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US2433014A - Apparatus for handling metallic strip - Google Patents

Apparatus for handling metallic strip Download PDF

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Publication number
US2433014A
US2433014A US481345A US48134543A US2433014A US 2433014 A US2433014 A US 2433014A US 481345 A US481345 A US 481345A US 48134543 A US48134543 A US 48134543A US 2433014 A US2433014 A US 2433014A
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Prior art keywords
strip
tension
bridle
rolls
magnet
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US481345A
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George H Rendel
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Carnegie Illinois Steel Corp
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Carnegie Illinois Steel Corp
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H23/00Registering, tensioning, smoothing or guiding webs
    • B65H23/04Registering, tensioning, smoothing or guiding webs longitudinally
    • B65H23/06Registering, tensioning, smoothing or guiding webs longitudinally by retarding devices, e.g. acting on web-roll spindle
    • B65H23/10Registering, tensioning, smoothing or guiding webs longitudinally by retarding devices, e.g. acting on web-roll spindle acting on running web
    • B65H23/14Tensioning rollers applying braking forces
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21CMANUFACTURE OF METAL SHEETS, WIRE, RODS, TUBES OR PROFILES, OTHERWISE THAN BY ROLLING; AUXILIARY OPERATIONS USED IN CONNECTION WITH METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL
    • B21C47/00Winding-up, coiling or winding-off metal wire, metal band or other flexible metal material characterised by features relevant to metal processing only
    • B21C47/003Regulation of tension or speed; Braking
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H23/00Registering, tensioning, smoothing or guiding webs
    • B65H23/04Registering, tensioning, smoothing or guiding webs longitudinally
    • B65H23/06Registering, tensioning, smoothing or guiding webs longitudinally by retarding devices, e.g. acting on web-roll spindle
    • B65H23/10Registering, tensioning, smoothing or guiding webs longitudinally by retarding devices, e.g. acting on web-roll spindle acting on running web

Definitions

  • the present invention relates to apparatus for insuring proper introduction of rapidly moving thin ferrous strip into electrolytic cells where the strip receives a coating of tin.
  • the stock which is employed customarily in an electrolytic tinning operation is very thin, being of the order of only at most a few hundredths of an inch in thickness, and is passed through the electrolytic coating cells at speeds up to a thousand feet a minute.
  • the manner in which such strip is handled prior to its entry into the electrolytic coating system is important in assuring that the rapidly moving strip is maintained continuously under suitable conditions in the electrolytic cell for receiving a uniform deposit.
  • One of these conditions that is requisite for the production in a uniform electrolytic coating is the measurements of the rapidly moving strip continuously at a constant distance from the anodes in the coating system, which means that the tension on the strip throughout its passage through the plating system is an lmpcr tant consideration, because the measurements eta controlled constant tension on the strip re suits in the maintenance of a constant speed of strip through the system and the maintenance of a constant distance from the anodes in the plating system.
  • There are maintained, consequently, continuously constant conditions in the cell which conditions are related directly to the amount of tension which is applied to the strip as it enters the plating system.
  • a commercial electrolytic tinning line for elec- 2 the operation continues.
  • There is employed single motivating means for pulling the strip through the entire line 'the motivating means comprising a roll bridle at the forward end of the line which pulls the strip through the entire system oi units at constant and controlled speedl
  • the tension urnder which the strip is introduced into the coating system is an important factor in the maintenance of continuously constant conditions in the coating system; and the present invention relates specifically to apparatus for handling such strip which assures controlled and constant tension on thestrlp as it enters the electrolytic system.
  • the present invention relates to a combined magnet and drag bridle for maintaining the correct and controlled back tension on metallic strip, particularly rapidly moving ferrous metal strip which is being passed through an electrolytic tinning system, although the invention is not limited to such "specific application.
  • the object or the present invention is to provide flexible means for retarding the on a preceding processing device so that the strip trolytically coating ferrous metal sti'iiPWlth-awill he maintained under a controlled back tension greater than that produced by a conventional bridle mechanism between the point at which the restraining force is applied and the point at which the strip is given its forward movement through intermediate processing devices, such as, for example, the aforementioned electrolytic coating system.
  • Fig. 1 is a sectional elevation of the apparatus for handling metallic strip from preceding processing equipment, the view being directed only to the particular part of the entire system to which the present improvements are applied;
  • Fig. 2 is a side elevation of the apparatus of Fig. 1 taken generally along the line 11-11 of Fig. 1, looking in the direction of the arrows.
