公开(公告)号：US20200047230A1

公开(公告)日：2020-02-13

申请号：US16607399

申请日：2018-03-14

Applicant: Primetals Technologies Austria GmbH

Inventor： Erich OPITZ ,  Lukas PICHLER ,  Alois SEILINGER

IPC: B21B45/02

Abstract: A cooling bar (1) for cooling rolled material (5) being moved in a transport direction (3) and in particular for reducing temperature differences in the temperature of the rolled material (5) transversely to the direction of transport (3). The cooling bar (1) has several full jet nozzles (11) by means of which a coolant beam of a coolant with an approximately constant jet diameter can be distributed to the rolling stock (5) in the direction of distribution (15). A cooling device has at least two cooling bars (1) of that type. The cooling bars extend transversely to a transport direction, one behind the other. Each cooling bar has a respective different pattern of jet nozzles and selection of applicable pattern of jet nozzles in their respective bars selectively cools the rolled material transversely to the transport direction.

公开(公告)号：US20220226873A1

公开(公告)日：2022-07-21

申请号：US17716000

申请日：2022-04-08

Applicant: Primetals Technologies Austria GmbH

Inventor： Erich OPITZ ,  Lukas PICHLER ,  Alois SEILINGER

IPC: B21B45/02

Abstract: A cooling bar (1) for cooling rolled material (5) being moved in a transport direction (3) and in particular for reducing temperature differences in the temperature of the rolled material (5) transversely to the direction of transport (3). The cooling bar (1) has several full jet nozzles (11) by means of which a coolant beam of a coolant with an approximately constant jet diameter can be distributed to the rolling stock (5) in the direction of distribution (15). A cooling device has at least two cooling bars (1) of that type. The cooling bars extend transversely to a transport direction, one behind the other. Each cooling bar has a respective different pattern of jet nozzles and selection of applicable pattern of jet nozzles in their respective bars selectively cools the rolled material transversely to the transport direction.

公开(公告)号：US20180345343A1

公开(公告)日：2018-12-06

申请号：US16059125

申请日：2018-08-09

Applicant: PRIMETALS TECHNOLOGIES AUSTRIA GMBH

Inventor： Jian CHEN ,  Sieglinder EHGARTNER ,  Reinhard KARL ,  Erich OPITZ ,  Florian POESCHL ,  Alois SEILINGER ,  Thomas TRICKL

IPC: B21B45/02 ,  B21B37/74

CPC classification number: B21B45/0215 ,  B21B1/22 ,  B21B37/74 ,  B21B45/0218

Abstract: A cooling section for flat rolling stock has a working region, through which the flat rolling stock is guided. The working region can be supplied with a liquid coolant by means of a number of spray beams. The liquid coolant is fed from a reservoir for the liquid coolant to the spray beams by means of a pump and a supply system. Valves are arranged upstream of the spray beams in the supply system. Opening positions of the valves are set by a control unit of the cooling section according to a respective sub-flow that is to be applied to the flat rolling stock by means of each spray beam. Also, the delivery rate of the pump and/or a line pressure generated by the pump in the supply system are set by the control unit according to the total flow that is to be applied to the flat rolling stock by means of all the spray beams.

公开(公告)号：US20200298295A1

公开(公告)日：2020-09-24

申请号：US16893020

申请日：2020-06-04

Applicant: PRIMETALS TECHNOLOGIES AUSTRIA GMBH

Inventor： Jian CHEN ,  Sieglinde EHGARTNER ,  Reinhard KARL ,  Erich OPITZ ,  Florian POESCHL ,  Alois SEILINGER ,  Thomas TRICKL

IPC: B21B45/02 ,  C21D1/667

Abstract: To cool a metal strip (1), liquid coolant (5) is supplied to the strip by a supply device (9) from a feed line (10). A valve (13) in the feed line (10) sets the valve (13) to a respective opening position (s) for adjusting the coolant flow (F) to the metal strip (1) per unit of time. An upstream condition detection device (14) upstream of the valve device (13) in the feed line (10) detects an upstream condition (ZV) of the coolant (5). A control unit (6) determines a set point (s*) for an opening position (s) of the valve device (13) corresponding to the set point (F*) for the coolant flow (F) based on a set point (F*) for the coolant flow (F*), the upstream condition (ZV) of the coolant (5) and a valve characteristic (C) of the valve device (13). The valve characteristic (C) follows a characteristic curve (K) of the coolant flow (F) as a function of the opening position (s) of the valve device (13), relative to a reference condition (ZR) of the coolant (5) upstream of the valve device (13) in the feed line (10). The control unit (6) sets the opening position (s) of the valve device (13) according to the set point (s*) that has been determined.

