RU2007238C1 - Strips cooling device - Google Patents

Abstract

FIELD: metallurgy. SUBSTANCE: device has a collector made in the form of a hollow chamber with nozzles, the collector is fastened to an axle and is longitudinally parted by a partition into two water filled volumes. A counterweight is mounted on the outer surface of the collector on the side of an inlet hole. The device has collector rotation limiting stops. The collector is made for rotation up to the stops in a vertical plane around the axle. EFFECT: simplified structure. 1 dwg, 1 tbl

Description

 The invention relates to metallurgy, in particular to rolling production, and can be used for cooling and heat strengthening of rolling steel, for example strip.

 A device for cooling a strip is known, comprising a cylindrical body with a row of holes located along its axis and nozzle nozzles for the expiration of a cooler (US patent N 3452710, CL 118-7, 1969).

 In order to regulate the flow rate of the cooler, individually controlled solenoid valves are mounted in the holes. The disadvantage of this design is its complexity and short service life.

 A device is also known for cooling rolled products, mainly strips, including manifolds with nozzles, a mechanism for regulating the flow of fluid from the collector along the width of the rolled, made for each collector in the form of a rotary shaft equipped with a turning and fixing mechanism (ed. St. N 578137, cl. B 21 B 45/02, 1976).

 The disadvantage of this design is also the complexity of the design.

 The closest in technical essence to the invention is the selected device as a prototype for cooling strip products (ed. St. N 791440, class B 21 V 45/02, 1979), including a water collector with nozzles made in the form of a hollow chamber, installed with the ability to rotate on a transverse horizontal axis mounted on a rack.

 The disadvantages of the prototype can also be attributed to the complexity of the design and short life.

 This drawback is due to the presence in the design of a separate drive that requires preventive maintenance.

 The aim of the invention is to simplify the design and increase the service life by eliminating a separate collector rotation drive.

 To achieve this goal, in a device for cooling strip products, including a water collector made in the form of a hollow chamber with nozzles, mounted to rotate on a transverse horizontal axis mounted on a rack, according to the invention, the collector is provided with a longitudinal partition dividing it into two strips, the working lower and the upper, and the upper cavity is equipped with an autonomous water supply, the collector is equipped with a counterweight mounted on the other side from the axis of its rotation, and the rack is limited Tel'nykh abutment.

 Simplification of the design and increase the service life of the device is achieved by using the gravity of the water to rotate.

 The drawing shows a General view of the inventive device for cooling hire.

 The device for cooling the rolling stock comprises a water collector 1 with nozzles 2 made in the form of a hollow chamber, a partition 3 dividing the collector along the longitudinal axis into two volumes A and B, axis 4, counterweight 5, nozzles for supplying water 6, and a nozzle for draining water 7. On the supporting structure 8, stops 9 are fixed for horizontal (working) and vertical (non-working) positions of the collector and axis. The installation is equipped with valves 10 and 11 for supplying water to the volumes A and B, respectively, with a breather 12 for sucking air into the tank A when water is drained from it.

 The drawing shows a strip 13.

 The device operates as follows. If it is necessary to strip the strip, valve 10 is opened and tank A is filled with water, under the influence of which the movable structure of the device (collector) is lowered to the horizontal working position II. When in this position, the hot strip is cooled by water from the nozzles 2 of the tank B, the water into which flows through the valve 11. To discharge the excess water from the tank A, the pipe 7 and the breather 12 are designed. After the cooling of the strip 12, the flow of water to the volume A is stopped through valve 10, water from volume A is discharged through pipe 7, the collector rises under the action of counterweight 5, occupying the working position I.

 Air is sucked into volume A when water is drained through the breather 12. In this position, the collector is reliably protected from the thermal effects of the hot strip, which generally increases the service life of the device. To select the optimal location of the mounting axis 4 and stops 9, experiments were conducted on the mill "2500" hot rolling.