  • a continuous strip 8 of metallic material is indicatd as coming from a slack producer looper pit and passing through a roller-side guide device 3, which guide device includes a plurality of staggeredly arranged rollers I, these rolls causing the continuous strip S to pass in a tortuous path therethrough.
  • a drag bridle Positioned adjacent to the magnetic drag, or tensloning, device 5, is a drag bridle which includes a plurality of drag bridle rolls I, around which the strip S is passed, as shown in the drawings.
  • the bridle rolls 1 are driven in unison by the movement of strip S around the rolls, which rolls are connected to suitable braking instrumentalities, which, for example, may be an electric generator, the output of which can be regulated, or by means of mechanical, hydraulic, or other means, acting on bridle rolls i to retard the rotation thereof.
  • an electric generator i3 is connected by means of suitable gearing, to the bridle rolls i, which may be geared together, as indicated diagrammatically on the drawing.
  • the strip S passes over the magnet 5 and around the drag bridle rolls 7, the strip acts as a belt, thus causing the rolls 3 to rotate, thereby revolving armature E2 of generator it.
  • Dynamic braking of the rolls l is accomplished by a load resistor l3, which is connected in parallel with armature l2. Rotation of armature 52 in the magnetic field produced by field winding ll, generates an electric current which is dissipated in the load resistor i3, thereby restraining the-forward rotation of the bridle rolls.
  • the electrical output of generator l4 may be regulated by adjusting the electrical strength of the field winding ii.
  • the field winding ll may be regulated in any suitable manner such as by a rheostat ill connected in series with field winding ii and connected in circuit across a power supply 9. Where the bridle rolls 1 are geared together, only one such arrangement needs to be employed; and consequently, it is preferred that the bridle rolls be geared together. However, in the event that the bridle rolls are not geared together, a separate dynamic braking mechanism similar to that described above and shown in Figure 1 is supplied for each roll.
  • the free forward movement of the strip is restricted.
  • the amount of restricting force is directly proportional to the area of surface contact between the strip and the rolls, the coefficient of friction at the said surface, and the force acting normally to the surface of the roll which holds the strip in intimate contact therewith.
  • the initiating tension applied to the strip material by the electromagnet 5 in conjunction with the mechanical advantages obtained by the bridle, results in a marked increase in the total restraining force applied to the strip S by its passage over the bridle, and assures constant conditions of tension of the strip as it passes through the electrolytic system, with attendant constancy of conditions in the electrolytic system, and in the succeeding units through which the strip passes to its finished stage.
  • the flux density of the magnet 5 may be controlled readily in any manner well-known in the art, such as by a rheostat 8 included in the current supply line 9, which connects the magnet 5 to a suitable source of current, not shown. This permits both flexibility and ease of control of the initiating tension applied to the strip by the magnet 5. In this manner, the total restraining force applied to the strip by the bridle rolls likewise may be controlled.
  • the initiating tension applied to the strip by the electromagnet 5 results in a snubbing effect on the'strip, causing it to be pulled tightly against the entry bridle roll and preventing slippage between the strip and the bridle roll.
  • the magnetic drag for producing the initiating tension on the strip is applied to only one side of the strip, thereby allowing all irregularities, such as cambered strip, wavy edges, dents, welded or otherwise joined coiled ends to pass freely over the tensioning magnet; whereas, if the restraining force were applied by a mechanical device operating on both sides of the strip, such irregularities would tend to pile up and cause the strip to be gouged, torn, folded over, or otherwise deformed, as well as tending to tear out, or otherwise damage, the restraining mechanism.
  • the relationship between the initiating tension magnet 5 and the bridle roll 1' may be expressed mathematically as follows:
  • T1 Pu1 (Equation 2) II.
  • the controlled initiating tension is then multiplied by use of the roll bridle which, when geared ⁇ to a suitabledrag device such as a generator, will act as a dynamic brake.
  • a suitabledrag device such as a generator
  • Tension apparatus for use with strip-moving means adapted to move a strip of magnetic material through strip handling instrumentalities, which comprises a plurality of spaced-apart rotatable rolls around which the strip is adapted to be passed for imparting tension to the strip,
  • the said magnet means being constructed and'arranged to impose an initiating tension on the strip for holding the strip constantly in engagement with the said rolls under a predetermined controlled initiaing tension, and means for guiding the said strip against sidewise movement, the said magnet means having a strip-engaging surface in a direct line with the strip-engaging surface of the initial roll of the bridle.
