US3702630A

US3702630A - Apparatus for casting solid cylindrical metallic objects

Info

Publication number: US3702630A
Application number: US104091A
Authority: US
Inventors: Pierre Peytavin; Louis Babel
Original assignee: CENTRIFUGATION SOC CIV DE
Current assignee: CENTRIFUGATION SOC CIV DE; SOC CIVILE DITE DE CENTRIFUGATION
Priority date: 1971-01-05
Filing date: 1971-01-05
Publication date: 1972-11-14
Anticipated expiration: 1989-11-14

Abstract

Apparatus for continuously casting solid round castings suitable for direct drawing into tubes comprises a rotating bottomless mold, means for pouring molten metal into said mold at a point eccentric to the axis of the mold, and means for continuously withdrawing the casting from the bottom of the mold. Means are provided for vertically reciprocating the mold as it rotates.

Description

Umted States Patent [151 3,702,630 Peytavin et al. 5] Nov. 14, 1972 APPARATUS FOR CASTING SOLID 3,263,959 8/1966 Babel et a1 164/84 CYLINDRICAL METALLIC OBJEC IS FOREIGN PATENTS OR APPLICATIONS [72] Inventors: Pierre Peytavln, Aulnoye-Aymeries;

Louis Babel, sauvigny-bes-Boi 256.645 2/1928 Italy ..l64/82 both of France 909,465 10/ 1962 Great Britain 164/82 l 329 048 4/1963 France 164/84 73 A Soclete [up t 1 Paris 146,495 8/1954 Sweden ..l64/84 [22] Filed: 1971 Primary Examiner-R. Spencer Annear [21] App}, M0,: 104,091 Attorney-Holcombe, Wetherill & Brisebois RGIQM US. Application DI 57 ABSTRACT [62] 23 g: g ggzg z ggfigg Apparatus for continuously casting solid round N i 1965 castings suitable for direct drawing into tubes coma ne prises a rotating bottomless mold, means for pouring [52] CL 164/260 164/281 164/82 molten metal into said mold at a point eccentric to the 511 lm. 2 7/08 B22 d 11/10 the and means [581 Field of Search ..l6 4/82-85, 89, withdrawing the casting fmm 4 2 0 231 233 Means are provided for vertically reciprocating the mold as it rotates. [56] 1 cm, 8 Drawing Figures UNITED STATES PATENTS 2,752,648 7/1956 Robert..................164/84 UX PATENTED 14 I972 SHEET if 6 APPARATUS FOR CASTING SOLID CYLINDRICAL METALLIC OBJECTS This application is a division of our prior application, Ser. No. 7l0,427, filed Feb. 14, 1968, now US. Pat. No. 3,583,469, which was itself a continuation-in-part of our earlier application, Ser. No. 483,2l0, filed Aug. 27, 1965, now abandoned.

SUMMARY OF THE INVENTION Most processes which are in current use for manufacturing steel tubes begin by removing shavings from sections obtained by rolling ingots cast in a conventional manner.

It will be readily understood that the billets obtained in this manner are relatively expensive, and that this constitutes an increasing handicap in selling tubes manufactured according to said processes.

Processes are also known whereby bars or billets of polygonal section, and especially square section, are made by continuous static casting from molten steel.

Methods are also known, even though they involve some additional difficulties, which permit the production of steel bars by continuous non-rotating casting. Unfortunately, the round steel bars or billets heretofore obtained by the well known process of continuous casting have not had the necessary qualities to permit them to be directly transformed into tubes, bars, beams or threads (filaments) by traditional methods.

In fact, the round bars obtained by continuous static casting have a tendency to develop two types of flaws which make them unsuitable for the manufacture of tubes.

On the one hand, their surfaces often have fissures, which in the case of the more serious ones, are productive of flaws in the outer surface of the tubes, and on the other hand, it frequently happens that round bars obtained by continuous casting have cavities in their central parts which lead to even more serious flaws in the tubes.

Although attempts have been made to produce round bars having superior qualities by traditional methods of continuous casting, it has not been possible heretofore to use them in industry because the relatively high cost of transforming a round bar into a tube involves a problem in that even an apparently small increase in the percentage of tubes rejected is enough to absorb and even exceed the savings realized by the manufacture of round bars by continuous casting, if these round bars are less perfect than the bars produced according to the traditional process.

The present application relates to novel apparatus for the continuous casting of round bars, particularly of steel, from which it is possible to form tubes, bars, beams or filaments having characteristics as good as those obtained from the round bars produced by processes now in use.

