CA1103144A - Device for dividing a strand into slabs - Google Patents

Abstract

ABSTRACT OF THE DISCLOSURE
The invention provides an apparatus for longitudinally dividing slabs formed by dividing a continuously cast strand transversely at intervals, comprising at least one flame cutting means, a cutting point opening arranged below the flame cutting means in a surface for supporting the slabs to be divided, and a transverse shifting means for a slab to be divided on a longitudinal side of the slab supporting surfaces.

Description

314~

The invention relates to ~n apparatus for dividing a strand into slabs with a device for dividing said strand transversely arranged after the strand guide (roller apron) and with a device for dividing said strand longitudinally, and to a method of operating said device.

The invention relates particularly to the division of a steel strand into slabs.

In conjunction with steel continuous casting plants it is pro-posed in the Japanese-Offenlegungsschrift 50-128 628 to divide the strand longitudinally by flame cutting directly subsequent to the roller apron and then to divide the strand transversely.
In the case of this proposal the strand is divided longitu-dinally when hot and ~hen divided transversely. This construction does not guarantee an exact longitudinal division with desired division proportion for various reasons. One is that it is difficult to alter the division proportion during continuous casting when the strand is being continuously extracted. More-over, exact straightening of the strand longitudinally is not guaranteed as the continu~usly extracted strand does not always assume exactly the same position. The specialists have there~ore preferred to divide excessively wide slabs longitudinally when cold. A corresponding proposal is known from the publication "Concast News" 13 (1974,pages 6 and 7). The advantages of lon-gitudinal division of cold slabs are regarded as being that less slag and fumes are produced on division and that the cycle time of longitudinal division is independent of the casting speed.
The disadvantage of these known plants is that they need a sub-stantial amount of space and often additionally need an intensive cooling plant in order to cool the slabs, which have been cut into lengths, quickly down room temperature.

The object of the present invention is to develop a device for dividing a strand into slabs which guarantees a quick and exact longitudinal division even with high casting speeds at the same time being low in apparatus costs and having a simple construction.

1~3144 This object is solved according to the invention in that the transverse dividing device has at least two longitudinal di-viding devices arranged thereafter, to which the cut olf slab can be guided selectively by means of at least one transport means. A common transport means is preferably provided for all the longitudinal dividing devices. A favourable arrangement as to space is hereby achieved if the common transport means is in the form of a ~ransverse transporting device. It is expe-dient to arrange the longitudinal dividing devices in the proximity of or at height of the run-out rol]er table allocated to the strand. In a particularly advantageous embodiment the longitudinal dividing devices are arranged parallel to the run-out roller table. The aforementioned constructions have the advantage that even at high casting speeds the longitudinal division can be carried outin a very short time after the trans-verse division, whereby the slab must merely be conveyed to the respective free longitudinal dividing device by means of the transport device after transverse division. As the trans-verse dividing device, the run-out roller table, the transport device and the longitudinal dividing devices are arranged very closely together, the entire plant is space-saving and con-structionally simple.

A particularly advantageous embodiment is characterised in that the individual longitudinal dividing devices, which are each equiped with at least one flame cutting means, have a cutting point ope~ng allocated to and below the flame cutting means on (in) the slab bearing area and a transverse shifting means on the longitudinal side of the slab bearing surface on at least one of the two longitudinal sides. The slab is laterally straightened with the aid of the transverse shifting means. In order to set the exact division proportion over the width of the slab, the cutting torches can be either transversely shiftable or assembled so as not to be shiftable in transverse direction. Torches which are not shiftable in transverse direction are preferred if, at the same time, the cutting point opening allocated thereto on (in) the slab bearing area is fixed (stationary). In conjunction with this construction it ~1~3~44 is particularly advantageous if the transverse shifting means ls in the form of a centering means which centres and shifts the slabs respective to the (fixed) cutting point opening in transverse direction of the longitudinal dividing device. This ~ -centering means arranged on the longitudinal side is, for expedience, composed of at least a transverse shifting means arranged on the longitudinal side and a transversely shiftable abutment along the other longitudinal side of the slab, so that the division proportion can be adjusted exactly to the cutting torches and the (fixed) cutting point op~ing. For this slab merely needs to be shifted with the aid of the centering means. The transversely shiftable centering means is in abutting relationship with the longitudinal side of the slab, i.e. it is arranged vertical to the broad side of the slab. The centering means can be stopped after the slab has been centred. The longitudinal dividing device has therefore only few parts which are mobile during operation and therefore it is guaranteed that the slabs can be divided longitudinally with the aid of this device in the desired division proportion and very accurately.

