SU1555373A1 - Device for cooling and hydraulic transportation of rolled articles - Google Patents

Abstract

The invention relates to heat treatment of rolled products and can be used to cool light section steel. The purpose of the invention is to simplify the design and commissioning. The device contains a series of sequentially installed sections. Each section consists of a nozzle and a cooling chamber. The nozzle has a housing, a perforated receiving funnel with a thread on the outer surface and covering it with the formation of the annular cavity of the casing. In the annular gap between the outer surface of the receiving funnel and the nozzle body, a nut with a tapered shank is installed on the threaded surface of the funnel. The cooling chamber is made in the form of telescopically connected pipes, one of which has perforations, is mounted movably along the longitudinal axis, and its output end in each cooling chamber of the previous section is located in the cavity of the receiving funnel of the subsequent section. The nozzle is equipped with a coolant supply pipe into the cavity between the casing and the receiving funnel. 2 Il.

Description

The invention relates to heat treatment of rolled products and can be used to cool small section steel.

The aim of the invention is to simplify the design and adjustment.

Figure 1 shows the device, a general view of figure 2 - the first section of the device, a section; in FIG. 3, view A in FIG. 2.

The device consists of a series of sequentially installed sections I,

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3. Each section includes nozzle.

4, a cooling chamber 5, a telescopic tube 6, with openings 7 and a latch 8. The nozzle of each section has a port 9 for supplying a high-pressure cooler. The nozzle of the first section is equipped with a fitting 10 for supplying a low-pressure cooler. In the nozzle housing 11, which has a casing 12 inside, is fixed by means of a thread 13 perforated

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receiving hopper 14, which is fixed by a lock nut 15 with a conical tip. The casing 12 covers the outer surface of the perforated funnel 14, forming a cavity B, connected with the atmosphere by means of the openings 16. A guide funnel 17 is welded to the other wall of the nozzle body, to which the cooling chamber 5 is attached.

The device works as follows.

The high-pressure chiller is supplied through the pipe 9 to the nozzle body 1J and then through the annular nozzle formed by the receiving funnel 14 and the guide funnel 17, to rush into the cooling chamber 5, where it interacts with the peal entering the cooling chamber through the receiving funnel 14. High-speed flow the cooler (the speed of the cooler must exceed the speed of the roll), interacting with the roll in the cooling chamber, cools it and transports it to the nozzle of the next section. At the end of the cooling chamber 5, through the holes 7 in the pipe 6, the part of the exhausted coolant is discharged into the casing 3, and the part enters the receiving funnel 14 of the next section along with the peal. The cooler caught in the receiving funnel is partially used to feed the nozzle, and the excess is displaced by rolling through the perforation of the receiving funnel into the cavity B and out of it through the holes 16 into the casing 3

The operation of the first section of the device is different from the operation of the subsequent sections. The difference is that the first nozzle does not feed and therefore air leaks through it and the cooling efficiency of the first stage decreases. To eliminate this undesirable effect, it is provided in one of the openings 16 to feed a low-pressure cooler through the nozzle 10 to feed the nozzle. The cooler through the nozzle 10 is fed into the cavity B and through the perforations in the receiving funnel 14 into the internal cavity of the funnel, preventing air from entering. The lock nut 15 is released to adjust the nozzle, the receiving funnel

14 is rotated to any angle and is threaded along the thread 13 relative to the funnel 17. The receiving funnel 14 is fixed in any position with the help of a lock nut 15. The lock nut enters its conical tip into the annular gap between the nozzle body and the outer surface of the receiving funnel 14. Since the tip is conical, This also simultaneously centers the receiving funnel 14 relative to the longitudinal axis.

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The assembly is carried out in the following sequence. The receiving funnel 14 is freely inserted into the housing until it contacts the thread of the casing 12, screwed in and fixed in any place with a lock nut 15 previously screwed onto the receiving funnel 14. This was possible due to the fact that the thread was eliminated in the front cover and there was an annular gap.

Thus, as a result of using the proposed solution, the design, adjustment and operation of the device are simplified in comparison with the existing one.

Claims (1)

Invention Formula A device for cooling and hydro-transporting rolling products comprising a series of sequentially installed sections including nozzles and a cooling chamber, the nozzle of each section consisting of a body, a receiving funnel and a casing installed inside the nozzle body and encompassing the outer surface of the receiving funnel, which is perforated, distinguishes This is due to the fact that, in order to simplify the construction and adjustment, it is equipped with a coolant supply pipe into the cavity between the casing and the receiving funnel and installed onto the threaded surface of the receiving funnel nut with tapered shank located in the annular gap between the outer surface of the hopper and the nozzle body. eight