US2349569A - Processing of metal strip - Google Patents
Processing of metal strip Download PDFInfo
- Publication number
- US2349569A US2349569A US480397A US48039743A US2349569A US 2349569 A US2349569 A US 2349569A US 480397 A US480397 A US 480397A US 48039743 A US48039743 A US 48039743A US 2349569 A US2349569 A US 2349569A
- Authority
- US
- United States
- Prior art keywords
- strips
- strip
- furnace
- metal
- rolls
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Images
Classifications
-
- C—CHEMISTRY; METALLURGY
- C21—METALLURGY OF IRON
- C21D—MODIFYING THE PHYSICAL STRUCTURE OF FERROUS METALS; GENERAL DEVICES FOR HEAT TREATMENT OF FERROUS OR NON-FERROUS METALS OR ALLOYS; MAKING METAL MALLEABLE, e.g. BY DECARBURISATION OR TEMPERING
- C21D9/00—Heat treatment, e.g. annealing, hardening, quenching or tempering, adapted for particular articles; Furnaces therefor
- C21D9/52—Heat treatment, e.g. annealing, hardening, quenching or tempering, adapted for particular articles; Furnaces therefor for wires; for strips ; for rods of unlimited length
- C21D9/54—Furnaces for treating strips or wire
- C21D9/56—Continuous furnaces for strip or wire
- C21D9/60—Continuous furnaces for strip or wire with induction heating
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P10/00—Technologies related to metal processing
- Y02P10/25—Process efficiency
Definitions
- This invention relates to the continuous heattreatment of metal strip by means of electric induction.
- the heat-treatment of metal can be accomplished by electric induction by employing the transformer principle in which a primary coil is supplied with an alternating electric current, and the work, or metal to be treated, when placed in inductive relationship with the primary coil, is heated by its resistance to the induced electric or magnetic current.
- the strip was continuously passed in an axial direction through a primary 0011, the metal being heated by the locally induced magnetic and electric eddy currents.
- Such methods and apparatus have the disadvantage that with high conductivity non-magnetic strip it is difflcult to induce electrical eddy currents of sufficient magnitude to bring the strip to an effective treating temperature.
- the metal in the form of wire, or coiled rod was fed in the paths of a helix around, or through, a primary coll, but such methods and apparatus have among others the disadvantage of not being suitable for use with wide strip, due to the diiliculty involved in forming such strip into a helix.
- Another object of this invention is to provide an improved method and apparatus for the emor strips were continuously passed in parallel paths on opposite sides of a primary coil.
- a complete electrical circuit about the primary coil through the wires or strips was provided by means of contact bars having rollers on their ends in electrical contact with the moving wires or strips.
- Such methods and apparatus, in which contact bars and the like are employed have cient and economical continuous heating of metal strip by electric induction.
- Another object of the invention is to provide an improved process and an efiicient electric induction furnace' ior economically effecting the continuous heat treatment of metal strip having either high or low electrical conductivity.
- Still another object of the invention is to provide an improved process and an electric induction iurnacesuitable for the heat treatment of a non-magnetic metal such as a copper alloy in the form of strip.
- Figure l is a diagrammatic perspective view of metal strip treating apparatus illustrating an embodiment of this invention.
- Figure 2 is a diagrammatic perspective view of an electric induction furnace illustrating another'embodiment or this invention.
- Figure 3 is a diagrammatic perspective view of an electric furnace illustrating another embodiment of this invention.
- the metal strips l and 2 in one embodiment of the invention are continuously advanced lengthwise from rolls II and i2 through the furnace over support roll 5 at the charge end of the furnace, respectively over guide rolls 4 and under guide rolls 5 which maintain the strips separated while passing through the electromagnetic field set up by the primary induction coil 6 with leads 'I and 8 and core 9, over support roll ID on the discharge end of the furnace, and respectively over rolls I4 and I3.
- the wide surfaces of the strips I and 2 are in contact and they are bent around a substantial portion of the surface of the rolls 3 and Iii so that a large area of contact is provided with good electrical connection and low amperage per square inch between the strips to prevent arcing andburning.
- a complete secondary electric circuit is thus provided around the primary coil 6 in the loop formed by the moving strips, I and 2, between rolls 3 and I6.
- An alternating electric current which may be of either high or low frequency or, for instance, any of the available standard commercial frecuencies, is applied to the primary leads I and 6, and the strips are heated by the current induced in the loop.
- the temperature of the strips can be regulated either by varying the speed atwhich the strips travel or by varying the power supplied to the primary coil 6.
- the core 6 may be oi laminated iron mounted on any suitable support and the rollers II, I2. I3, I4, 3, l. and I6 may likewise be mounted on any suitable supports. If th rollers, 3. 4, 5 and III are made of metal or other electrical conductor, care must be taken to avoid providing any electrical connection between them through their supports,
- Such short circuiting can be avoided with metal rolls in any of the well known ways, for instance by supplying the rolls with bearin s made of an insulator or by providing separate supports or supports made of an insulator. It is preferred, however, to form the rolls themselves from an insulator.