This apparatus is essentially characterized by the fact that it comprises a cooled mold turning at a speed within a predetermined range about a practically vertical axis, and means for introducing a jet of molten metal entering at a point eccentric with respect to the axis of the mold.

According to the invention, the jet of molten metal may strike the mold at a point located in the outer third of the radius of the casting.

In addition, it may be advantageous to impart to the jet of molten metal supplied to the mold a component of horizontal speed perpendicular to the radius of the mold passing through the impact point.

According to one preferred method of carrying out the invention there may be imparted to the jet of liquid metal a horizontal component of speed different from the tangential speed of the mold, at the point of impact of the jet, so as to cause the part of the metal that is still liquid to rotate relative to the mold.

In accordance with the invention, the casting is preferably cooled after leaving the mold by a spray of water from fixed jets, which has the advantage of an excellent distribution of the cooling action about the periphery of the rough casting.

Cooling of the rough casting at its departure from the mold may also be effected by means of jets turning, with respect to the axis of the casting, at a speed different from that of the casting.

The mold may advantageously be made from a good heat conducting metal such as copper, and may be cooled by a strong circulation of water.

According to the invention, the mold may have a slightly tapered shape, the smaller end of the frustoconical mold being situated at the bottom.

The mold should be rotated at a speed high enough to produce the desired rounding and smoothing effect on the eating surface, but low enough to avoid the creation of excessive centrifugal forces. In practice this speed depends in part on the diameter of the casting and it has been found that the minimum speed of rotation, in revolutions per minute, is equal to 6,000, divided by the diameter of the casting in millimeters, and that the maximum speed for any casting is three times the minimum. Thus in the case of casting having a diameter of mm the minimum speed of rotation is 6,000]! 20= 50 rpm. and the maximum is 150 r.p.m.

The speed of extraction from the mold is naturally a function of its diameter. By way of example, the applicant has obtained excellent results with extraction speeds of 60 to 80 centimeters per minute for castings having a diameter of mm. However, extraction speeds above this may be utilized in carrying out the invention.

An examination of round bars produced by the apparatus according to the present invention reveals scarcely any flaws on the surface, and inspection of macrographic sections thereof fails to show the existence of any significant defect or appreciable porosity in the axial portion of the casting.

These remarkably good results are due to the combination of the rotation of the mold and the feeding of molten metal through the spout so positioned that the impact point of the molten metal is eccentric with respect to the axis of the mold.

In fact, the elimination of one or the other of these two features leads to results quite markedly inferior in quality as compared with the castings produced according to the present invention.

It is believed that the improved quality of the results obtained over and above that of the round bars produced in prior continuous casting apparatus, can be explained by a very great uniformity in the formation of the solidified wall of the casting which thickens during cooling.

This great regularity in the formation of the wall of the casting seems to be due, in the apparatus according to the invention, to the fact that the jet of liquid metal flowing from the spout falls on a constantly changing point on the casting, at which point its temperature decreases rapidly, which avoids the abrasive effect of the jet of liquid metal on already solidified parts of the shape.

In fact, it is known that one of the prevailing problems in conventional processes of non-rotating continuous casting, is that of irregularities in the formation of the walls of the casting, which irregularities result in large part from the fact that the jet of metal entering the mold flows along a very unstable path which leads it to irregularly lap the walls of the casting and to cause at certain spots a refusion of the metal which is just beginning to solidify.

lt has also been shown that when using the apparatus according to the present invention the slag and other impurities carried along by the jet of molten metal collect spontaneously in the central cavity of the paraboloid revolution formed by the free surface of the metal. The impurities consequently cannot cause defects on the external surface of the casting as is the case in those of continuous castings in which the mold is not rotated. Moreover, these impurities can easily be withdrawn by reason of the fact that they are concentrated at a very accessible point.

The feature of imparting to the jet of molten metal supplied to the casting, in accordance with a preferred embodiment of the invention, a horizontal speed component which is different from the tangential speed of the mold at the impact point, makes it possible to impart to the liquid metal contained in the casting during solidification, a differential rotating movement with respect to the solidified portion of the casting which is, of course, carried along by the speed of rotation of the mold. This rotational movement of the solidified part of the casting with respect to the liquid metal which it supports also contributes very efficiently to an extremely regular formation of the walls of the casting.

The difference in speed of rotation between the solid and liquid parts of the casting is significant inasmuch as it is found that the dendrites of the casting are not radially disposed, but are disposed at a certain angle with respect to the radial direction of the casting. This angular alignment has a very favorable influence on the structure at the center of the latter.