公开(公告)号：US20190308233A1

公开(公告)日：2019-10-10

申请号：US16340410

申请日：2017-10-12

Applicant: Primetals Technologies Austria GmbH

Inventor： Erich OPITZ ,  Lukas PICHLER ,  Alois SEILINGER

IPC: B21B27/10

Abstract: A cooling device (7) for cooling a roll (5) of a roll stand (1). The cooling device (7) includes a chilled beam (13) for receiving and discharging a coolant. The chilled beam (13) has multiple full jet nozzles (21) disposed on a discharge side (19) of the chilled beam (13), the side facing the roll (5) and extending parallel to a roll axis (17) of the roll (5). Through each of the full-jet nozzles, a jet of coolant having a nearly constant jet diameter can be sprayed from the chilled beam (13) towards the roll (5) in a discharge direction (23).

公开(公告)号：US20160008861A1

公开(公告)日：2016-01-14

申请号：US14768076

申请日：2014-02-07

Applicant: PRIMETALS TECHNOLOGIES AUSTRIA GMBH

Inventor： Jian CHEN ,  Sieglinde EHGARTNER ,  Reinhard KARL ,  Erich OPITZ ,  Florian POESCHL ,  Alois SEILINGER ,  Thomas TRICKL

IPC: B21B45/02 ,  C21D1/667

CPC classification number: B21B45/0218 ,  C21D1/667

Abstract: To cool a metal strip (1), liquid coolant (5) is supplied to the strip by a supply device (9) from a feed line (10). A valve (13) in the feed line (10) sets the valve (13) to a respective opening position (s) for adjusting the coolant flow (F) to the metal strip (1) per unit of time. An upstream condition detection device (14) upstream of the valve device (13) in the feed line (10) detects an upstream condition (ZV) of the coolant (5). A control unit (6) determines a set point (s*) for an opening position (s) of the valve device (13) corresponding to the set point (F*) for the coolant flow (F) based on a set point (F*) for the coolant flow (F*), the upstream condition (ZV) of the coolant (5) and a valve characteristic (C) of the valve device (13). The valve characteristic (C) follows a characteristic curve (K) of the coolant flow (F) as a function of the opening position (s) of the valve device (13), relative to a reference condition (ZR) of the coolant (5) upstream of the valve device (13) in the feed line (10). The control unit (6) sets the opening position (s) of the valve device (13) according to the set point (s*) that has been determined.

Abstract translation: 为了冷却金属条（1），液体冷却剂（5）通过供给装置（9）从进料管线（10）供应到条带。 供给管线（10）中的阀（13）将阀（13）设定为相应的打开位置，用于每单位时间调节金属带（1）的冷却剂流量（F）。 在进料管线（10）中阀装置（13）上游的上游状态检测装置（14）检测冷却剂（5）的上游状态（ZV）。 控制单元（6）基于设定点（F）确定对应于冷却剂流（F）的设定点（F *）的阀装置（13）的打开位置的设定点（s *） F *），冷却剂（5）的上游条件（ZV）和阀装置（13）的阀门特性（C）之间的关系。 阀特性（C）相对于冷却剂的参考条件（ZR），遵循作为阀装置（13）的打开位置的函数的冷却剂流（F）的特性曲线（K） 5）在进料管线（10）中的阀装置（13）的上游。 控制单元（6）根据已经确定的设定点（s *）设定阀装置（13）的打开位置。

公开(公告)号：US20200331046A1

公开(公告)日：2020-10-22

申请号：US16463432

申请日：2017-11-28

Applicant: Primetals Technologies Austria GmbH ,  Primetals Technologies Germany GmbH

Inventor： Christian LEHNER ,  Erich OPITZ ,  Lukas PICHLER ,  Florian POESCHL ,  Alois SEILINGER ,  Klaus WEINZIERL

IPC: B21B45/02 ,  C21D1/00 ,  B21B37/74

Abstract: A cooling system (2) for cooling metal rolling stock. A plurality of cooling bars (8) for applying a coolant onto the rolling stock, one dedicated coolant supply line (36) for each cooling bar (8), and a feed system (9) for guiding the coolant to the coolant supply lines (36). Each cooling bar (8) is connected to the feed system (9) via a dedicated coolant supply line (36). A bypass line (48, 52) for discharging a coolant flow from the feed system (9), is connected on the input side to a connection element (51, 53) of the feed system (9).