- the primary induction means may consist of a primary coil I5 wound about a leg of the core I6 outside the loop, or as illustrated in Fi ure 3, may consist of a coreless primary coil I1 disposed within the loop.
- the stri s I and 2 are guided by rolls II, I2, 3, l, 5, ll, I6 and I3, but in practicing the invention, instead of such rolls any other suitable means that do not act destructively on the strips may be employed for guiding the strips in the proper paths.
- magnetic or nonmagnetic metal of either high or low electrical conductivity may be continuously heated in the form of flat strip having any desired width. Likewise the heating may be accomplished by applying current to the primary coil of any desired frequency within practical limit's.
- the brass to he annealed is in the form of flat strips, work-hardened by successive rolling operations and wound in' coil form, such strips being about 380 feet long, 15 inches wide, and 0.10 of an inch thick.
- the end of one 380 foot length of the strip reaches successively through a stitcher, a looping device, the induction furnace, a quenching or pickling tank, pinch rolls for advancing the strips, and a cutting. device.
- the stitcher I6, shown as operated by motor I9 may be any of the well known devices for fastening metal pieces together, and is used to join For example, when the stitcherj the end of another strip of the workhardened material is fastened to the end of the strip in stitcher merely by operating motor I 9 and stitching the two pieces together. If desired, however, the ends'of the strips may be joined by welding or any other suitable means.
- the looping device may be any suitable device for providing slack in the strips and as shown in Figure 1 may consist of pinch rolls 26 and II, operated respectively by motors 22 and 23 and gears 24 and 25, of roll 26 with weight 21, of roll 28 with bracket 29 and pulley 30 and cable 31 and weight 32, and of rolls 33 and 64.
- the looping device is operated in conjunction with the stitcher, that is, when it becomes necessary to stitch the ends of two of the strips together, the pinch rolls 20 and II are stopped, thus stopping the movement of the strips through the stitcher ,so that the stitching can be accomplished.
- the rolls 28 and 26 are drawn by the pull of the strips toward each other, thus raising the weights 3! and 2'! and permitting the continuous movement of the strips I and 2 through the furnace during the stitching operations.
- are rotated at an accelerated rate to lower the weights 32 and 21 and separate the rolls 26 and 26 the distance required for providing suflicient slack in the strips for the next stitching opera tion.
- the strips used in forming con tinuous strips I and 2 may be, so staggered that it is not necessary-to stitch on I and 2 at the same time.
- the stitching operation need not be employed, and the metal of individual rolls of the work hardened material can be progressively annealed, by simultaneously feeding at least two of such strips through the furnace along paths I and 2.
- strip I After leaving the lpoping device strip I passes over roll II around roll 6, over rolls 6 in close relation to primary coil 6, aroundroll I6 and over roll I4.
- Strip 2 simultaneously passes over roll I2, under strip I and in contact therewith around roll 3, over rolls 5 in close relation to primary coil 6, under strip I and in contact therewith around roll I6, and over roll I 5.
- the paths taken by the brass strips thus result in the continuous formation of a loop, strip I forming the upper part and strip 2 the lower part, about the primary coil 6.
- Good electrical connection between the strips is provided at rolls 3 and I6, and since the two strips are constantly changing their contact surface, little or no oxidation can take place to increase the electrical resistance at these points of contact.
- the strips after leaving the annealing furnace may, if desired, be passed through a quenching or pickling tank 35 before being advanced through pinch rolls 36 and 31, which are synchronously operated by motor 36 and gear train 39 and are used to pull the strips I and 2 simultaneously through the furnace.
- Pinch rolls such as 36 and 31 may also be used on the charge assasse end of the furnace to assist in advancing the strips through the furnace.
- the strips i and 2 may be cut, for instance by a flying shear l0, into any, lengths suitable for further treatment or shipment.
- the strips I and 2 are advanced through the furnace at the rate of about 1 foot per second by means of pinch rolls 3' and IT.
- a 60 cycle current of 440 volts is supplied to the primary leads I and I, which results in the heating of strips I and I to an annealing temperature of about 650 C.
- the degree of hardness of the annealed strip will depend within certain limits on the temperature of the strip and time of treatment at this temperature during the annealing operation. If, therefore, it is desired to obtain annealed strip having a certain degree of hardness, this is readily accomplished by changing either the speed of travel of the strip or the'power input to the primary, or both, until the temperature and time of treatment necessary for the desired strip hardness is obtained.
- any oxide film or discoloration which may form on the strips at the annealing temperature employed, may be readily removed by passing the strips through an acid pickling solution in tank 3!.