Another object of the present invention is to provide a new article of manufacture consisting of a casting produced by the continuous casting process just described, one of the advantageous characteristics of which is that its dentn'tes are inclined with respect to the radii of its sections.

By way of example, the applicant has produced by continuous casting, round steel rods or sections directly utilizable for the manufacture of tubes by a process having the following characteristics: The round rods were manufactured in a mold having a diameter of 140 mm. The speed of rotation of the mold was 70 r.p.m. The jet of liquid metal struck the casting at a point located about mm from the wall of the mold. The speed of extraction of the casting was about 70/80 centimeters per minute.

In another example of operation utilizing the invention, a mold having a diameter of mm and a height of 220 mm turning at a speed of r.p.m. was utilized. The casting was made of grade 8 steel.

The casting was extracted at a speed of I 10 centimeters per minute, and cooled on leaving the mold by being sprinkled from stationary jets at a rate of flow of 6 to 8 cubic meters of water per hour.

The impact point of the jet of molten metal was centered at about 15 mm from the wall of the mold.

In another example of utilizing the invention, grade C steel was run through the same ingot mold having a 90 mm diameter and 220 mm in height, rotating at 90 r.p.m. The speed of extraction was about 1 meter per minute. The casting was not cooled on leaving the mold and the impact point of the jet of molten metal was at about 5 mm from the edge of the mold.

The castings of circular section obtained according to the invention, by reason of their particular structure resulting from their process of formation, have marked advantages when they are utilized for certain applications other than the conventional manufacture of tubes, in which they permit finished products of particularly good quality to be obtained.

A first application of these castings consists in cutting them in order to obtain lengths directly utilizable in the manufacture of any profiles whatever by hot drawing, and especially by hot drawing processes utilizing glass as a lubricant.

Another application of the castings of circular section according to the invention consists in utilizing them to obtain for example, through forging or rolling, rods or filaments of reduced diameter.

The apparatus according to the invention is characterized by the fact that it comprises in combination: a cooled mold section rotating about a substantially vertical axis, means for directing a jet of liquid metal to an eccentric point located at the upper part of the mold, and means to extract vertically toward the bottom the castings which is thereby formed.

A further object of the present invention is to provide apparatus of the foregoing type in which the mold is vertically reciprocated during the casting process.

The amplitude of the reciprocation may be of the order of from 5 to 30 mm. During this reciprocation the downward speed of the mold may be equal to or greater than the speed at which the casting is extracted, for example about l. l 5 times that speed.

The upward speed of the mold may differ from its downward speed, and may be, for example from 1 to 3 times as great.

The amplitude and speed of reciprocation of the mold are dependent on other casting conditions and particularly on the speed at which the casting passes through the mold.

The combination of rotation and vertical reciprocation of the mold causes the solidified skin of the casting to be more easily and surely formed, because the vertical movement of the casting relative to the surface of the mold cooperates with the centrifugal force resulting from rotation of the mold to prevent the adhesion of areas of the skin to the mold in a manner which would cause tearing of the skin.

As a consequence of the combination of these two characteristics, any points of adhesion which may develop are immediately separated by the relative vertical displacement between the mold and casting, while the liquid which is urged toward the mold wall be centrifugal force immediately reforms the skin covering the very small area over which it has been torn loose or ruptured by such adhesion.

This leads to better quality control and permits higher casting speeds.

It will of course be understood that the particular methods of using the round rods indicated above in no way limit the scope of the invention, which relates to a particular apparatus for the manufacture of round rods by continuous casting and the round rods produced by said method, whatever use is later made thereof.

Likewise, it is equally true that the invention is not limited to castings made of steel, but that it concerns all cylindrical casting which may be manufactured by the apparatus involved. from steel or from alloys whose fusion temperatures are on the order of those of conventional or special steels.

In order that the invention may be better understood, two preferred embodiments of the apparatus comprised by the invention will now be described, purely by way of illustration and example, with reference to the accompanying drawings in which:

FIG. 1 is a perspective view showing schematically a first apparatus for carrying out the process according to the invention;

FIG. 2 is a vertical cross section through the device shown in FIG. 1 taken along line [1-1] of FIG. 3;

FIG. 3 is a schematic plan view corresponding to FIG. 2;

FIG. 4 is a schematic top view showing the position of the impact point of the jet of molten metal with respect to the mold;

FIG. 5 is a schematic vertical elevation showing a second apparatus for carrying out the invention;

FIG. 6 is a schematic vertical section taken through the axis of the mold shown in FIG. 5',

FIG. 7 is a top plan view of the apparatus shown in FIG. 5; and

FIG. 8 is a schematic view showing the control system for the hydraulic cylinders used in connection with the apparatus of FIG. 5.