A construction which is to be emphasized is one ~ which the cutting point op~ing is in the form of a narrow gap which feeds into a channel receiving the waste material. With this con-struction the waste material can be easily removed. It is par-ticularly advantageous in this construction if a suction device for removing the fumes is attached to the channel. It has been seen that besides the slag produced approx. 90% of the fumes produced arise below the slab and therefore by using the suction device almost all the disturbing fumes can be removed. If the cutting point opR~ng formed as a gap is not particularly large, there is the advantage that only a small proportion of infil-trated air (false air) is also sucked off. It is thereby possible that the problem of waste gas can be effectively dealt with even with relatively low suction performance of the suction ~ 3 ~

1~`3i44 device. This aim is realised in an even better way if - apart from the necessary cutting point opening - the channel can be closed for the most part in order to minimise the penetration o~ infiltrated air. Expedient solutions for this are explained in connection with Figs. 3 and 4.
,i According to one embodiment the cutting torch and the cutting point opening are fixed in both transverse and longitudinal direCtion of the device, whereby the slab is pushed over the cutting point opening in lQ~itudinal direction for division longitudinally. The slab is thereby guided longitudinally by the stopped (secured) centering means. In this construction the cutting point op~ing and the channel situated below it are re- -stricted in longitudinal direction of the device to a narrow space so that the slag produced in this space can be easily re-moved. It is pre~erred in this construction that on a single cutting torch is used in order to guarantee a smooth cut edge without any faults.

According to another preferred embodiment the cutting point opening in the form of a gap and the channel connecting there-with extend pra~ically over the entire length of the longitudinal -dividing device below the slab bearing area, whereby for expe-dience two flame cutting devices, which are movable longitu-dinally in opposing direction, are arranged above the slab bearing area for dividing the slab longitudinally. This con-struction guarantees that the slab is divided quickly in longi~
tudinal direction, i.e. in almost half the time, whereby at the same time slag and fumes are removed simply. As an alternative to the channel provided over the entire length of the longi-tudinal dividing device it is also possible to provide a (bucket) tub, for example, which can be moved in the conceived gap direc-tion, i.e. a much shorter slag collecting device, whereby the feed motion of the tub must be coordinated with the feed motion of the cutting torch. The construction with the movable tub ~ 4 - ,~

11~314~

be used advantageously when the slab lies securely on the bearing area during the entire flame cutting processl i.e. the slab does not work too hard during the flame cutting.

The device according to the invention is preferably operated in such a way that the slabs which have been cut in lengths from the strand by transverse division are conveyed to one of the longitudinal dividing devices directly out of the casting heat at surface temperatures of over 300 C. Longitudinal di-vision at surface temperatures of over 500 C is preferred. It was namely observed that the formation of sabre-shaped longi-tudinal sides of the slab can be avoided by maintaining the surface temperature as high as possible during longitudinal division. Conversely, the Applicant has established that at slab temperatures of approx. 150 to 250 ~ the slabs tend to distort outwardly in the form of a sabre - working from the flame out line - so that further treatment of the divided sabre-shaped slabs is made more difficult.

