to the outside.
For the introduction of the cooling medium from the bearing block in the axis, it is expedient if the cavity in the bearing block has a substantially radial stub for feeding the cooling water from the bearing block in the axis. Although a radial spur line has the shortest length, it is not necessary for the spur line to be arranged exactly radially.
It is advantageous if each half of the stationary axle has in the longitudinal direction a separate axial line for conducting the cooling medium and a radial branch line connected thereto into a cavity.
A simple fluid-tight seal of a bearing against the cavity may e.g. by a so-called Prelonring (see, for example, WO 2011/117383 Al for the execution of seals in strand guide rollers with Prelonringen), by sealing rings or by rotary seals such as slip rings.
The sealing of the bearing relative to the environment can be done, for example, by radial shaft seals and / or labyrinth seals. Of course, other variants for the sealing of bearings are also known to the person skilled in the art.
The second object is achieved by a method for cooling a strand guide roller in a continuous casting machine by a cooling medium, wherein the strand guide roller - a left and a right bracket with a left and a right bearing; - a stationary axle; a cylindrical roller casing, the rotatable roller casing being rotatably supported via the left and right bearings relative to the stationary axle; comprising, comprising the following method steps: - Flow around the stationary axle within the left bearing block by the cooling medium; then - inlet of the cooling medium from the left bearing block into the stationary axis; - Flowing through a first axial line of the stationary axis; - Entry into a cavity of the strand guide roller; - Flow around the cavity, wherein the left and right bearings are cooled; - Flowing through a second axial line of the stationary axis; - entry of the cooling medium from the stationary axle into the right bearing block; - Flow of the stationary axle within the right bearing block through the cooling medium.
By the, preferably in the circumferential direction complete, flow around the stationary axle within the left and right bearing block of the respective bearing block is cooled.
By flowing around the cavity and the two bearings are cooled on the axis and the roller shell.
In order to avoid the above-mentioned hydraulic short circuit, it is advantageous if the cavity in the axial direction into a left and a right cavity is divided into two, the cooling medium from the left cavity in a longitudinal space between a Wasserleitmantel (1) and the roller shell once romt ; the cooling medium flows through the longitudinal space in the axial direction; and then the cooling medium from the longitudinal space flows into the right cavity.
As a result, a so-called peripherally cooled strand guiding roller is formed.
To achieve a particularly uniform surface temperature on the roller shell, it is advantageous if the cooling medium in flowing through the longitudinal space in addition to the axial movement performs a tangential movement about the stationary axis.
Brief description of the drawings
Further advantages and features of the present invention will become apparent from the following description of non-limiting embodiments, wherein the figures show:
1 is a perspective view of a fiction, contemporary strand guide roller
2 is a right side view of the strand guide roller according to FIG. 1
3 shows a view from the right of a variant of
Strand guide roller according to FIG
4 shows a sectional view along the lines A-A of FIG. 2
5 shows a perspective view of a first variant of a water-conducting jacket according to the invention
6 is a perspective view of a second Va variant of the invention Wasserleitmantels
7 shows a longitudinal section to FIG. 6. FIG
Description of the embodiments
1 shows a perspective view of a non-driven strand guide roller 30 according to the invention for supporting and guiding a steel strand with billet or billet profile in a continuous casting machine. The steel strand, not shown, is supported on the cylindrical surface of the rotatable roller shell 12, wherein the roller casing 12 is rotatably supported on the stationary axle 11 via bearings 13a, 13b (see FIG. 4) not shown in FIG.
FIG. 2 shows a side view of the strand guide roller 30 from FIG. Each bearing block 10 a, 10 b can via eccentric holes and not shown fastening means such as screws with e.g. be connected to a segment of the strand guide.
3 shows schematically a right bearing block 10b and the flow of the bearing block through a cooling medium (for example water). In this case, the cooling water, as shown by the lower arrow, from below into the bearing block 10b and flows in a vertical direction upwards. Subsequently, the cooling water is deflected four times by 90 °, so that the cooling water in a closed cavity 14, the stationary axle 11 can flow completely around. As a result, a uniform cooling of the axle 11 and the roller mantle 12 connected to the axle is ensured. The cooling water can enter from the cavity 14 via a radial stub 15 in an axial line 22 within the axis 11. In addition, grease or oil may be introduced via the grease bore 21 'for lubricating the bearing 13b. Via the drainage holes 24, which is arranged in the sealed area between the grease- or oil-filled storage space and the water-filled cavity 14,14a, 14b, both water or fat / oil or water can be transported over the stil1achse 11 in the non-pressurized environment. This allows an operator from the outside immediately check the operability of the strand guide roller 30 without having to engage in the role.
In Fig 4 it is shown that the cooling water from the stub 15 via an axial line 22 and a radial bore in a cavity 14, 14 a, which is bounded by the stationary shaft 11, the rotatable bearing housing 23, and the Wasserleitmantel 1, can occur , Through the cavity 14a, which is connected to the longitudinal space 16 between the Wasserleitmantel 16 and the inner circumferential surface of the roll mantle 12, the preload seal 17 and the bearing 13a is cooled. The preload seal has on its inner lateral surface three dynamic sealing elements (concretely sliding rings) and on its outer lateral surface two static sealing elements (here O-rings). In operation, the co-rotating supports
Prelon seal (also called Prelonring) 17 on the stationary axle 11 ab. In order to prevent contamination of the bearings 13a, 13b, the bearing 13a is sealed relative to the bearing block 10a via a labyrinth seal 19 and a radial shaft sealing ring 18. The same applies to the right bearing 13b in the bearing block 10b. The Wasserleitmantel 1 shown in more detail in Figure 6 has the following functions: On the one hand, a hydraulic short circuit between the left cavity 14a and the right cavity 14b is prevented. As a result, the cooling water is forced to flow from the left cavity 14a via the longitudinal space 16 to the right cavity 14b. By flowing through the longitudinal space 16 in the axial and tangential direction, a uniform surface temperature of the roller shell 12 and the steel strand resting thereon is achieved. The stationary axle 11 is non-positively connected to a bearing block 10a, 10b. The bearing housing 23 is connected via a tight weld with the roller shell 12.
5 shows a first variant of the water jacket 1 is shown. The Wasserleitmantel has a thin-walled cylindrical tube 2 made of sheet metal, an axial outer web 6 extending in the axial direction x over the length of the tube 2, and a plurality of axially successively arranged tangential outer webs 5. To the cooling water in the longitudinal space between to force the Wasserleitmantel 1 and the roller shell, the Leitmantel also comprises on the inner circumferential surface of the tube 2 at least one, here two, inner webs 9. Thus, the inside of the roll mantle 12 is cooled by the cooling water in the direction shown by the arrows.
FIG. 6 shows a second variant of the water-conducting jacket 1. In this case, the cooling water spirals around the water-conducting jacket 1 or the inner surface of the roll jacket 12.
FIG. 7 shows a longitudinal section through the water-conducting jacket 1 from FIGS. 4 and 6. The spiral-shaped outer web 8 and the inner webs 9 are welded to the tube 2.
While the invention has been further illustrated and described in detail by the preferred embodiments, the invention is not limited by the disclosed examples, and other variations can be derived therefrom by those skilled in the art without departing from the scope of the invention.
REFERENCE SIGNS LIST 1 Wasserleitmantel 2 pipe 3 wall thickness 4 longitudinal extent 5 tangential outer web 6 axial outer web 7 passage opening 8 spiral outer web 9 inner web 10a, 10b bearing block 11 axis 12 roller shell 13a, 13b bearing 14,14a, 14 cavity 15 stub 16 longitudinal space 17 Prelonring 18 radial shaft seal 19 labyrinth seal 20 circumferential groove 21 bore 21 'grease bore 22 axial line 23 bearing housing 24 drainage bore 30 strand guide roller r radial direction t tangential direction x axial direction

