SU1076161A1 - Apparatus for cooling rolled stock - Google Patents

Abstract

A CIRCUIT CLEANING DEVICE, including a housing with air and fluid supply lines and outlet nozzles, a longitudinally placed tube with inlets and a number of outlet openings aligned coaxially with the nozzles of the housing with a horizontal axis of the tube, characterized in that controlling the cooling mode, the tube is mounted in the housing with the possibility of moving and tilting in the vertical plane by independent mechanisms located at its ends in the places where the supply lines are located, air inlet pipes, and has an additional diametrically opposite row of outlets. S (L o 05 Oi

Description

The invention relates to metallurgical production, in particular, to cooling metal products and the flow of industrial units and cooling individual parts and assemblies of these units, and can in particular be used for cooling rolled products at various stages of their processing in a mill stream for thermal regulation. profile barrel rolls sheet mills and gauges rolls varietal mills. A device for cooling rolled products is known, comprising a chamber with nozzles, a pipeline for supplying a cooler, a pipeline and nozzles for supplying air, the chamber divided by transverse partitions into sections and sections with air nozzles 11 are located between the nozzles for cooling 11. A disadvantage of the known device is that the air supply pipe with nozzles is rigidly fixed inside the chamber, divided by transverse partitions into sections, and the air supply pipe passes through several sections, therefore the cooling process is cooled only by means of pressure and flow of water and air. The division of the chamber into sections with alternating sections for air with sections for a cooler does not allow for a preliminary one. saturation of the cooler with air, which allows to significantly reduce the density of the sprayed medium and thereby increase the degree of dispersion of the sprayed particles of the cooler in the jet. This reduces the efficiency of using the cooling capacity of the refrigerant and, as a result, the range of regulation of the cooling process, which in some cases does not allow differentiated heat removal by parameter and cross-section of asymmetric and shaped profiles, limits the possibility of eliminating the "temperature wedge along the length of rolled products as in the case of its linear trajectory, as well as in the motion along a time varying loop. In addition, rigid fixation of the pipeline for supplying air inside the chamber eliminates the possibility of changing the range and angle of the coolant jets, which, when the unit is operated on a wide product range, makes it difficult to set up the device for cooling another type of product, diy and makes it difficult to maintain. It is also known a device for cooling in the form of a nozzle consisting of a tubular body with plugged ends and a thin tube located inside the body and passing through the plug 4ef) e3. The pipe is arranged eccentrically relative to the axis of the housing in the lower part of it with the formation of a non-sickly gap. In the lower part of the hull, the prog-r. NN g) is permeable, with co-curly hair and the holes of a small diameter in the inner tube. Water is supplied to the casing but to two billows, the 1st nipple, i through the both ends of the through tube compressed air | 2 is supplied. The device’s tailpiece consists in rigidly fixing the tube in the corns, which does not allow changing the size and shape of the gap between the tube and the body and changing the angle of the sprayed jets and their range. The closest in technical essence to the present invention is a device for cooling rolled products, including a housing with air and liquid inlets and outlet nozzles, and a longitudinally placed tube with inlets and a number of outlet openings coaxially arranged with the nozzles of the housing in a horizontal position of the tube axis 3. Such a device makes it possible to regulate the cooling mode only by changing the flow rate and pressure of water and air due to the immobility of the tube relative to the housing. When used as a process water cooler, frequent clogging of the gap between the tube and the housing is possible, which at a constant gap makes it difficult to clean the nozzles and excludes the possibility of servicing the device during its operation. The drawbacks of the device include the fact that the holes in the thin tube are coaxial with the holes in the housing for the output of the sprayed liquid and are made only along one forming tube. In this case, the fluid entering the gap between the pipe and the body has a density much higher than that of air, which leads to the formation of a non-homogeneous water-air mixture and increases, on average, the size of droplets of the sprayed liquid in the jet. All this reduces the effectiveness of the use of the cooler due to the formation of a continuous film of water on the surface of the product being cooled, and below it the steam jacket, which also reduces the possibilities of controlling the cooling process. The purpose of the invention is to expand the range of cooling control. The goal is achieved by the fact that, in a device for cooling a rolled product, comprising a housing with air and liquid supply lines and outlet nozzles, a longitudinally arranged tube therein with inlets and a number of outlet openings co-aligned with the nozzles of the housing when the axis of the tube is horizontal, longitudinal The tube is installed in the possibility of moving and tilting in a vertical plane by independent mechanisms located at its ends in the places where the carriages are located. COMBINEDSIM.X g I () llp. IDPOLL BI.Mluha and iiMfor D (. И |) .1нп1чм1,111лй лигшп рлл і ріпТiu) ii) .ii) Kin, iii drank i4.isn4ni, ix resistance.

Devices about, |; 1l; 11t luiipoiur.ui otoch / knost mss.1iron; 1 jie KiiMa nt i.x.-casement with: i) meni) m. When the fluid supply p between the tube and the housing is cut off by pressing the tube against the housing, the liquid is sucked out by means of an EiOM mechanicsmop due to ejection along the axis of the nozzle through the orifices of the tube that are opposite to its forming. Thus, the liquid can be fed into the air stream both along the axis (in case of eliminating the gap between the tube and the body) and from the iperphy to the axis of the jet (in the case of a gap). A change — a method of introducing coolant into the stream of air — can, with the same parameters, be used to change the range of the jets to a wide range. It also makes it easier to set up a device for cooling another product, and it sets the control range for the cooling process.