- the invention is likewise applicable to other metals and other heat treatments, for instance, it may be used for normalizing, quenching," and drawing" of steel strip, for the refiowins er tin on iron strip, for making copper clad steel sheet or other laminated sheet, and the like- If it ,is desired to treat more than two strips at a time in a single induction unit, this can readily be accomplished in accordance with this invention. For instance, instead of passing a single strip about each side of the induction means, several strips may be simultaneously passed about each side of the induction means, either with one on top the other or with narrow strip side by side in parallel paths.
- the induction means consists of a coil 0 or II with a core 9 or it, Figures 1 and 2.
- two or more strips may be passed about the top and bottom legs of the core in the manner illustrated in Figures 1 and 2 for strips i and 2.
- This invention accordingly provides means for the economical continuous heat treating of metal in strip form and has a wide field of utility without being subject to all the disadvantages obtained with prior processes and apparatus.
- the combination which comprises means for simultaneously feeding a plurality of metal strips-through said furnace, contacting means for bringing said moving strips together to form a plurality of electrical contacts between said strips, means intermediate said contacting means for separating said moving strips, and means for inducing an electric current in the electrical loop formed by said moving strips between said electrical contacts.
- the combination which comprises electric induction means, means for simultaneously advancing metal strips through said furnace, means for separating and maintaining said moving strips on opposite sides of and in inductive relation to said electric inducing means, and means for holding said moving strips together in electrical contact before and after passing said electric inducing means in traveling through said furnace.
- the combination which comprises a primary induction means, means for simultaneously advancing metal strips through said furnace, means for separating and maintaining said moving strips on opposite sides of and in inductive relation to said induction means, and roller means for holding said moving strips together in electrical contact both before and after passing said induction means in traveling through said furnace.
- an electric induction furnace for heating metal strip
- the combination comprising an alternating electromagnetic field, means for simultaneously advancing metal strips through said furnace, means for separating and maintaining said moving strips spaced on opposite sides of and in inductive relation to said field, and means for holding said moving strips together in electrical contact on each side of said held.
- an electric induction furnace for heating metal strip comprising an alternating electromagnetic field, means for simultaneously moving said strips through said field, means for maintaining said moving strips sep rately spaced in said field on opposite sides thereof and in inductive relation thereto and means for holding said moving strips together in electrical contact on each side of said field.
- an electric induction furnace for heating metal strip comprising means for simultaneously moving a plurality of strips through said furnace, means on the charging end of said furnace for holding said moving strips together in electrical contact, an alternating electromagnetic field adjacent said .holdlng means, means for separating said moving strips and guiding them in separately spaced paths through opposite sides of said field in inductive relation thereto, and means on the discharge end of said furnace for holding said moving strips together in electrical contact.
- an electric induction furnace for heatin metal strip comprising means for simultaneously moving a plurality of strips through said furnace, a roll on the charging end of said furnace for holding said moving strips together in electrical contact, a primary induction means adjacent said roll, means for separating said moving strips and guiding them in separate paths on opposite sides or said induction means, and a roll on the discharge end of said furnace for holding said moving strips together in electrical contact.
- a method for heat-treating metal strip which comprises simultaneously moving a plurality of strips lengthwise in pathssuch that they are in contact on each side an alternating electromagnetic field and separately spaced in opposite sides of said iield in inductive relation thereto.
- a method for the heat-treating oi metal strip which comprises advancing a plurality of strips through an alternating electromagnetic field in spaced paths on opposite sides thereof and in inductive relation thereto while holding said moving strips in electrical contact on each side of said field.
- a method for the heat-treating of metal strip comprising simultaneously advancing a plu-.
- the combination comprising means for simultaneously advancing a plurality of said strips lengthwise, means holding said moving strips together in electrical contact in at least two positions, means for separating said strips between said contact positions, and-means for inducing a current inthe loop formed by said moving strips intermediate said contact positions.
- roller means for simultaneously advancing a plurality of metal strips lengthwise in paths holding them together in electrical contact in at least two positions, means holding I them separately spaced intermediate said contact positions, and means for inducing a current in the loop formed by said moving strips intermediate said contact positions.
- the comblnation which comprises means for advancing metal strips through said furnace, a primar induction means, roller means guiding said strips about opposite sides of said induction means, and means for holding said moving strips together before and after passing said induction means, whereby a complete electric secondary loop is formed by said moving strips about said induction means.