In order to guarantee the highest possible surface temperature, it has proved advantageous that the slab cut from the strand is moved on without delay after transverse division and is divided longitudinally pra~ically without temporal delay. This quick longitudinal division is possible due to the allocation according to the invention of transverse dividing device, run-out roller table, transport means combined with several longitudinal divi-ding devices. The subject of the invention is particularly suited for dividing continuously cast slabs for magnetic sheet materials with a silicon content of~ o.6 %, preferably ~ 1.5 % Si.

The particular advantages of the subject of the invention are to be seen in that very quick longitudinal division is possible at the highest possible slab temperature with a low cost in apparatus. Slabs which are narrower and in particular variable in width can be cut from excessively wide continuously cast slabs.
This cut slabs are particularly favourable as starting product for rolling mills and the desired sheet widths. In continuous casting the advantages of sequence casting can be used as quick and exact longitudinal division is possible with the construction _ : , ~1~3~L4~

according to the invention. The advantageous embodiments of the longitudinal dividing devices specified in sub-claims additio-nally guarantee that no problems arise due to slag or fumes as the fumes and working material losses produced can be removed without at a low constructional cost without impaiting the environment. The subject of the invention offers the additional advantage that the longitudinally divided slabs are still so hot that the remaining heat in the slab can be utilised for the subsequent reheating up to rolling temperature. The s~bject of the invention permits the longituAinal division of continuously cast slabs when still hot, i.e. out of the production flow of the continuous casting plant, with a high degree of accuracy.

The invention is explained below in greater detail by means of an embodiment.

Fig. 1 shows a top view onto an entire plant with several longitudinal dividing devices, Fig. 2 shows a top view onto one of the longitudinal ~ dividing devices, Fig. 3 shows a longitudinal section through the longitudinal dividing device according to III-III of Fig. 2 and Fig. 4 shows a cross-section through the longitudinal dividing device according to IV-IV of Fig.2.

Fig. 1 shows the part of a twin strand slab continuous casting plant arranged after the roller apron strand guiding (not shown), each with a transverse dividing device 1 and the connecting run-out roller table 2. The run-out roller tables 2 are connected selectively with one of four longitudinal dividing devices 5 by means of a joint transverse transport means 4. The connection between the run-out roller tables and the transverse transport means 4 is provided by the transfer 3. The slabs produced after transverse division can be moved off from the run-out roller ~ 6 --11~3144 tables 2 individually by the transfer 3 and conveyed to the transverse transport means 4. In the shown example a transport car wh:ich can be moved on rails is provided as transverse trans-port means. The fourlongitudinal dividing devices 5 are p~lLallel and adjacent to one another at about the height of the section of the run-out roller tables 2 which extend behind the trans-verse dividing devices 1 of the continuous casting plant. This offset construction method of longitudinal dividing devices 5 and run-out roller tables 2 provides a compact arrangement, whereby a quick transporting of the slabs to and possibly also off the longitudinal dividing devices 5 is guaranteed with only one common transverse transport means.

As Figs. 2 to 4 show, each longitudinal dividing device 5 has a slab bearing surface 50 and at least one flame cutting means lo.
The slab bearing area 50 has a gap-like cutting point opening 51 below the flame cutting means lo. The gap-like cutting point opening 51 extends practically over the entire length of the longitudinal dividing device and is arranged, looking at it in transverse direction, approximately in the middle of the longi-tudinal dividing device. The transversely shiftable centering means 20 is positioned on one longitudinal side of the longi-tudinal dividing device 5. The pressing device 25 is provided as abutment on the other longitudinal side of the slab.