Like reference numerals throughout the several views.

In FIG. I there is shown a mold l which is mounted on means not shown so as to be able to turn about its vertical axis.

This mold I is driven by pinion 2 which meshes with ring gear 3 fixed on the mold.

As can be seen in FIG. 2, mold l is cooled by water circulating in cavities 4 appropriately positioned inside the mold walls.

A small spout 5 delivers ajet of liquid metal 6 which is cooled by the mold and forms a casting 7 the central part 8 of which is still liquid, as can be seen in FIG. 2.

It will be noted that by reason of the rotation of the mold, the free surface 9 of the liquid metal 8 has the shape of a paraboloid, at the center of which slag l0 collects and from which it can be easily eliminated.

The drawing also shows jets 11 which spray water into cooling contact with that portion of the casting 7 which has leh the lower part of the mold.

denote like parts It is noteworthy that because of the rotation of the casting according to the invention, it is possible to spray a very large quantity of cooling water which may, for example, be from 2 to 3 cubic meters of water per ton of cast metal.

FIG. 2 also shows how the casting is extracted toward the bottom by means of a device consisting, for example, of two pairs of power actuated rollers 12, resiliently urged against the casting and mounted on a toothed support 13 which is driven by a pinion 14 with the same speed of rotation as that which is communicated to the casting by mold 1.

FIG. 2 also shows how

pinions

2 and 14, which are mounted on a single shaft, can be driven by motor 15.

In order to illustrate the eccentric position of the stream 6 of liquid metal with respect to the mold, there is shown schematically in FIG. 4 the inner surface In of the walls of the mold, and the supply conduit 5, as well as the liquid metal jet or stream 6.

FIG. 4 also shows the radius R of the mold as well as distances D and d which are the distances of the impact point of the jet 6 on the casting from the center of the mold on the one hand, and from its wall 1a on the other hand.

As has been previously indicated, the axis of the spout 6 can be advantageously located in the outer third of the radius of the mold, which signifies that d is not more than R13.

Turning now to the second embodiment of the invention, FIG. 5 shows the upper part of a continuous casting machine in which the mold is vertically reciprocated.

Reference numeral 21 indicates the frame which carties the first cooling means and the first guide rolls to contact the workpiece. These are enclosed in the

housings

22 and 23 and are not illustrated since they are of a conventional type and the details thereof form no part of the invention.

The support for the rotary mold, which support carries reference numeral 24, swings about a pivot 25 so as to clear the top 220 of the housing 22, which gives access to the line along which the casting formed by the mold 26 is extracted. The axis 27 of the mold is, when in operating position, aligned with this line of extraction.

FIG. 6 shows how the rotating mold 26 is supported by two

thrust bearings

28 and 29, (which are schematically illustrated) and driven through a beveled ring gear 30 by a bevel gear 31 fixed to the shaft 32 driven from the motor 33 through gears 34.

For the sake of simplicity the rotary joints which make it possible to cool the mold 32 have not been illustrated since these joints are not in themselves novel.

FIG. 7 shows the ring gear 30 as well as the pinion 31, driven by the motor 33.

FIG. 7 also shows the two hydraulic cylinders 35 positioned on opposite sides of the rotating mold, as well as the hydraulic cylinder 36.

The movable pistons 35a of the hydraulic cylinders 35 act on the brackets 37 fixed to the frame of the sup port 24 of the rotating mold, which brackets are rein forced by the vertical webs 38 welded thereto.

The movable piston 36a of the hydraulic cylinder 36 rests directly on the supporting frame 24.

As has been schematically shown, the upper ends of the

movable pistons

35a and 36a of the hydraulic cylinders have a slightly conical shape so as to insure the exact positioning of the mold 26, when they engage in correspondingly shaped recesses in the brackets 37, in the case of the cylinders 35 and the support 24, in the case of the cylinder 36.

The pivot 25, which has been schematically shown, has the characteristic of permitting the vertical displacement of the mold support 24 when the latter is acted upon by the

cylinders

35 and 36.