Description
May 23, 1944. G. P. WILSON 2,349,569
PROCESSING OF METAL STRIPS Filed March 24, 1943 2 Sheets-Sheet 1 'o o Q W i 0 1, \y go Q a W a m t c; m N N J Q n o O is N N *3 I) Q 0 n i w a. Q INVENTOR Go/derRWfiscn a 25 ATTORNEY May 23, 1944. G p, WILSON 2,349,569
PROCESSING OF METAL STRIPSL Filed March 24, 1943 2 Sheets-Sheet 2 all I y 6 1 I 0 14 Fig: 2
INVENTOR GolderRM/son W8 ATTORNEY Patented May 23, 1944 PROCESSING OF METAL STRIP Golder P. Wilson, Alton, lll., assignor to Western Cartridge Compan East Alton, 111., a corporation of Delaware Application March 24, 1943, Serial No. 480,397
16 Claims.
This invention relates to the continuous heattreatment of metal strip by means of electric induction.
It has heretofore been well known that the heat-treatment of metal can be accomplished by electric induction by employing the transformer principle in which a primary coil is supplied with an alternating electric current, and the work, or metal to be treated, when placed in inductive relationship with the primary coil, is heated by its resistance to the induced electric or magnetic current.
Various methods and apparatus have been described heretofore ior bringing the metal into inductive relationship with the primary coil. For instance, in one method for treating metal strip, a length of the strip was rolled up to provide a ring formed of several layers of the strip and the ring was then heated by the current induced therein from a surrounding primary coll. Such methods and apparatus have the disadvantages of being limited to intermittent ODCI'QtIOIlyUld in the case of very thin wide strip, the individual layers in the ring tend to become warped at the higher temperatures due to their own weight, and
owing to the large cross section of the ring, formed by the layers of strip, a current of very high amperage must be induced in order to bring the ring to the effective temperature.
In another method, the strip was continuously passed in an axial direction through a primary 0011, the metal being heated by the locally induced magnetic and electric eddy currents. Such methods and apparatus have the disadvantage that with high conductivity non-magnetic strip it is difflcult to induce electrical eddy currents of sufficient magnitude to bring the strip to an effective treating temperature.
According to other methods, the metal in the form of wire, or coiled rod, was fed in the paths of a helix around, or through, a primary coll, but such methods and apparatus have among others the disadvantage of not being suitable for use with wide strip, due to the diiliculty involved in forming such strip into a helix.
According to still another method for heating metal in the form of wire or strip, two such wires the disadvantage that a portion of the induced current is consumed in overcoming the resistance offered by such contact bars, and, in some instances the contact parts are subject to excessive wear requiring frequent replacement.
All such prior methods and apparatus for the electric induction heat-treating ,of metal have been attended by one or more serious disadvantages and it is an object of this invention to provide an improved method and apparatus overcoming all such objections.
Another object of this invention is to provide an improved method and apparatus for the emor strips were continuously passed in parallel paths on opposite sides of a primary coil. A complete electrical circuit about the primary coil through the wires or strips was provided by means of contact bars having rollers on their ends in electrical contact with the moving wires or strips. Such methods and apparatus, in which contact bars and the like are employed, have cient and economical continuous heating of metal strip by electric induction.
Another object of the invention is to provide an improved process and an efiicient electric induction furnace' ior economically effecting the continuous heat treatment of metal strip having either high or low electrical conductivity.
Still another object of the invention is to provide an improved process and an electric induction iurnacesuitable for the heat treatment of a non-magnetic metal such as a copper alloy in the form of strip.
Other objects and advantages will become apparent from the description and accompanying drawings, in which,
Figure l is a diagrammatic perspective view of metal strip treating apparatus illustrating an embodiment of this invention,
Figure 2 is a diagrammatic perspective view of an electric induction furnace illustrating another'embodiment or this invention, and
Figure 3 is a diagrammatic perspective view of an electric furnace illustrating another embodiment of this invention.
The above objects and advantages are accomplished in accordance with this invention by providing a novel process and apparatus in which at least two strips of the metal to be treated are simultaneously advanced lengthwise along paths designed to maintain the moving strips in contact on either side of an alternating electromagnetic ileld while maintaining them separated in the field and in inductive relation thereto.
Thus a secondaryor complete electric circuit is formed by the moving strips, each strip forming a part of the loop and heating being effected by the resistance of the metal to the current induced in the loop.
Referring to the drawings, in Figure 1 the metal strips l and 2 in one embodiment of the invention are continuously advanced lengthwise from rolls II and i2 through the furnace over support roll 5 at the charge end of the furnace, respectively over guide rolls 4 and under guide rolls 5 which maintain the strips separated while passing through the electromagnetic field set up by the primary induction coil 6 with leads 'I and 8 and core 9, over support roll ID on the discharge end of the furnace, and respectively over rolls I4 and I3. In passing over rolls 3 and I the wide surfaces of the strips I and 2 are in contact and they are bent around a substantial portion of the surface of the rolls 3 and Iii so that a large area of contact is provided with good electrical connection and low amperage per square inch between the strips to prevent arcing andburning. A complete secondary electric circuit is thus provided around the primary coil 6 in the loop formed by the moving strips, I and 2, between rolls 3 and I6.