公开(公告)号：US20190240709A1

公开(公告)日：2019-08-08

申请号：US16320542

申请日：2017-07-13

Applicant: Primetals Technologies Austria GmbH

Inventor： Paul Felix DOLLHÄUBL ,  Gregor GERSTORFER ,  Erich OPITZ

IPC: B21B27/10

CPC classification number: B21B27/10 ,  B21B2027/103

Abstract: A stripping device (7) for a roll stand (1) includes a stripper carrier (15) and a stripper (17) arranged on the stripper carrier (15). The stripper (17) has a main body (19) produced from a fiber-plastic composite. The main body has a main body bottom side (23), which contacts the stripper carrier (15). A felt layer (21) is arranged on a main body top side (25) of the main body (19) which is opposite the main body bottom side (23).

公开(公告)号：US20160052034A1

公开(公告)日：2016-02-25

申请号：US14779575

申请日：2014-02-19

Applicant: PRIMETALS TECHNOLOGIES AUSTRIA GMBH

Inventor： Jian CHEN ,  Sieglinde EHGARTNER ,  Reinhard KARL ,  Erich OPITZ ,  Florian POESCHL ,  Alois SEILINGER ,  Thomas TRICKL

IPC: B21B45/02

CPC classification number: B21B45/0218 ,  B21B39/12 ,  B21B45/0233

Abstract: A cooling section for a flat rolled material (1) has a frame structure (2), in which a plurality of transport rollers (3) for the flat rolled material (1) are arranged one after another transversely to a transport direction (x) and spaced apart (a). Each transport roller (3) mounted in the frame structure (2) rotates about a respective roller axis (4). The roller axes (4) run orthogonally to the transport direction (x) and horizontally, so that the transport rollers (4) form a pass line (5) for the flat rolled material (1). At least one lower spray bar (6) arranged beneath the pass line (5) has a base block (7) beneath the transport rollers (3) for a liquid coolant (8). Guide sections (9) project upwards from the base block (7) into spaces between the transport rollers (3). Each guide section (9) has an upper terminating element (10) on which spray nozzles (11) are arranged, which feed the coolant (8), which had been fed into the base block (7), to be sprayed onto the flat rolled material (1) from below. The guide sections (9) have a respective length (1) in the transport direction (x) of the flat rolled material (1). That length (1) decreases at least in the vicinity of the respective upper terminating elements (10), in the direction of the respective upper terminating element (10).

Abstract translation: 用于平轧材料（1）的冷却部分具有框架结构（2），其中多个用于平轧材料（1）的输送辊（3）横向于输送方向（x）依次布置， 并间隔开（a）。 安装在框架结构（2）中的每个传送辊（3）围绕相应的辊轴线（4）旋转。 辊轴（4）与输送方向（x）正交地水平运动，使得输送辊（4）形成用于平轧材料（1）的通过线（5）。 布置在通行线（5）下方的至少一个下喷杆（6）在用于液体冷却剂（8）的输送辊（3）下方具有基座（7）。 引导部分（9）从基座（7）向上突出到输送辊（3）之间的空间。 每个引导部分（9）具有上部终端元件（10），喷射喷嘴（11）布置在该上部端部元件（10）上，所述上部终端元件（11）供给已经被供给到基座块（7）中的冷却剂（8） 轧制材料（1）。 引导部分（9）在平轧材料（1）的输送方向（x）上具有相应的长度（1）。 该长度（1）至少在相应的上端接元件（10）附近沿相应的上终端元件（10）的方向减小。

公开(公告)号：US20210245214A1

公开(公告)日：2021-08-12

申请号：US17261205

申请日：2019-07-04

Applicant: Primetals Technologies Austria GmbH

Inventor： Markus FISCHER ,  Erich OPITZ ,  Lukas PICHLER ,  Christoph PROELL ,  Alois SEILINGER

IPC: B21B27/10

Abstract: A roll stand (1) for rolling flat rolling stock (2) includes an upper working roller (3) and a lower working roller (4) that form a roll gap (5) between each other. The flat rolling stock (2) runs through the roll gap (5) in a transport direction (x) during rolling of the flat rolling stock (2). An upper cooling device (8), cools the upper working roller (3) and is arranged on the outlet side of the roll stand (1). The upper cooling device (8) has an upper spray boom (17), which extends parallel to the upper working roller (3) and has a plurality of upper spray nozzles (22), which spray a liquid coolant (12) onto the upper working roller (3). The upper cooling device (8) also has a lower spray boom (18), which extends parallel to the upper working roller (3) and has a plurality of lower spray nozzles (23), which spray the liquid coolant (12) onto the upper working roller (3). The lower spray boom (18) is arranged between the flat rolling stock (2) and the upper spray boom (17). At least some of the upper spray nozzles (22) are flat jet nozzles, and at least some of the lower spray nozzles (23) are full jet nozzles.