RU2011142291A - PISTON TYPE DEVICE FOR LAMINAR COOLING - Google Patents

Abstract

1. A piston-type device for laminar cooling, containing several sets of nozzle blocks, each of which includes a manifold (1) fixed in the laminar cooling device perpendicular to the direction of movement of the steel strip, an inlet water pipe (2) connected to the manifold (1) and communicating with the manifold (1), several nozzles (3), evenly spaced on the manifold (1) in the axial direction and communicating with the manifold (1), characterized in that each set of nozzle blocks contains: two pistons (5), which are located in two end sections of the collector (1), while the piston (5) is mated with the inner surface of the collector (1); and a drive device associated with said two pistons (5) to move them in the opposite direction in the manifold (1), and including a screw having sections with opposite threads, on which two pistons (5) with corresponding internal threads are located, connected to the screw at least one pair of axial guide pins and axial guide grooves, respectively, located on the pistons (5) and the inner walls of the manifold (1), an engine connected to a screw having sections with opposite threads to drive it. 2. A piston-type device for laminar cooling according to claim 1, in which the piston (5) comprises a piston body (51) and at least one stripping layer (52), the outer diameter of which is equal to the outer diameter of the piston body, while the stripping layer ( 52) is attached to the main end surface of the piston housing (51). 3. A piston-type laminar cooling device according to claim 2, wherein the piston body is made

Claims (14)

1. A piston type device for laminar cooling, containing several sets of nozzle blocks, each of which includes a collector (1), mounted in a laminar cooling device perpendicular to the direction of movement of the steel strip, an inlet water pipe (2) connected to the collector (1) and communicating with the manifold (1), several nozzles (3), evenly located on the manifold (1) in the axial direction and communicating with the collector (1), characterized in that each set of nozzle blocks contains : two pistons (5), which are located in the two end sections of the collector (1), while the piston (5) is mated to the inner surface of the collector (1); and a drive device associated with these two pistons (5) for moving them in the opposite direction in the manifold (1), and including a screw having portions with opposite threads on which there are two pistons (5) with a corresponding internal thread, connected with the screw, at least one pair of axial guide keys and axial guide grooves, respectively, is located on the pistons (5) and the inner walls collector (1), an engine associated with a screw having portions with opposite threads to drive it. 2. The piston type device for laminar cooling according to claim 1, in which the piston (5) comprises a piston body (51) and at least one cleaning layer (52), the outer diameter of which is equal to the outer diameter of the piston body, while a layer (52) is fixed on the main end surface of the piston body (51). 3. The piston type device for laminar cooling according to claim 2, in which the piston body is made of ultra high molecular weight polyethylene. 4. The piston type device for laminar cooling according to claim 2, in which the stripping layer contains a fibrous substrate having high elasticity, and a metal layer deposited on the outer surface of the substrate. 5. A piston type device for laminar cooling, containing several sets of nozzle blocks, each of which includes a collector (1), mounted in a laminar cooling device perpendicular to the direction of movement of the steel strip, an inlet water pipe (2) connected to the collector (1) and communicating with the manifold (1), several nozzles (3), evenly located on the manifold (1) in the axial direction and communicating with the collector (1), characterized in that each set of nozzle blocks contains : two pistons (5), which are located in the two end sections of the collector (1), while the piston (5) is mated to the inner surface of the collector (1); and a drive device associated with these two pistons (5) for moving them in the opposite direction in the manifold (1), and including two screws (4), on the inner end sections of which, respectively, two pistons (5) are fixed; two motors (10) for driving, respectively, two screws (4). 6. The piston type device for laminar cooling according to claim 5, in which the piston (5) comprises a piston body (51) and at least one stripping layer (52), the outer diameter of which is equal to the outer diameter of the piston body, while a layer (52) is fixed on the main end surface of the piston body (51). 7. The piston type device for laminar cooling according to claim 6, in which the piston body is made of ultra high molecular weight polyethylene. 8. The piston type device for laminar cooling according to claim 6, in which the stripping layer contains a fibrous substrate having high elasticity, and a metal layer deposited on the outer surface of the substrate. 9. The piston type device for laminar cooling according to claim 5, in which each set of nozzle blocks also contains: two flanges (7) located, respectively, at the two ends of the collector (1) and connected by means of a coupling with screws (4), two guiding devices, each guiding device comprising: a guiding groove (81) made in the axial direction on the screw (4), a guiding block (82) installed near the central hole of the flange and interacting with the guiding groove (81) to ensure a linear moving the screw. 10. The piston type device for laminar cooling according to claim 5, in which each set of nozzle blocks also contains: a collector (1) with two flanges (7), which are located, respectively, at the two ends of the collector (1) and are connected by means of a coupling with screws (4); two guiding devices, which are located outside the flanges at the two ends of the collector (1), each of which includes a support fixed near the end section of the collector (1), a guide groove (81), made on the screw (4) in the axial direction, a guide a plate mounted on a support and having a corresponding protrusion (83) on the end surface, which enters the guide groove (81), setting the linear direction of movement of the screw (4). 11. The piston type device for laminar cooling according to claim 9 or 10, in which each set of nozzle blocks also contains: two large gears (9) located, respectively, on the output shafts of the engines (10); two small gears (11), engaging, respectively, with large gears (9), moreover, in the small gears there is a central hole with an internal thread for connecting with screws having an external thread. 12. The piston type device for laminar cooling according to claim 9 or 10, in which each set of nozzle blocks also contains: two large gears (9) located, respectively, on the output shafts of the engines (10); two small gears (11), engaged, respectively, with large gears (9), two nuts (42) fixed, respectively, in the central holes of the two small gears (11), while the nuts are threaded to the corresponding screws. 13. The piston type device for laminar cooling according to item 12, in which the gap between the piston (5) and the manifold (1) is from 0.02 mm to 0.10 mm 14. The piston type device for laminar cooling according to item 13, further comprising: a supply pipe (12) located at right angles to the collectors (1), and connected to them by means of connecting elements; a hydraulic cylinder (6), the rod of which is connected to the supply pipe (12) to move the nozzle blocks to the laminar cooling position.