权利要求:
Claims (12)
[1]
Claims 1. Wasserleitmantel (1) for guiding cooling water along the inner circumferential surface of a cylindrical roller shell (12) of a strand guide roller (30) in the axial (x) and tangential direction (t), comprising - a cylindrical tube (2) whose wall thickness ( 3) < the longitudinal extent (4) of the cylindrical tube (2) is; - Several tangential outer webs (5) extending on the outer circumferential surface of the tube (2) each in the tangential direction (t) over the longitudinal extent (4) of the tube (2) extend; - an axial outer web (6) extending on the outer surface of the tube (2) in the axial direction (x) over the longitudinal extent (4) of the tube (2), each tangential outer web (5) alternately a passage opening (7 ) for the cooling water in the axial direction (x) seen right or left side of the axial outer web (6).
[2]
2. Wasserleitmantel (1) for guiding cooling water along a cylindrical roller shell (12) in the axial (x) and tangential direction (t), comprising - a cylindrical tube (2), wherein the wall thickness (3) < the longitudinal extent (4) of the cylindrical tube (2) is; - At least one spiral-shaped outer web (8) which extends on the outer circumferential surface of the tube (2) at least once spirally around the longitudinal extension (4) of the tube (2) only.
[3]
3. Wasserleitmantel according to one of the preceding claims, comprising at least one, preferably two, inner web (9) extending from the inner circumferential surface of the tube (2) in the radial direction (r).
[4]
4. strand guide roller (30) for guiding a steel strand in a continuous casting machine, comprising - a left (10 a) and a right bearing block (10 b); - A stationary axle (11) having a left (13 a) and a right bearing (13 b), wherein the stationary axle (11) with the left (10 a) and with the right bearing block (10 b) is rigidly connected; - A cylindrical roller shell (12), wherein the rotatable roller shell (12) via the left and right bearings (13a, 13b) relative to the stationary axle (11) is rotatably mounted; and - a Wasserleitmantel (1), preferably according to one of the preceding claims, the cooling water from a cavity (14) between the axis (11) and the Wasserleitmantel (1) in the axial (x) and tangential direction (t) between the Wasserleitmantel ( 1) and the roller shell (12) can conduct.
[5]
5. strand guide roller according to claim 4, wherein the left (10 a) and / or the right bearing block (10 b) each have a bore (21) for receiving the stationary axle (12), characterized in that the bearing block (10 a, 10 b) at least a, preferably closed, hollow space (14) in the tangential direction (t) around the bore (21).
[6]
6. strand guide roller according to claim 5, characterized in that the cavity (14) in the bearing block (10 a, 10 b) has a substantially radial (r) stub (15) for guiding the cooling water from the bearing block (10 a, 10 b) in the axis (12 ) having .
[7]
7. strand guide roller according to one of claims 4 to 6, characterized in that each half of the stationary axis (11) has an axial line (22) for conducting cooling medium and an associated, substantially radially extending stub (15) in a Has cavity.
[8]
8. strand guide roller according to claim 4, characterized in that the left and / or the right bearing (13a, 13b) relative to the cavity (14a, 14b) in each case via a Prelonring (17) is sealed fluid-tight.
[9]
9. strand guide roller according to one of claims 4 to 8, characterized in that the stationary axis (11) has a drainage hole (24), which connects the environment with a sealed area.
[10]
A method of cooling a strand guide roll (30) in a continuous casting machine by a cooling medium, wherein the strand guide roll (30) comprises left (10a) and right bearing blocks (10b) having left (13a) and right (13b) bearings; - a stationary axle (11); - A cylindrical roller shell (12), wherein the rotatable roller shell (12) via the left and right bearings (13a, 13b) relative to the stationary axis (11) is rotatably mounted; comprising, comprising the following method steps: - flowing around the stationary axle (11) within the left bearing block (10a) by the cooling medium; then - entry of the cooling medium from the left bearing block (10a) in the stationary axis (11); - Flowing through a first axial line (22) of the stationary axle (11); - Entry into a cavity (14) within the strand guide roller (30); - flowing around the cavity (14), wherein the left and right bearings (13a, 13b) are cooled; - flowing through a second axial line (22) of the stationary axle (11); - Entry of the cooling medium from the st ill standing axis (11) in the right bearing block (10b); - Flow around the stationary axle (11) within the right bearing block (10b) by the cooling medium.
[11]
11. The method according to claim 10, characterized in that the cavity (14) in the axial direction (x) in a left (14a) and a right cavity (14b) is divided into two, wherein the cooling medium from the left cavity (14a) into a longitudinal space (16) flows between a Wasserleitmantel (1) and the roller shell (12); the cooling medium in the axial direction (x) flows through the longitudinal space (16); and then the cooling medium flows from the longitudinal space (16) into the right-hand cavity (14b).
[12]
12. The method according to claim 11, characterized in that the cooling medium when flowing through the longitudinal space (16) additionally performs a tangential movement (r) about the stationary axis (11).

