DE10033644C2 - Method and device for cooling metal long products produced by thermoforming - Google Patents

Description

The invention relates to a method and a device for cooling by hot forming metallic long products, especially sheet piles Steel. Long products of this type are used after for example by hot rolling in a rolling mill have been thermoformed, usually others Undergo production steps such as straightening. Prerequisite for entering the respective after the The following production step is in the hot forming Rule, however, that the long products except for a certain one Inlet temperature have cooled.

A method and an associated device of the above type for cooling slabs or ingots high temperature are known from DE 23 08 124 A. The Slabs are shaped in the direction of their width Lots, each consisting of several slabs, in close contact side by side over a cooling bed promoted.

In the first section of the cooling bed, the still plastically deformable slabs, which are taken from a block mill at temperatures of 900 ° C to 1100 ° C, are cooled in the air and rotated in short cycles by special devices. After falling below the temperature in transition point A _{1, there} is a gradual cooling over different time intervals alternating with cooling water and in the air. The temperature compensation between the water-cooled surface and the hot core of the slab is used during the cooling intervals in the air. In this second cooling section, because of the lower temperature of the slabs that has already been reached, turning is not always necessary, but an arrangement in lots remains.

With this method, increased degrees of cooling are achieved deformation of the slabs at the same time thermal stresses avoided. The disadvantage is itself in the cooling sequence as well as in the transportation of the Workpiece-manifesting design for cooling massive slabs or beams with round or polygonal ones Cross-section.

There is a problem with the cooling of long products in that it is particularly in the case of products with a complex cross-sectional shape and across the cross-section changing thicknesses in the course of cooling to deformation due to the different local speeds Decrease in temperature in the product may occur. Especially these problems exist when manufacturing through Hot rolling produced sheet piles, each of which lateral, developed against a central section Sections have a smaller wall thickness. at Such long products are at risk of becoming unsuitable bend so much in the course of cooling that they become unusable or expensive rework  are required to restore their usability manufacture.

The risk of deformation in the course of cooling can currently only met with complex cooling equipment be distributed by an appropriately distributed Application of the cooling medium over the cross section of the uniform cooling of the respective product to ensure. Such equipment requires one high investment costs and lead to equally high Operating cost.

The object of the invention is a method and to provide a device with which Long products, especially sheet piles inexpensive way without the risk of unwanted Let the deformation cool.

This task is carried out in relation to the procedure for Cooling of metallic, produced by thermoforming Long products, especially sheet piles made of steel, solved that in a first step Long products first through a cooling time interval Wetting with a cooling fluid by a temperature difference be cooled and that in a second step over an equalization interval without the influence of a Coolant temperature compensation in the long product is produced, the steps of the gradual Cooling and temperature compensation are repeated, until a target final temperature in the long product is reached is.  

According to the invention, the cooling of the long products divided into several cooling steps, between each Cooling step a time passes which is sufficient to one Establish temperature compensation in the respective product. Along with the temperature compensation, they are the same the possibly due to the previous cooling existing deformations of the workpiece as well. By the gradual cooling according to the invention with each intermediately long enough Temperature compensation phases is the danger of one through the Cooling caused permanent deformation of the Long product reduced to a minimum. Doing so the length of the cooling phases, the intensity of the cooling in each cooling time interval, the amount of each achieved Decrease in temperature and the length of the Compensation time interval in a simple way like this coordinate with each other that an optimal cooling result is achieved.

In most applications, the length of the Compensation time interval can be many times larger than the length of the cooling time interval. Practical trials with previously hot-rolled sheet piles have shown that get good results if the length of the Compensation time interval 10 to 30 times larger is the length of the cooling time interval. As a cooling medium can be water or a water-based emulsion can be used.

The method according to the invention can also be conceived carry out simple, inexpensive means. So are usually simple, central to the surface of the  Long products directed nozzles sufficient to the to gradually cool the relevant products.

With a view to realizing a continuous ongoing production process is the above Task in a particularly advantageous manner a device for cooling by thermoforming produced, metallic long products, in particular Steel sheet piles, solved with a Conveyor for transporting the long products over a conveying path and along the conveying path in the conveying direction spaced-apart cooling nozzles is equipped, each of which has a Cooling time interval, a cooling fluid emerges, the Time interval for the transport between two Cooling nozzles is required to be many times longer than the respective cooling time interval. Are preferred several each transverse to the conveying direction of the Long product extending and in the conveying direction spaced rows of several Cooling nozzles available.

In a device according to the invention Transport times between the individual cooling nozzles and the Cooling time intervals over which the respective long product in one of the cooling steps is cooled, so together adjusted that the desired at the end of the conveyor Final temperature is reached. That way you can The inventive method without problems in one continuous production process realize. Even existing ones can Production facilities, especially those where the respective products gradually over a cooling section be promoted with simple means and too little  Convert costs to devices according to the invention. There sufficient time for temperature compensation between the individual cooling steps can be placed, the placement of the nozzles not from the point of view of being as homogeneous as possible Application of the coolant, but can vary according to the respective local Straighten the circumstances. As a result, the invention provides thus an inexpensive to manufacture and special economically operable device available with long products of the type in question without the risk of cooling off Allow any deformation caused to cool.

The invention is based on a Exemplary embodiment drawing closer explained. They show schematically:

Figure 1 shows a device for cooling sheet piles in a view from above.