On the other hand, when the movable pistons of the

cylinders

35 and 36 are completely lowered, the pivot 25 carries stops which keep the lower part of the mold 26 a certain distance above the surface 220, so that the mold 26 can be swung to uncover the upper of the housing 22.

FIG. and 7 also, schematically show the shoe 39 from which the jet of molten metal 40 is ejected to strike the casting at the eccentrically positioned point 41.

FIG. 8 schematically shows how the

hydraulic cylinders

35 and 36 are controlled from a single pump having three cylinders 43, the pistons 44 of which are simultaneously displaced by a shaft 45 provided with three identical cams 46, said shaft being driven by a motor 47 through suitable reduction gearing 48.

Conventional means are provided to compensate for any leaks which may occur in any of the circuits.

lt will thus be seen that rotation of the motor 47 causes the periodic raising and lowering of the mold support 24, by means of the

hydraulic cylinders

35 and 36.

Of course, the mold support 24 might be reciprocated by other means, such for example as mechanically controlled cams. However, the hydraulic device which has just been described afi'ords great flexibility in adjusting the speed and amplitude of reciprocation of the mold 26.

What is claimed is:

1. Apparatus for the continuous casting of solid cylindrical metallic objects, said apparatus comprising a cylindrical mold having its main axis vertically positioned, and being mounted for rotation about said main axis, means for cooling said mold, a motor connected to rotate said mold, means for directionally introducing a jet of molten metal into the upper portion of said mold, at a point eccentric to said axis, and in a direction transverse to a radius thereof, means for downwardly withdrawing the casting formed in said mold in a direction coaxial with said mold, and means for simultaneously and vertically reciprocating both said motor and said mold.

2. Apparatus according to claim 1 comprising means for cooling the workpiece as it emerges from said mold.

3. Apparatus as claimed in claim 1 in which said casting withdrawing means comprises an annular support beneath and in vertical alignment with said mold, power-actuated rollers carried by said annular support and positioned to bear against opposite sides of said casting after it leaves said mold, and means for rotating said annular support at the same speed as said mold.

4. Apparatus as claimed in claim 1 in which said jet introducing means is positioned to cause the molten metal in said jet to strike the metal in said mold at a point located within the outer third of the radius of said mold, but spaced inwardly from the wall thereof.

5. Apparatus as claimed in claim 1 in which said jet introducing means is positioned to introduce said jet in a direction substantially perpendicular to a radius of said mold.

6. Apparatus as claimed in claim 1 comprising vertically acting reciprocating means for moving said mold more rapidly in an upward direction than in a downward direction.

'7. Apparatus for the continuous casting of solid cylindrical metallic objects, said apparatus comprising a cylindrical mold having its main axis vertically positioned, and being mounted for rotation about said main axis, means for cooling said mold, means for directionally introducing a jet of molten metal into the upper portion of said mold, at a point eccentric to said axis, in a direction having a horizontal component transverse to a radius thereof and at a speed different from the tangential speed of the mold at said point, means for rotating said mold at a speed slow enough to permit said molten metal to form therein a tranversely continuous substantially uniform solid casting, and means for downwardly withdrawing the casting formed in said mold in a direction coaxial with said mold.

UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent N 3 J02 ,630 Dated November 1 4 1972 Inventofls) It is certified that error appears in the above-identified patent and that said Letters Patent are hereby corrected as shown below:

[73] Assignee: Societe Civile D'Etudes de Centrifugation,

Paris, France [30] Foreign Application Priority Data Sept. 4, 196 4 France PV 987,183 March 3 1965 France PV 7 ,785 July 4, 1967 France PV 112,9 8

Signed and Sealed this 3rd day of April 1973.

(SEAL) Attest:

EDWARD M.FLETCHER,JR. ROBERT GOTTSCHALK Attesting Officer Commissioner of Patents FORM USCOMM-DC 50376-1 69 U75 GUVERNMENT PRINTING OFFICE 1969 C-3GG-334

Claims

7. Apparatus for the continuous casting of solid cylindrical metallic objects, said apparatus comprising a cylindrical mold having its main axis vertically positioned, and being mounted for rotation about said main axis, means for cooling said mold, means for directionally introducing a jet of molten metal into the upper portion of said mold, at a point eccentric to said axis, in a direction having a horizontal component transverse to a radius thereof and at a speed different from the tangential speed of the mold at said point, means for rotating said mold at a speed slow enough to permit said molten metal to form therein a tranversely continuous substantially uniform solid casting, and means for downwardly withdrawing the casting formed in said mold in a direction coaxial with said mold.