An alternating electric current, which may be of either high or low frequency or, for instance, any of the available standard commercial frecuencies, is applied to the primary leads I and 6, and the strips are heated by the current induced in the loop. The temperature of the strips can be regulated either by varying the speed atwhich the strips travel or by varying the power supplied to the primary coil 6. The core 6 may be oi laminated iron mounted on any suitable support and the rollers II, I2. I3, I4, 3, l. and I6 may likewise be mounted on any suitable supports. If th rollers, 3. 4, 5 and III are made of metal or other electrical conductor, care must be taken to avoid providing any electrical connection between them through their supports,
' since the induced current might then flow through the supports instead of being confined to the strips I and 2. Such short circuiting can be avoided with metal rolls in any of the well known ways, for instance by supplying the rolls with bearin s made of an insulator or by providing separate supports or supports made of an insulator. It is preferred, however, to form the rolls themselves from an insulator.
Any other suitable means may be employed for supplying the alternating electroma netic field. For instance, as illustrated in Figure 2, the primary induction means may consist of a primary coil I5 wound about a leg of the core I6 outside the loop, or as illustrated in Fi ure 3, may consist of a coreless primary coil I1 disposed within the loop. In the illustrations of Figures 1. 2. and 3 the stri s I and 2 are guided by rolls II, I2, 3, l, 5, ll, I6 and I3, but in practicing the invention, instead of such rolls any other suitable means that do not act destructively on the strips may be employed for guiding the strips in the proper paths.
In accordance with this invention magnetic or nonmagnetic metal of either high or low electrical conductivity may be continuously heated in the form of flat strip having any desired width. Likewise the heating may be accomplished by applying current to the primary coil of any desired frequency within practical limit's.
As a specific example illustrating an embodiment of the invention, the annealing of brass will be described in detail with reference to the accompanying drawings.
The brass to he annealed is in the form of flat strips, work-hardened by successive rolling operations and wound in' coil form, such strips being about 380 feet long, 15 inches wide, and 0.10 of an inch thick.
Referring to Figure 1, two such coils are unrolled and the strips simultaneously advanced the work-hardened strips.
the end of one 380 foot length of the strip reaches successively through a stitcher, a looping device, the induction furnace, a quenching or pickling tank, pinch rolls for advancing the strips, and a cutting. device.
The stitcher I6, shown as operated by motor I9 may be any of the well known devices for fastening metal pieces together, and is used to join For example, when the stitcherj the end of another strip of the workhardened material is fastened to the end of the strip in stitcher merely by operating motor I 9 and stitching the two pieces together. If desired, however, the ends'of the strips may be joined by welding or any other suitable means.
The looping device may be any suitable device for providing slack in the strips and as shown in Figure 1 may consist of pinch rolls 26 and II, operated respectively by motors 22 and 23 and gears 24 and 25, of roll 26 with weight 21, of roll 28 with bracket 29 and pulley 30 and cable 31 and weight 32, and of rolls 33 and 64. The looping device is operated in conjunction with the stitcher, that is, when it becomes necessary to stitch the ends of two of the strips together, the pinch rolls 20 and II are stopped, thus stopping the movement of the strips through the stitcher ,so that the stitching can be accomplished.
This, however, does not prevent'the continu- When the rolls 20 and 2| are stopped, the rolls 28 and 26 are drawn by the pull of the strips toward each other, thus raising the weights 3! and 2'! and permitting the continuous movement of the strips I and 2 through the furnace during the stitching operations. At the end of the stitching operation, the pinch rolls 26 and 2| are rotated at an accelerated rate to lower the weights 32 and 21 and separate the rolls 26 and 26 the distance required for providing suflicient slack in the strips for the next stitching opera tion. If desired the strips used in forming con tinuous strips I and 2 may be, so staggered that it is not necessary-to stitch on I and 2 at the same time. Likewise, if desired, the stitching operation need not be employed, and the metal of individual rolls of the work hardened material can be progressively annealed, by simultaneously feeding at least two of such strips through the furnace along paths I and 2.
After leaving the lpoping device strip I passes over roll II around roll 6, over rolls 6 in close relation to primary coil 6, aroundroll I6 and over roll I4. Strip 2 simultaneously passes over roll I2, under strip I and in contact therewith around roll 3, over rolls 5 in close relation to primary coil 6, under strip I and in contact therewith around roll I6, and over roll I 5. The paths taken by the brass strips thus result in the continuous formation of a loop, strip I forming the upper part and strip 2 the lower part, about the primary coil 6. Good electrical connection between the strips is provided at rolls 3 and I6, and since the two strips are constantly changing their contact surface, little or no oxidation can take place to increase the electrical resistance at these points of contact.