  • Tension apparatus for use with strip-moving means adapted to move a strip of magnetic material through strip handling instrumentalionly one side of the strip, and a friction facing 1 on the" magnetic, drag for engaging the strip to impart maximum possible friction on the strip while avoiding defacing of the strip, thereby imparting the said initiating tension on the strip,
  • the said magnetic drag having a plane strip-engaging surface in a direct line with the stripengaging surface of the initial roll of the bridle.
  • Tension apparatus for use with strip-moving means adapted to move a strip of magnetic material through strip handling instrumentalities, the said apparatus comprising a bridle including a plurality of spaced-apart rotatable bridle rolls around which the strip is adapted to be passed, an electromagnet adjacent to the entry side of the said rolls adapted to engage the strip and to impose an initiating tension on the strip for maintaining the strip in tight engagement with the said bridle rolls under a predetermined controlled tension, the magnet being in contact with only one side of the strip, a friction facing on the magnet for engaging the strip to impart maximum possible friction on the strip while avoiding defacing the strip, thereby imparting the said initiating tension on the strip, the said friction facing on the magnet having a stripengaging surface in a direct line with the strip engaging surface of the initial roll of the bridle and means for controllable varying current to the magnet for controlling the said initiating tension on the strip.
  • Tension apparatus for use with strip moving means adapted to move a strip ofmagnetic material through strip-handling instrumentalities, the said apparatus comprising a bridle including a plurality of spaced-apart rotatable bridle rolls around which the strip is adapted to be passed, an electromagnet adjacent to the entry side of the said rolls adapted to engage the strip and impose an initiating tension on the strip for maintaining the strip in tight engagement with the said bridle rolls under a predetermined controlled tension, the magnet being in contact with only one side of the strip, a friction facing on the magnet for engaging the strip to impart maximum possible friction on the strip while avoiding defacing the strip, the-facing being in direct line with the strip engaging surface of the initial roll of the bridle, thereby imparting the said initiating tension on the strip, means for dynamically braking the said bridle rolls, and means for supplying controllable varying current to the magnet for controlling the said initiating tension on the strip, the initiating tension magnet and the bridle rolls having a relationship
  • T1 tension of the strip after passing over the magnet
  • T2 tension of strip before passing over the magnet
  • Tension apparatus for use with trip moving means adapted to move a strip of magnetic material through strip-handling instrumentalities, the said apparatus comprising a bridle including a plurality of spaced-apart rotatable bridle rolls around which the strip is adapted to be passed, means for dynamically braking the bridle rolls, an electromagnet adjacent to the entry side of the said rolls'adapted to engage the strip and to impose an initiating tension on the strip for maintaining the strip in tight engagement with the said bridle rolls under a, predetermined controlled tension, the magnet being positioned adjacent to one side of the strip, a friction facing on the magnet for engaging the strip to impart maximum possible friction on the strip while avoiding defacing the strip, the friction facing being in direct line with the strip-engaging surface of the initial roll of the bridle, thereby im'- parting the same initiating tension on the strip, the said bridle rolls being related to the pull of the magnet
  • Tension apparatus for use with strip-moving means adapted to move a strip of magnetic material through strip-handling instrumentaiities, which comprises, in combination, a drag bridle including a plurality of spaced-apart bridle rolls around which the strip is adapted to be wrapped for imparting tension to the strip, means for braking the bridle rolls, one of the rolls being an entry roll over the upper surface of which the strip is initially wrapped as it enters the drag bridle, means for guiding the said strip against sidewise movement, and magnetic initiatng tenson means adjacent to the entry side of the said rolls, the said magnetic means being disposed on one side of its strip and having a non-abrasive friction pad mounted thereon, the said pad having its face in direct line between the stripwrapping surface of the entry roll and the said guide means, the said drag bridle multiplying the initiating tension imparted by the magnetic means through action of the braking means.
  • Tension apparatus for use with strip-moving means adapted to move a strip of magnetic material through strip-handling instrumentaiities, which comprises, in combinatiom'a drag bridle including a plurality of spaced-apart bridle rolls around which the strip is adapted to be wrapped for imparting tension to the strip, means for braking the bridle rolls, one of the rolls being an entry roll over the upper surface of which the strip is initially wrapped as it enters the drag bridle, means for guiding the strip against lateral movement, and magnetic initiating tension means adjacent to the entry side of the said rolls, the said magnetic'means being disposed on one side of the strip and having a flat face in direct line between the strip-wrapping surface of the entry roll and the said guide means, the said drag bridle multiplying the initiating tension imparted by the magnetic means through action of the braking means.