FIG. 1 shows a cooling device, longitudinal section; in fig. 2 shows section A-A in FIG. one.

The cooling device consists of a housing 1 with blunt ends 2, coolant inlets 3, air inlets 4, nozzles 5 for dispensing liquid outlet, seals 6 and guides 7 located inside the tube body 8 with inlets 9 connected flexibly with pipelines 10 for supplying air and holes 11 for air outlet, which are diametrically opposed by forming a mechanism for moving and tilting the tube in a vertical plane in the form attached to the housing in a teapot 12 so as to rotate the wok y vipta its axis 13 with the nut 14 carrying the forks 15 with a screw mechanism with a nut 16 and locknut 17, worn on a threaded portion of air conduits.

The device works as follows.

Before the metal product is cooled, the supply of coolant through the inlet 3 (nipple) into the body I of the air is sucked through the supply lines 9 into the tube 8. As the tube is filled, the air begins to flow through the holes I to enter the body and into the gap between body and tube. At the same time, the cooling liquid is saturated with air, which, due to the location of the opening for the outlet luj.i.ayxa with HjaroM along the entire length of the tube and the intensive mixing of the liquid rmchukh in the cavity of the housing, contributes to

I.yuchnomu p.chchastno less, nyugposti exodi1I) and zhilkostn. 11 (). Luchs1 {n; 1and g, in a cool way; | / / lt; 1 environment is fascinated by jets of air. going out to the .ia.iop between the case and the tube along the axis ccjiic.i G,

and due to malls iiift) THocTn of the medium and high speed of the flow of air I1ggoncyppo dnsper1L {rugs. Pskme etogome.1kode specialty gyrate liquid expires through the body nozzles. 11) and h; 1.

the housing and the tube, and thereby creating the most stable conditions for the outflow of jets of sprayed liquid, the metal product being processed is placed in the zone of action of the jets of the device.

5 In case of transition of an industrial unit to the processing of a metal product, different from the previous one in terms of size, form, chemical composition, etc., and also, if necessary, the implementation of differentiated heat removal from individual sections

0 products change the position of the tube inside the housing with the help of a movement and rotation mechanism. Thus, if necessary, vary uniformly over the length of the device, the degree of dispersion of the fluid particles, in the jets, the opening angle of each jet, and

5 also, its range varies the size of the gap between the generators of the body and the tube, maintaining its current condition. (pressure, flow rate) of the components of the cooling mixture. This is achieved by rotating the screw 13 around its axis in a hinge 12 fixed to the housing, which causes the nut 14 to move with the forks 15 carrying the pipeline. 10 air supply, in the lottery x 6 case. This causes a translational displacement of the tube 8 in a1 equal to 7. In this case, a layer of a liquid saturated with air that breaks through the air jets changes, and, consequently, the speed of the outflow of jets of the sprayed liquid also changes, allowing for a wide range and the angle cut T 1 jets, as well as the degree of dispersion of the liquid in them. If necessary, create a system of sprayed liquid jets with parameters varying along the length of the device.

5, according to a certain law, the shape of the gap between the body and the tube is changed by turning the tube in a vertical plane. For this, they are loosened to the valve 17 and the nut 16 is rotated in the fork 15 with a through hole connected to the thrust block, the nut 14 with the screw 13 and the bottom plate 12 with the housing. As a result of rotation of the nut 16 and its interaction with the thread of the air supply pipe 10, the tube is rotated from just one of the ends. Due to the presence of flexible sections on the air inlets, for example, a rubber hose, reinforced with a 1-st steel cord of a certain length, this means that

moving one of the bends with a bend of sections on each of them and turning them roughly at a required angle within the hull. At the same time, the parameters for the flow of coolant jets vary in proportion to the length of the device in proportion to the change in the gap between the tube and the housing.

After setting up the device for cooling a specific type of product, the position of the air supply pipelines 10 is fixed with a lock nut 17, and further adjustment is carried out using a tube translational mechanism, which can be carried out either manually: or from the motors of the automatic control system for cooling modes.

In case of clogging, the gap between the tube and the housing is increased by lifting the tube. In this case, the contaminants are partially washed away by the fluid flow and are removed with the stream, which facilitates the maintenance of the device during its operation.

All this allows for any possible condition of a specific industrial unit, the ratio of cooling parameters

waiting for the unit to exercise flexible control over the process of cooling metal products of various shapes, including long and moving products, and

also facilitate the maintenance of the device during its process and simplify the setting for cooling other kinds of products. %

Using and treating under the conditions of small section 28b, it is necessary to force a time-varying roll loop at any changes in its growth rate, and under conditions of large-section mills 585 and 620 - to cool the moving steel due to the wide range of process control

cooling will allow cooling the entire range of products and supplying the consumer, in particular, shaped and asymmetrical profiles of higher quality with a surcharge of 6% according to GOST 5521-76 (section 4), which, with a planned production of 40 thousand tons under the new technology and the average selling price for the mills 116 rubles / ton will be 278,400 rubles. in year.

Claims (1)

RENTAL COOLING DEVICE, including a housing with air and liquid supply pipelines and outlet nozzles, a longitudinally placed tube with inlets and a number of weekend outlets placed in it. holes located coaxially with the nozzles of the housing with the horizontal axis of the tube, characterized in that, in order to expand the range of regulation of the cooling mode, the tube is installed in the housing with the ability to move and tilt in a vertical plane by independent mechanisms located at its ends in the locations of the leads connected with air supply pipelines, and has an additional diametrically opposite row of outlet openings. Phage / SU ... 1076161>