The strips after leaving the annealing furnace may, if desired, be passed through a quenching or pickling tank 35 before being advanced through pinch rolls 36 and 31, which are synchronously operated by motor 36 and gear train 39 and are used to pull the strips I and 2 simultaneously through the furnace. Pinch rolls such as 36 and 31 may also be used on the charge assasse end of the furnace to assist in advancing the strips through the furnace.
After treatment, the strips i and 2 may be cut, for instance by a flying shear l0, into any, lengths suitable for further treatment or shipment.
In annealing the work-hardened brass, the strips I and 2 are advanced through the furnace at the rate of about 1 foot per second by means of pinch rolls 3' and IT. A 60 cycle current of 440 volts is supplied to the primary leads I and I, which results in the heating of strips I and I to an annealing temperature of about 650 C. In practical operation the degree of hardness of the annealed strip will depend within certain limits on the temperature of the strip and time of treatment at this temperature during the annealing operation. If, therefore, it is desired to obtain annealed strip having a certain degree of hardness, this is readily accomplished by changing either the speed of travel of the strip or the'power input to the primary, or both, until the temperature and time of treatment necessary for the desired strip hardness is obtained.
Due to the proximity of the secondary loop and the primarycoil 8 and the good electrical connection between the strips I and 2 as they travel over rolls 3 and M, a very high power factor is obtained, namely about 0.90.
If it is desired to bright anneal the brass, this may readily be accomplished by enclosing the furnace, for instance including rolls ii, i2, i3 and I, in a housing supplied with an inert atmosphere in the usual manner. If no such housing is used, any oxide film or discoloration, which may form on the strips at the annealing temperature employed, may be readily removed by passing the strips through an acid pickling solution in tank 3!.
In the above specific example the application of the present invention to the annealing of brass is described in detail, but it should be understood that the invention is likewise applicable to other metals and other heat treatments, for instance, it may be used for normalizing, quenching," and drawing" of steel strip, for the refiowins er tin on iron strip, for making copper clad steel sheet or other laminated sheet, and the like- If it ,is desired to treat more than two strips at a time in a single induction unit, this can readily be accomplished in accordance with this invention. For instance, instead of passing a single strip about each side of the induction means, several strips may be simultaneously passed about each side of the induction means, either with one on top the other or with narrow strip side by side in parallel paths. Or, for instance, whenthe induction means consists of a coil 0 or II with a core 9 or it, Figures 1 and 2. two or more strips may be passed about the top and bottom legs of the core in the manner illustrated in Figures 1 and 2 for strips i and 2.
This invention accordingly provides means for the economical continuous heat treating of metal in strip form and has a wide field of utility without being subject to all the disadvantages obtained with prior processes and apparatus.
It is to be understood that the embodiments of the present invention as shown and described are only illustrative, and that the scope of the invention is not to be limited thereby except insofar as is defined in the following claims.
Having thus described the invention, what is claimed is:
i. In an electric induction furnace, the combination which comprises means for simultane- .said electrical contacts.
2. In an electric induction furnace, the combination which comprises means for simultaneously feeding a plurality of metal strips-through said furnace, contacting means for bringing said moving strips together to form a plurality of electrical contacts between said strips, means intermediate said contacting means for separating said moving strips, and means for inducing an electric current in the electrical loop formed by said moving strips between said electrical contacts.
3. In an electric induction furnace, the combination which comprises electric induction means, means for simultaneously advancing metal strips through said furnace, means for separating and maintaining said moving strips on opposite sides of and in inductive relation to said electric inducing means, and means for holding said moving strips together in electrical contact before and after passing said electric inducing means in traveling through said furnace.
'4. In an electric induction furnace, the combination which comprises a primary induction means, means for simultaneously advancing metal strips through said furnace, means for separating and maintaining said moving strips on opposite sides of and in inductive relation to said induction means, and roller means for holding said moving strips together in electrical contact both before and after passing said induction means in traveling through said furnace.
5. In an electric induction furnace for heating metal strip, the combination comprising an alternating electromagnetic field, means for simultaneously advancing metal strips through said furnace, means for separating and maintaining said moving strips spaced on opposite sides of and in inductive relation to said field, and means for holding said moving strips together in electrical contact on each side of said held.
6. In an electric induction furnace for heating metal strip, the combination comprising an alternating electromagnetic field, means for simultaneously moving said strips through said field, means for maintaining said moving strips sep rately spaced in said field on opposite sides thereof and in inductive relation thereto and means for holding said moving strips together in electrical contact on each side of said field.
7. In an electric induction furnace for heating metal strip, the combination comprising means for simultaneously moving a plurality of strips through said furnace, means on the charging end of said furnace for holding said moving strips together in electrical contact, an alternating electromagnetic field adjacent said .holdlng means, means for separating said moving strips and guiding them in separately spaced paths through opposite sides of said field in inductive relation thereto, and means on the discharge end of said furnace for holding said moving strips together in electrical contact.