  • Tension apparatus for use with strip-moving means adapted to move a strip of magnetic material through strip-handling instrumentalities, which comprises, in combination, a drag bridle including a plurality of spaced-apart bridle rolls around which the strip is adapted to be wrapped for imparting tension to the strip, one of the rolls being an entry roll over the upper surface of which the strip is initially wrapped as it enters the drag bridle, and instrumentalities for imparting an initiating tension to the strip prior to its entry into the drag bridle, the said instrumentalities comprising a magnet and co- 15 operating guide mechanism for guiding the strip 10 against lateral movement, one of the initiating- I tension instrumentalities being adapted to in- REFERENCES CITED crease the tension imparte o th strip y the
  • the following references are of record in the other, the said magnethaving a flat surface in file of t t t; alignment with the guide mechanism and with 5 the strip-wrapping surface of the entry roll of UNITED STATES PATEN

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Description

Dec. 23, 1947. HLRENDEL 2,433,014
APPARATUS FOR H ANDLING METALLIC STRIP Original Filed April 28, 1959 INVENTOR.
fifoeaf A. A E/V054,
Potented Dec. 23, 1947 APPARATUS FOR HANDLING METAILIO STRIP George H. Rendei, Gary, lmt, asaignor to Carnegie-Illinois Steel Corporation, a corporation of New Jersey Continuation of application Serial No. 270,700, April 28, 1939. This application March 81, 1943, Serial No. 481,345
9 Claims. (Cl. 271-21) In accordance with the present invention, there are provided certain improvements in the ham dling of metal strip, especially thin strips of ferrous metal or steel preparatory to the application of another metal thereto.
More specifically, the present invention relates to apparatus for insuring proper introduction of rapidly moving thin ferrous strip into electrolytic cells where the strip receives a coating of tin. It will be remembered that the stock which is employed customarily in an electrolytic tinning operation is very thin, being of the order of only at most a few hundredths of an inch in thickness, and is passed through the electrolytic coating cells at speeds up to a thousand feet a minute.
The manner in which such strip is handled prior to its entry into the electrolytic coating system is important in assuring that the rapidly moving strip is maintained continuously under suitable conditions in the electrolytic cell for receiving a uniform deposit. One of these conditions that is requisite for the production in a uniform electrolytic coating is the measurements of the rapidly moving strip continuously at a constant distance from the anodes in the coating system, which means that the tension on the strip throughout its passage through the plating system is an lmpcr tant consideration, because the measurements eta controlled constant tension on the strip re suits in the maintenance of a constant speed of strip through the system and the maintenance of a constant distance from the anodes in the plating system. There are maintained, consequently, continuously constant conditions in the cell, which conditions are related directly to the amount of tension which is applied to the strip as it enters the plating system.
A commercial electrolytic tinning line for elec- 2 the operation continues. There is employed single motivating means for pulling the strip through the entire line, 'the motivating means comprising a roll bridle at the forward end of the line which pulls the strip through the entire system oi units at constant and controlled speedl As has been pointed out above, the tension urnder which the strip is introduced into the coating system is an important factor in the maintenance of continuously constant conditions in the coating system; and the present invention relates specifically to apparatus for handling such strip which assures controlled and constant tension on thestrlp as it enters the electrolytic system.
In general terms, the present invention relates to a combined magnet and drag bridle for maintaining the correct and controlled back tension on metallic strip, particularly rapidly moving ferrous metal strip which is being passed through an electrolytic tinning system, although the invention is not limited to such "specific application.
In general, the object or the present invention is to provide flexible means for retarding the on a preceding processing device so that the strip trolytically coating ferrous metal sti'iiPWlth-awill he maintained under a controlled back tension greater than that produced by a conventional bridle mechanism between the point at which the restraining force is applied and the point at which the strip is given its forward movement through intermediate processing devices, such as, for example, the aforementioned electrolytic coating system.
The invention will he understood more readily by referring to the accompanying drawings, wherein:
Fig. 1 is a sectional elevation of the apparatus for handling metallic strip from preceding processing equipment, the view being directed only to the particular part of the entire system to which the present improvements are applied;
Fig. 2 is a side elevation of the apparatus of Fig. 1 taken generally along the line 11-11 of Fig. 1, looking in the direction of the arrows.