Fig. 2 shows the time sequence of cooling and equalizing time intervals in a diagram.

The device 1 comprises a conventionally designed walking beam cooling bed 2 , through which sheet piles S, S1 produced in a hot rolling mill, not shown, are conveyed step by step in a conveying direction Q directed transversely to their longitudinal extent. In a central section 3 of the straight conveying path 4 covered thereby, five rows R1-R5 of cooling nozzles 5 extending transversely to the conveying direction Q are arranged at regular intervals.

The cooling nozzles 5 of each row R1-R5 are also positioned at regular intervals from one another.

Each of the rows of cooling nozzles 5 is assigned a supply line 6 , 7 , 8 , 9 , 10 , to which the cooling nozzles 5 of the respective row R1-R5 are each connected together. The supply lines 6-10 are connected to a central cooling water supply 12 via a control device 11 .

Coming from the non-illustrated hot rolling mill at an initial temperature piles S, S1 of the cooling bed 2 are received and conveyed step by step of the cooling bed 2 through the feed path 4 of the Hubbalkenbförderern also not shown. In the first section of the conveyor path 4 , the sheet pile S1 is cooled to a temperature T0 in air.

As soon as the respective sheet pile S1 has reached the first row R1 of cooling nozzles 5 in the central section 3 of the cooling bed 2 , the control device 11 applies cooling water to this row R1 for a first cooling time interval K1, for example 1.5 seconds, so that the sheet pile S1 in question is cooled by a temperature difference ΔT1. A compensation time interval E1 then passes between the transport from row R1 to row R2, the length of which is, for example, 20 times greater than the cooling time interval K1. The sheet pile S1 assumes a uniformly distributed temperature T1 within the compensation time interval E1.

When the sheet pile S1 having such a uniformly distributed temperature T1 has reached the row R2, the cooling nozzles 5 of this row R2 are acted upon by the control device 11 with cooling water for a cooling time interval K2. The sheet pile S1 is thereby cooled by a temperature ΔT2. The sheet pile S1 is then transported to the third row R3 of cooling nozzles 5 within a compensation time interval E2. In this time interval E2, its temperature is equalized so that it reaches row R3 with a uniformly distributed temperature T2.

The sequence of the gradual cooling over a cooling time interval K3, K4, K5 with a cooling achieved in each case by a temperature difference ΔT3, ΔT4 and the subsequent compensation of the temperature T3, T4 in a compensation time interval E3, E4 is repeated until the sheet pile S1 with a Temperature T5 leaves the middle section 3 of the cooling bed 2 . The equalization of the temperature T5 reached at the end of the cooling time interval K5, while slowly cooling in air until the sheet pile S1 with the required final temperature ET then carried out on the last part of the conveying path 4 exits the cooling bed. 2

The cooling process has been explained above using the example of sheet pile S1. In parallel to this, the sheet piles S1, which are located in the device 1 at the same time as the sheet piles S1, are gradually and gradually cooled in the same way as soon as they have reached the middle section 3 of the conveyor path 4 .

REFERENCE NUMBERS

1

contraption

2

Walking beam cooling bed

3

middle section of the conveyor path

4

4

conveying

5

cooling nozzles

6

.

7

.

8th

.

9

.

10

supply line

11

control device

12

Cooling water supply
E1, E2, E3, E4, E5 compensation time intervals
K1, K2, K3, K4, K5 cooling time intervals
Q direction of conveyance
R1-R5 rows of cooling nozzles

5

S, S1 sheet piles
T1, T2, T3, T5, ET temperatures
ΔT1, ΔT2, ΔT3, ΔT4, ΔT5 temperature differences

Claims (6)

1. Process for cooling by hot working Long metallic products produced, in particular Sheet piles (S, S1) made of steel, in which in a first First step over the long products (S, S1) Cooling time interval (K1-K5) by wetting with a Cooling fluid by a temperature difference (ΔT1-ΔT5) be cooled and in a second step over a compensation time interval (E1-E4) without the Exposure of a coolant to temperature compensation is produced in the long product (S, S1), the Gradual Cooling and Steps Temperature compensation are repeated until one Target final temperature (ET) in the long product (S, S1) is reached. 2. The method according to claim 1, characterized characterized in that the length of the Compensation time interval (E1-E4) many times over is greater than the length of the cooling time interval (K1- K5).   3. The method according to claim 2, characterized characterized in that the length of the Compensation time interval (E1-E4) around the 10- to 30- times the length of the cooling time interval (K1-K5). 4. The method according to any one of the preceding claims, characterized in that the cooling fluid is water or a water-based emulsion is. 5. Device for cooling metal long products produced by hot forming, in particular sheet piles (S, S1) made of steel, with a conveyor device ( 2 ) for transporting the long products (S, S1) via a conveyor path ( 4 ) and with on the conveyor path ( 4 ) in the conveying direction (Q) spaced-apart cooling nozzles ( 5 ), from each of which a cooling fluid emerges over a cooling time interval (K1-K5), the time interval (E1-E4) required for the transport between two cooling nozzles ( 5 ) , is many times longer than the respective cooling time interval (K1-K5). 6. The device according to claim 5, characterized in that in each case a plurality of cooling nozzles ( 5 ) are arranged in transverse to the conveying direction (Q) of the long product (S, S1) and spaced apart in the conveying direction (Q) rows (R1-R5) ,