8. In an electric induction furnace for heatin metal strip, the combination comprising means for simultaneously moving a plurality of strips through said furnace, a roll on the charging end of said furnace for holding said moving strips together in electrical contact, a primary induction means adjacent said roll, means for separating said moving strips and guiding them in separate paths on opposite sides or said induction means, and a roll on the discharge end of said furnace for holding said moving strips together in electrical contact.
9. A method for heat-treating metal strip which comprises simultaneously moving a plurality of strips lengthwise in pathssuch that they are in contact on each side an alternating electromagnetic field and separately spaced in opposite sides of said iield in inductive relation thereto.
10. A method for the heat-treating oi metal strip which comprises advancing a plurality of strips through an alternating electromagnetic field in spaced paths on opposite sides thereof and in inductive relation thereto while holding said moving strips in electrical contact on each side of said field.
ing strips and guiding them along opposite sides of an electric induction means and again bringing said strips together into electrical contact, while supplying said induction means with an alternating electric current and inducing a current in the loop formed by said moving strips about said in duction means.
rality of said strips lengthwise in paths holding them-together in electrical contact in at least two positions along said paths, them separately spaced between said contact positions, and inducing a current in the loop formed by said moving strips intermediate said contact positions.
14. In an electric induction furnace for heating metal strip, the combination comprising means for simultaneously advancing a plurality of said strips lengthwise, means holding said moving strips together in electrical contact in at least two positions, means for separating said strips between said contact positions, and-means for inducing a current inthe loop formed by said moving strips intermediate said contact positions.
15. In an electric induction furnace, the combination comprising roller means for simultaneously advancing a plurality of metal strips lengthwise in paths holding them together in electrical contact in at least two positions, means holding I them separately spaced intermediate said contact positions, and means for inducing a current in the loop formed by said moving strips intermediate said contact positions.
16. In an electric induction furnace, the comblnation which comprises means for advancing metal strips through said furnace, a primar induction means, roller means guiding said strips about opposite sides of said induction means, and means for holding said moving strips together before and after passing said induction means, whereby a complete electric secondary loop is formed by said moving strips about said induction means.
GOLDER P. WILSON.
hlle maintaining
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US480397A US2349569A (en) | 1943-03-24 | 1943-03-24 | Processing of metal strip |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US480397A US2349569A (en) | 1943-03-24 | 1943-03-24 | Processing of metal strip |
Publications (1)
Publication Number | Publication Date |
---|---|
US2349569A true US2349569A (en) | 1944-05-23 |
Family
ID=23907804
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US480397A Expired - Lifetime US2349569A (en) | 1943-03-24 | 1943-03-24 | Processing of metal strip |
Country Status (1)
Country | Link |
---|---|
US (1) | US2349569A (en) |
Cited By (16)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2417029A (en) * | 1944-05-22 | 1947-03-04 | Olin Ind Inc | Electric induction heating apparatus for continuously heating a plurality of metal strips |
US2465093A (en) * | 1946-07-03 | 1949-03-22 | Gen Electric | High-frequency corona arc heating apparatus |
US2480315A (en) * | 1946-08-17 | 1949-08-30 | Tube Turns Inc | Method and apparatus for making pipe bends and the like |
US2502770A (en) * | 1945-11-16 | 1950-04-04 | Carnegie Illinois Steel Corp | Induction heater |
US2652478A (en) * | 1949-01-07 | 1953-09-15 | Ohio Crankshaft Co | Electric induction heating apparatus |
US2675461A (en) * | 1949-07-29 | 1954-04-13 | Samuel E Leonard | Method and apparatus for heating metallic wire, bars, and strips |
US2694659A (en) * | 1950-09-29 | 1954-11-16 | Thompson Prod Inc | Induction heat treatment method |
US2761941A (en) * | 1953-06-01 | 1956-09-04 | Ardichvili Georges | Roller temperature modifying apparatus |
US2783788A (en) * | 1950-07-13 | 1957-03-05 | Rene Van Loo | Device and method for hardening sheet metal |
US2917613A (en) * | 1957-01-02 | 1959-12-15 | Telephone Mfg Co Ltd | Manufacturing processes |
US3045094A (en) * | 1959-01-30 | 1962-07-17 | Bethlehem Steel Corp | Heat treatment of continuous strand |