Individually, Fig. 2 and 3 show that the longitudinal dividing device 5 preferably has six rollers 53 arranged one behind the other for transporting the slab on and off said longitudinal dividing device 5, whereby the feed motion of the slab is re-stricted at the front side by a fixed stop 54. The rollers 53, i.e. individually actuated rollers which are cooled inside, are swung away forwards and downwards in a way known per se after the slab has been transported (see dotted position of rollers in Fig. 3). When the rollers 53 have been swung away the slab rests on a plurality of bearing elements 55 which 7 - ,l lla3~4~

are arranged one behind the other to forM the slab bearing area 50. This slab bearing area 50 on the individual bearing elements 55 are divided in the middle in longitudinal direction by the gap-like cutting point opening 51. Thereby the width of the cutting point opening 51 amounts at least to about loo mm in transverse direction of the longitudinal dividing r device 5. According to Figs.2 and 3 a total of six bearing elements 55 arranged one behind the other are provided.

The flame cutting means with lo as reference for the whole is situated above the bearing elements 55. The flame cutting means is composed of two torch cars 13 and 14 each equiped with cutting torches 15,16. Each torch car 13~14 is individually actuated. During the flame cutting the torch cars are moved towards each other with a feed motion corresponding to the flame cutting speed. The cutting torches 15,16 are positioned in the .

11~3~44 middle of the car and are assembled so securely on the torch car 13, 14 in transverse direction of the longitudinal dividing device 5 that they move towards each other during the flame cutting on a straight line, the so-called flame cutting line. This flame cutting line overlaps the gap-like cutting point opening 51 position underneath it.

In order to set the desired width, into which the s]ab resting on the slab bearing area 50 is to be divided longitudinally, the centering means 20 is provided on one side Of the bearing area 50. The centering means 20 is composed of a ruler-type beam 21 which is armed with rollers 22 and runs parallel to the longitudinal axis of the longitudinal dividing device 5.
With the assistance of the worm gear 24 actuated by motor 23 the beam 21 can be pushed transversely to the longitudinal axis of the longitudinal dividing device 5 and then brought to a fixed position. In the shown preferred embodiment pressing devices 25 are provided on the other longitudinal side of the slab bearing area 50. These pressing devices 25 are composed of a rotatable lever 26 which stri-kes the floor of the longitudinal dividing device 5 and which can be operated by a hydraulic cylinder 27. After the desired widths into which the slab is to be divided longitudinally have been set with the assistance of the centering means 20, the slab is pressed by means of the pressing device 25 against the beam 21 which serves as an abutment. Exact centering of the slab is hereby guaranteed.

Fig. 2 shows that the cutting point opening 51 as narrow gap practically extends over the whole of the length of the longitudinal dividing device 5. As the cross-section in Fig. 4 shows, the gap-like cutting point 51 opening feeds into a channel 28 which is only open to the top over the entire ~ 9 -- ~ I

1~3~44 .. .

length of the longitudinal dividing device 5. The channel ;
28 has side walls 29 Or heatproof sheets Or metal. As Fig. 3 shows, these side walls 29 have recesses 31 which-are Pormed according to the swing path of the rollers 53 (to the right in Fig. ~). When the rollers have been swung to the right, the recesses 31 for the rollers 53 are closed by shutter plates 32. The channel 28 is closed off to the bottom by a j;gging conveyor 33 by w~ich the slag produced during flame cutting is conveyed on or in a transport means 34, e.g. on a chute or in a tub.

Fig. 4 shows that conduits 35 feed into the channel 28 at about the middle of the side walls 29, whereby the conduits 35 are attached to a suction conduit 36 which runs parallel to the channel 28. The suction conduit 36 feeds into a --dedusting plant 44 (see Fig. 1). The shown construction has the advantage that a good removal of slag by suction is guaranteed with relatively low activity. The shutter ~~-plates 32 contribute to this; they close the recesses 31 in - -~
the side walls 29 of the channel 28 during the flame cutting.
Furthermore, the upper edge of the side walls 29 extends as far as possible, i. e. up to a distance of approx 20 mm, up to the upper edge of the bearing elements 50, so that when the slab lies thereon only a small amount of infiltrated ~-;
air can be sucked. If a short slab i5 lying on the slab bearing area 55, the part of the cutting point opening 51 which is not covered by the slab is open at the top. As too much -~
infiltrated air could be sucked in this case, there is the favourable possibility of clos-ing the channel 28 corresponding to the length of the slab segment by segment from one or from both ends, so that only the part underneath the slab is opened.

