US3384150A

US3384150A - Continuous casting with controlled feeding from predetermined supply

Info

Publication number: US3384150A
Application number: US506619A
Authority: US
Inventors: Newsome David Russell
Original assignee: Davy Loewy Ltd
Current assignee: Davy Loewy Ltd
Priority date: 1964-10-26
Filing date: 1965-10-25
Publication date: 1968-05-21
Anticipated expiration: 1985-05-21
Also published as: DE1483560A1; GB1063840A

Description

May 2l, QSS D, R, NEWSOME 3,384,50

CONTINUOUS CASTING WITH CONTROLLED FEEDING FROM PREDETERMINED SUPPLY Filed Oct. 25, 1965 2 Sheets-Sheet l INNEN-IOR D. R. NEwsomE Awhmmvlludrlmbols AT To RN aYS CAST/NG 2 Sheets-Sheet 9,

TUND/SH NEWSOME INVENTOR D. R NEwsoME ATTORNEY:

D. R. CONTINUOUS CASTING WITH CONTROLLED FEEDING FROM PREDETERMINED SUPPLY May 21, 1968 Filed oct. 25, 1965 T0 ATMOSPHERE m C Il.. w Q/Q W f RU. MWL( lll-mm A/AU 0m WP MC n ITI l E W L Dn 5 E H 3 l w EL M E 3./WMDIII. [IVM P V DNS I R rlaN WT 9.8M M rlllll' lllll In T v C 6 L- p l N 5 m rlvll 2 4 L lll 3/ ,Vcm. lll.lll...| l-IIIII. lllllll .Il \IIMH R :ili: VW C m V Dn m y T 4I 2 n\ M A TM OSPHE RE United States Patent O 3,384,150 CONTINUOUS CASTING WITH CONTROLLED FEEDING FROM PREDETERMINED SUPPLY David Russell Newsome, Sheffield, England, assignor to Davy and' United Engineering Company, Limited, Sheffield, Yorkshire, England Filed Oct. 25, 1965, Ser. No. 506,619 Claims priority, application Great Britain, Oct. 26, 1964, 43,586/64 8 Claims. (Cl. 164-155) This invention relates to apparatus for feeding flowa-ble material particularly suited to feeding molten metal to a continuous casting machine.

According to the invention there is provided apparatus for feed-ing owable material from a container holding a predetermined amount of said material to Ia utilisation device said apparatus comprising a reservoir for said material connected by ow passages to said container and said device, means for applying gas under pressure to cause said material to llow from said container into said reservoir, means for applying gas under pressure to said reservoir to cause said material to ow from said reservoir to said utilisation device, yand means for regulating the gas pressure applied to lboth said container and reservoir in dependence upon the level of material in said reservoir in a sense to maintain said level substantially constant.

In the application of the invention to -feeding molten metal to a continuous casting machine the container may comprise a holding vessel for molten metal located in a pressure vessel, and connected to a tundish serving as the reservoir, and a common source of pressurised gas may serve for supplying pressurised gas to the pressure vessel to force metal from the holding vessel into the tundish and for providing a pressure in the tundish to force molten metal from the tundish to a continuous casting machine.

The tundish and holding vessel are preferably made of refractory or other insulating material and include heating means vfor controlling the temperature of the molten metal. In a preferred form the holding vessel is a mains frequency induction furnace.

Preferably gas is supplied to the pressure vessel at a substantially constantly increasing pressure to compensate for the reduction in heat in the holding vessel as the metal is lfed out, and the rate of increase of the pressure is automatically controlled to keep the level of molten metal in the tundish constant. If the level of metal in the tundish is kept constant .and the pressure in the tundish is kept constant the rate of flow from the tundish to a launder supplying the continuous casting machine should also -be constant. A nucleonic level detector in the tundish may be used as a final control both on the pressure in the pressure vessel and in the tundish.

An embodiment `of apparatus, in accordance with the invention, will now be described, by way of example only, with reference to the drawings accompanying the provisional specification of which:

FIGURE 1 is a vertical section through a molten metal holding vessel and tundish for feeding a continuous casting machine, and

FIGURE 2 shows a diagrammatic control circuit for the metal lfeeding apparatus of FIGURE 1.

A body of molten lmetal 12 is contained in a holding vessel 13, in the form of a mains frequency induction furnace, heated by coil 13a which is enclosed in a pressure vessel 14. The pressure vessel is connected by line 15 through variable throttle 15 to a pressurised gas reservoir 17. The pressure vessel also has an outlet to atmosphere through a variable throttle 18.

Bolted to the top of the pressure vessel is a refractory lined tundish heated Iby coil 20a. A vertical pipe 21,

3,384,156 Patented May 21, 1968 ice made from high alumina brick or castable refractory, connects the holding vessel 13 and tundish 20; the lower end 22` of the pipe 21 is located just above the bottom of the holding vessel while the upper end 23 projects into the tundish above the working'level of molten metal therein. The tundish is connected by line 24 through a variable throttle 25 to the gas reservoir 17, and has an outlet to atmosphere through `a variable throttle 26. The outlet `f-rom the tundish is an inclined passage 27 having its entrance 28 below the working level -of molten metal in the tundish land its outlet 29 above that level. The outlet 29 connects with the inlet of a launder30 which is arranged to direct the metal ow through before feeding it to a continuous casting machine 31. In the embodiment shown the casting machine takes the form of a grooved -rotatable wheel 32 which co-operates with an endless moving band which seals the groove. Itshould be understood however that the casting machine may be of -other forms such as a conventional open-ended reciprocating mould. Located in the tundish is a nucleonic level detector (not sho-wn) which is arranged to signal the metal level in the tundish to a level device signal transducer 33, which in turn is connected 'by a valve controller 34 to the

valves

25 and 26 controlling the pressure in the tundish and by a valve controller 35 connected to the

throttle

16 and 18 to control the pressure in the pressure vessel 14. The level device signal transducer is also connected -to the water pump control 36 of the casting machine and to the motor control 37 of the casting mach-ine to control the speed of casting operation of the -machine and the rate of cooling.