For the best location of the stops 9 from the point of view of achieving the goal, we varied the angle of rotation of the collector around axis 4. The best option was achieved at an angle of 70-80 ^about

Finding the collector at an angle of less than ⁷⁰ caused quite a strong impact on him a hot strip. Raising the manifold to a vertical or almost vertical position with an angle ^of more than 80 is advantageous because of the frequent mechanical failures caused by very abrupt lowering of the vertical to horizontal position, due to the necessity of increasing the mass of water for its filling to provide start lowering.

 It was also experimentally established the optimal location of the attachment point of the axis 4 to the collector. It is equal to 0.25-0.30 of the length of the collector from the input end.

 When the axis was mounted at a distance of less than 0.25 of the length of the collector from the inlet end, mechanical damage was observed due to a sharp lowering of the collector to the working horizontal position when filling it with water (i.e., the moment created by the counterweight is insufficient for a smooth rotation).

 When the axis was mounted at a distance of more than 0.30 of the length of the collector from the inlet end, there was a significant effect on the collector of the incandescent strip, and in the inactive position, due to the inability to raise the collector from a horizontal position at a sufficiently large angle (the long end of the collector equipped with a counterweight prevented this).

 The rationale for the optimally obtained values is given in the table.

 When the device was operated according to the prototype on the "2500" hot rolling mill, the service life of the device before repair was 432 hours

 As a result of using the invention, the service life increased by 216-288 hours.

 EXAMPLE 1. For operation, a collector was made of a pipe with a diameter of 157 mm with a wall thickness of 3.5 divided by a partition into two volumes (upper volume A and lower volume B). The lower volume of the pipe is equipped with nozzles in the amount of 8 pcs. for the expiration of cooling water. The upper volume of the pipe is equipped with a pipe for draining water, as well as a breather for sucking air into the tank when draining water from it.

 The collector is equipped with a steel counterweight having a weight of 45 kg and installed on the water inlet side of the collector on the outer surface of the collector near the end edge. The axis for rotation of the collector is fixed to the supporting structure 8, at a distance of 715 mm from the input end of the collector.

 The height of the swing axis of the collector above the roller table is 850 mm. The stops are made in the form of a wedge. They can be made in the form of a protrusion of any shape. The main purpose of the stops is to provide a certain position of the collector in a horizontal (working) position and in a vertical (non-working) position. The length of the collector l = 2850 mm (i.e., the axis is fixed at a distance of 0.25 of the length of the collector from the inlet end). The working position of the collector is parallel to the horizontal plane.

The terms of service are given in the table (experiment 2). One of the stops fixing device provided with lifting collector 70 ^on a vertical plane (the angle between the operative and inoperative positions collector). The described collector worked without repair for 648 hours.

In example 2, a device was used with the ability to rotate the collector by 75 ^° around an axis fixed at a distance of 0.28 of the length of the collector. The results are given in experiment 3.

In example 3, the same device with the ability to rotate the collector by 80 ^about when fixing the axis at a distance of 0.30 (see experiment 4).

 It must be added that the collectors were used in various lengths (depending on the production technology). The effect is achieved in all cases.

 The advantage of the claimed device in comparison with the prototype is to simplify the design and increase the service life of the device by an average of 216-288 hours. This is achieved by eliminating a separate collector rotation drive. (56) U.S. Patent No. 3,452,710, cl. 118-7, 1969.

 USSR author's certificate N 578137, cl. B 21 B 45/02, 1976.

 USSR copyright certificate N 791440, cl. B 21 B 45/02, 1979.

Claims (1)

 STRIP COOLING COOLING DEVICE, including a water collector made in the form of a hollow chamber with nozzles, mounted for rotation on a transverse horizontal axis mounted on a stand, characterized in that the collector is provided with a longitudinal partition dividing it into two cavities, the lower and upper ones, moreover, the upper cavity is equipped with an autonomous water supply, the collector is equipped with a counterweight mounted on the other side of the axis of rotation, and a limit stop is installed on the rack.

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