DE1191403B (en) * | 1961-02-01 | 1965-04-22 | Beteiligungs & Patentverw Gmbh | Wire annealing device |
US3190524A (en) * | 1962-07-25 | 1965-06-22 | Composite Metal Products Inc | Furnaces for heating and assembling metallic composite units |
US4668851A (en) * | 1985-09-06 | 1987-05-26 | Minnesota Mining And Manufacturing Company | Circuitry for control of the temperature of a heating element adapted to be contacted by a material to be heated |
FR2601217A1 (en) * | 1986-07-04 | 1988-01-08 | Siderurgie Fse Inst Rech | Device for driving and guiding a strip metal product subjected to a temperature modification |
US20050028574A1 (en) * | 2001-10-11 | 2005-02-10 | Lobbecke Bernd Von | Flat metal, production device and production method |
-
1943
- 1943-03-24 US US480397A patent/US2349569A/en not_active Expired - Lifetime
Cited By (16)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2417029A (en) * | 1944-05-22 | 1947-03-04 | Olin Ind Inc | Electric induction heating apparatus for continuously heating a plurality of metal strips |
US2502770A (en) * | 1945-11-16 | 1950-04-04 | Carnegie Illinois Steel Corp | Induction heater |
US2465093A (en) * | 1946-07-03 | 1949-03-22 | Gen Electric | High-frequency corona arc heating apparatus |
US2480315A (en) * | 1946-08-17 | 1949-08-30 | Tube Turns Inc | Method and apparatus for making pipe bends and the like |
US2652478A (en) * | 1949-01-07 | 1953-09-15 | Ohio Crankshaft Co | Electric induction heating apparatus |
US2675461A (en) * | 1949-07-29 | 1954-04-13 | Samuel E Leonard | Method and apparatus for heating metallic wire, bars, and strips |
US2783788A (en) * | 1950-07-13 | 1957-03-05 | Rene Van Loo | Device and method for hardening sheet metal |
US2694659A (en) * | 1950-09-29 | 1954-11-16 | Thompson Prod Inc | Induction heat treatment method |
US2761941A (en) * | 1953-06-01 | 1956-09-04 | Ardichvili Georges | Roller temperature modifying apparatus |
US2917613A (en) * | 1957-01-02 | 1959-12-15 | Telephone Mfg Co Ltd | Manufacturing processes |
US3045094A (en) * | 1959-01-30 | 1962-07-17 | Bethlehem Steel Corp | Heat treatment of continuous strand |
DE1191403B (en) * | 1961-02-01 | 1965-04-22 | Beteiligungs & Patentverw Gmbh | Wire annealing device |
US3190524A (en) * | 1962-07-25 | 1965-06-22 | Composite Metal Products Inc | Furnaces for heating and assembling metallic composite units |
US4668851A (en) * | 1985-09-06 | 1987-05-26 | Minnesota Mining And Manufacturing Company | Circuitry for control of the temperature of a heating element adapted to be contacted by a material to be heated |
FR2601217A1 (en) * | 1986-07-04 | 1988-01-08 | Siderurgie Fse Inst Rech | Device for driving and guiding a strip metal product subjected to a temperature modification |
US20050028574A1 (en) * | 2001-10-11 | 2005-02-10 | Lobbecke Bernd Von | Flat metal, production device and production method |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US2349569A (en) | Processing of metal strip | |
US1980875A (en) | Electric induction furnace | |
JPH0774392B2 (en) | Induction heating device | |
US2502770A (en) | Induction heater | |
US3826690A (en) | Method of processing aluminum electrical conductors | |
US2722589A (en) | Method and apparatus for uniformly heating intermittently moving metallic material | |
US2040343A (en) | Apparatus and method for heat-treating wire | |
US5069428A (en) | Method and apparatus of continuous dynamic joule heating to improve magnetic properties and to avoid annealing embrittlement of ferro-magnetic amorphous alloys | |
US2490206A (en) | Method of normalizing coiled springs by a high-frequency magnetic field | |
US2437776A (en) | Electric induction furnace for continuously heating metal strip | |
US2427485A (en) | Electric induction furnace for continuously heating metal strip | |
US2932502A (en) | Apparatus for continuous heat treating of wire | |
JP2001006864A (en) | Induction heating device | |
US2417030A (en) | Electric induction furnace for continuously heating metal strips | |
US1377574A (en) | Method of and apparatus for anneaxing sheets of metal | |
US2407120A (en) | Strip processing | |
US3929524A (en) | Method of heat treating linear long-length steel articles, apparatus for effecting said method and articles produced thereby | |
US2445866A (en) | Apparatus for electric resistance heating of moving metallic strip | |
US4221947A (en) | Annealing of wire | |
US2726971A (en) | Apparatus for drying and annealing wire | |
DE888181C (en) | Process for annealing and tempering strips or wires, in particular aluminum or aluminum alloys | |
US2417029A (en) | Electric induction heating apparatus for continuously heating a plurality of metal strips | |
US2675461A (en) | Method and apparatus for heating metallic wire, bars, and strips | |
US3182167A (en) | Resistance heating apparatus | |
US3499804A (en) | Heat treatment of clad wire or the like |