The lid 38 of the tundish is removable and the upper section 40 of the pipe 21 is also detachable to allow metal in the tundish to ow back into the holding vessel 13 at the end of a casting operation.

In operation the holding vessel 13 is filled with molten metal, which is maintained at the desired casting temperature by induction heating. The apparatus is suitable for casting a variety of metals such as ferrous metals or aluminum. In the case of steel for example, the metal temperature will be maintained between 1550 C. and 1600 C. when the holding vessel is -full the pressure vessel is pressurised to force metal up the pipe 21 into the tundish. When the metal has reached a predetermined level in the tundish the automatic control can be switched on. This applies a small pressure in the tundish forcing the metal up the passage 27 into the launder and into the casting machine. The pressure in the pressure vessel is continuously increased at a substantial constant rate to keep a constant flow from the holding vessel to the tundish. The nufcleonic level detector detects any variation in level and feeds back to the

throttles

16 and 25 to keep the flow into the casting machine constant. Towards the end of the cast when the holding vessel is nearly empty the pressure is maintained constant in the holding vessel and increased in the tundish to discharge as much as possible into the casting machine. The pressures are then released, the machine being stopped and the tundish emptied by pulling out the section 40 of the inlet pipe.

In one example, with a holding vessel capacity of six tons, a cast strip section 8 inches x 3A inches and a casting speed of 18 ft. per minute the pressure in the holding vessel was initially brought to 25 p.s.i., and during casting was increased at the rate of 0.4 p.s.i. per minute while the pressure in the tundish was held substantially constant at less than 5 p.s.i.

It will be seen that such a feeding device is very suitable for automatic control and in particular the iinal control is extremely near the casting machine. If it is necessary to stop the flow of metal to the casting machine at any time this can be done immediately by releasing the pressure in the tundish.

It will be appreciated that whilst described above in connection with the feeding of molten metal the invention is equally of application in feeding any flowable material.

I claim:

1. Apparatus for continuously feeding flowable material from a container holding a predetermined amount of said material to a device for imparting a shape to said material, said apparatus comprising a reservoir for said material connected by flow passages to said container and said device, means for applying gas under pressure to cause said material to ilow continuously from said container into said reservoir, means for applying gas under pressure to said reservoir to cause said material to ow continuously from said reservoir to said device, and means for regulating the gas pressure applied to both said container and reservoir in dependence upon the level of material in said reservoir to maintain said level substantially constant.

2. Apparatus as claimed in claim 1 wherein the means for applying gas under pressure to said container is arranged progressively to increase the pressure applied to compensate for the progressive reduction in head of material in the container as the material is fed out of it.

3. Apparatus as claimed in claim 1 for feeding molten material wherein said container and reservoir are provided with means for maintaining said material in molten state.

4. Apparatus as claimed in claim 1 including a level detector associated with said reservoir and arranged to provide signals indicative of the material level in said reservoir and wherein said regulating means is responsive to the signals from said detector to regulate said pressures.

S. Apparatus as claimed in claim 4 including means responsive to signals from said detector to regulate the speed of operation of said device to maintain said level constant.

6. Apparatus as claimed in claim 1 for feeding molten material wherein said container is constituted by a furnace enclosed in a Ipressure vessel and said regulating means is Iarranged to control the inllow and outflow of pressurised gas into and from said vessel.

7. Apparatus as claimed in claim 1 for feeding molten material lwherein said reservoir is constituted by a heated tundish and said regulating means is arranged to control the inow and outflow of pressurised gas into and from said tundish.

8. Apparatus as claimed in claim 'i wherein said device is a continuous casting machine.

References Cited UNITED STATES PATENTS 3,050,794 8/ 1962 Holz 266-38 3,187,394 6/1965 Tama et al 164-155 3,191,247 6/ 1965 Holz 266-38 3,287,773 11/1966 Woodburn 164-155 3,310,850 3/ 1967 Armbruster 164-281 I. SPENCER OVERHOLSER, Primary Examiner.

R. D. BALDWIN, Assistant Examiner.

Claims

1. APPARATUS FOR CONTINUOUSLY FEEDING FLOWABLE MATERIAL FROM A CONTAINER HOLDING A PREDETERMINED AMOUNT OF SAID MATERIAL TO A DEVICE FOR IMPARTING A SHAPE TO SAID MATERIAL, SAID APPARATUS COMPRISING A RESERVOIR FOR SAID MATERIAL CONNECTED BY FLOW PASSAGES TO SAID CONTAINER AND SAID DEVICE, MEANS FOR APPLYING GAS UNDER PRESSURE TO CAUSE SAID MATERIAL TO FLOW CONTINUOUSLY FROM SAID CONTAINER INTO SAID RESERVOIR, MEANS FOR APPLYING GAS UNDER PRESSURE TO SAID RESERVOIR TO CAUSE SAID MATERIAL TO FLOW CONTINUOUSLY FROM SAID RESERVOIR TO SAID DEVICE, AND MEANS FOR REGULATING THE GAS PRESSURE APPLIED TO BOTH SAID CONTAINER AND RESERVOIR IN DEPENDENCE UPON THE LEVEL OF MATERIAL IN SAID RESERVOIR TO MAINTAIN SAID LEVEL SUBSTANTIALLY CONSTANT.