31~4 To reduce the proportion of penetrating infiltrated air further it is preferred to drive towards or onto the suction conduits 35 in coordination with the cutting. Only the suction conduits are open respectively and thereby functioning at what level the flame cutting devices are positioned.
' :
The working method of the device is as foliows:
The slab which is cut in lengths from the strand by means of a transverse dividing device 1 is transferred from the trans-fer 3 to the transverse transport device 4. The transverse transport device 4 in the form of a transport car is preferably armed with a roller table 9. The transport car 4 then moves -with the slab to one of the four longitudinal dividing devices 5.
When the roller table of the transport car 4 is switched on the slab is moved in longitudinal direction onto the roller table -53 of the longitudinal dividing device 5 so that the longitu-dinal division can begin. After longitudinal division has been ~-completed the divided slabs are preferably collected by a second transport car 6 which is also armed with a roller -table 8 and brought to a lifting truck 7 which singles out ~`
the divided slab sections.

In the area of each longitudinal dividing device 5 the slab -~
moves starting from the roller table 9 of the transport car 4, over the roller table of the longitudinal dividing device 5 until it rests against the stop 54. The rollers 53 are dropped and the recesses 31 are closed by the shutter plates 32.
The slab now rests on the bearing area 50. The rollers 53 can revolve further when dropped in order to prevent the slag caking.

The slab is now brought into cutting position by the cente-ring means 20. For this purpose the slab is shifted transver- =

- 11 - , ~1~;3144 sely by means Or the ruler-like beam 21 of the centering means 20 to the middle of' the longitudinal dividing device 5 until the distance between the flame cutting line and the beam 21 corresponds to desired dividing width (e.g. two-part slabs with dividing widths 2/5 and '3/5 of the excessively wide slab).
The beam 21 is then secured in this position. The slab is then pressed by means Or the pressing device 25 against the beam 21 which serves as an abutment. Arter this straightening process the beam 21 and the pressing device 25 can be moved back to their starting positions.

For the actual flame cutting process the torch cars 13,14 move towards each other with a predetermined feed motion.
They meet at approximately the middle of the torch stretch.
Before they reach the middle one of the torch cars 13 or 14 ', stops its course and moves back to the starting point whilst the other torch car completes the cutting. The slag produced falls freely into the channel 28 beneath the slab bearing surface 50 and is transported to be tub 34 by the jigging conveyor 33. The fum-es are sucked through the suction conduits 35, 36 up to the dedusting plant 44.
It has been shown that about 90 % of the fum-es produced can be removed in this way. The f'urnes produced above the slab can be caught with the aid of a hood (not shown) and also conveyed to the dedusting plant by means of a conduit.
This application is a divisional application of our copending application Serial No. 298,670.

~ 12 -

Claims (4)

THE EMBODIMENTS OF THE INVENTION IN WHICH AN EXCLUSIVE
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:

1. An apparatus for longitudinally dividing slabs formed by dividing a continuously cast strand transversely at intervals, comprising at least one flame cutting means, a cutting point opening arranged below the flame cutting means in a surface for supporting the slabs to be divided, and a transverse shifting means for a slab to be divided on a longitudinal side of the slab supporting surfaces.

2. An apparatus according to claim 1, wherein said transverse shifting means is in the form of a centering means which centres the position of the slab relative to the fixing cutting point opening in the transverse direction of the longitudinal dividing device.

3. An apparatus according to claim 1, wherein said cutting point opening is in the form of a narrow gap and feeds into a channel receiving the waste material.

4. An apparatus according to claim 1, wherein the cutting point opening extends practically over the entire length of the longitudinal dividing device, and two said flame cutting devices, which are movable longitudinally in opposing directions, are arranged above the cutting point opening.