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同族专利:

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EP3024611B2|2020-05-06|

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RU2633166C2|2017-10-11|

RU2016105761A|2017-08-29|

ES2650315T3|2018-01-17|

UA114853C2|2017-08-10|

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AT514625B1|2018-07-15|

CN105592958A|2016-05-18|

KR101701313B1|2017-02-01|

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引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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AT509688B1|2010-03-26|2012-02-15|Siemens Vai Metals Tech Gmbh|STORAGE AND INTRODUCTION FOR A COOLED ROLL|AT517521B1|2015-07-27|2019-08-15|Primetals Technologies Austria GmbH|Leading a metallic strand in a continuous casting plant|

EP3405302A1|2016-01-21|2018-11-28|Primetals Technologies Austria GmbH|Strand guiding roller for guiding a metal strand in a continuous casting facility|

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KR102142764B1|2018-08-22|2020-08-10|주식회사 포스코|Treating apparatus for melting material, heat recovering apparatus and generating system having thereof|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

ATA590/2013A|AT514625B1|2013-07-24|2013-07-24|Chilled strand guide roller|ATA590/2013A| AT514625B1|2013-07-24|2013-07-24|Chilled strand guide roller|

UAA201600476A| UA114853C2|2013-07-24|2014-07-22|Cooled strand guide roller|

CN201480042042.XA| CN105592958B|2013-07-24|2014-07-22|The twisted wire deflector roll of cooling|

PCT/EP2014/065741| WO2015011149A2|2013-07-24|2014-07-22|Cooled strand guide roller|

EP14747330.0A| EP3024611B2|2013-07-24|2014-07-22|Cooled strand guide roller|

ES14747330.0T| ES2650315T3|2013-07-24|2014-07-22|Refrigerated bar guide roller|

KR1020167004684A| KR101701313B1|2013-07-24|2014-07-22|Cooled strand guide roller|

RU2016105761A| RU2633166C2|2013-07-24|2014-07-22|Cooled roller of rolled wire|

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