Referring more particularly to the drawings, a continuous strip 8 of metallic material is indicatd as coming from a slack producer looper pit and passing through a roller-side guide device 3, which guide device includes a plurality of staggeredly arranged rollers I, these rolls causing the continuous strip S to pass in a tortuous path therethrough.
Due to the tortuous path of travel of the ferrous metal strip S through the guide device 3, a stifiness is imparted to the thin strip, which permits it to be laterally positioned by metal plates 3 on each side guide. The strip then passes over an electromagnet 5, which, by reason of the magnetic flux set up by the electromagnet 5, holds the under surface of the strip in intimate contact therewith. In order to prevent scratching of the strip during its passage over the electr'omagnet 5, and also to assure the maximum coefficient of friction between the magnet 5 and the strip S, there is provided upon the contact surface of the magnet 5 a non-abrasive facing material 6 such as, for example, cloth or other fibrous material, or any other friction-producing material which will not abrade the surface of the strip. This creates a controlled initiating tension on the strip, this tension being dependent mathematically on a magnetic pull and coefficient of friction between the friction pad 6 and the strip S.
Positioned adjacent to the magnetic drag, or tensloning, device 5, isa drag bridle which includes a plurality of drag bridle rolls I, around which the strip S is passed, as shown in the drawings. The bridle rolls 1 are driven in unison by the movement of strip S around the rolls, which rolls are connected to suitable braking instrumentalities, which, for example, may be an electric generator, the output of which can be regulated, or by means of mechanical, hydraulic, or other means, acting on bridle rolls i to retard the rotation thereof.
Thus, as may be seen from Figure 1, an electric generator i3 is connected by means of suitable gearing, to the bridle rolls i, which may be geared together, as indicated diagrammatically on the drawing. As the strip S passes over the magnet 5 and around the drag bridle rolls 7, the strip acts as a belt, thus causing the rolls 3 to rotate, thereby revolving armature E2 of generator it. Dynamic braking of the rolls l is accomplished by a load resistor l3, which is connected in parallel with armature l2. Rotation of armature 52 in the magnetic field produced by field winding ll, generates an electric current which is dissipated in the load resistor i3, thereby restraining the-forward rotation of the bridle rolls.
The electrical output of generator l4 may be regulated by adjusting the electrical strength of the field winding ii. The field winding ll may be regulated in any suitable manner such as by a rheostat ill connected in series with field winding ii and connected in circuit across a power supply 9. Where the bridle rolls 1 are geared together, only one such arrangement needs to be employed; and consequently, it is preferred that the bridle rolls be geared together. However, in the event that the bridle rolls are not geared together, a separate dynamic braking mechanism similar to that described above and shown in Figure 1 is supplied for each roll.
By reason of the resisted motion of the bridle rolls 1 and the intimate contact of the ferrous metal strip to the rolls, maintained by the tensioning action of the magnetic drag on the strip, the free forward movement of the strip is restricted. The amount of restricting force is directly proportional to the area of surface contact between the strip and the rolls, the coefficient of friction at the said surface, and the force acting normally to the surface of the roll which holds the strip in intimate contact therewith. By such a bridle construction, the restraining force after the ferrous metal strip has passed over the last roll of the bridle, is materially greater than the restraining force applied to the strip as it initially passes over the first roll of the bridle. By the present invention it is possible to minimize the number of rolls used in the bridle construction, and still obtain an increase in the restraining force over that obtainable by the drag bridle alone of the same design if employed without the cooperating initiating tension magnet 5 and its friction pad 6. This result is possible with the combination of the elements of the present invention due to the fact that the initial restraining force is applied to the strip before it enters the drag bridle. The initiating tension applied to the strip material by the electromagnet 5, in conjunction with the mechanical advantages obtained by the bridle, results in a marked increase in the total restraining force applied to the strip S by its passage over the bridle, and assures constant conditions of tension of the strip as it passes through the electrolytic system, with attendant constancy of conditions in the electrolytic system, and in the succeeding units through which the strip passes to its finished stage.
The flux density of the magnet 5 may be controlled readily in any manner well-known in the art, such as by a rheostat 8 included in the current supply line 9, which connects the magnet 5 to a suitable source of current, not shown. This permits both flexibility and ease of control of the initiating tension applied to the strip by the magnet 5. In this manner, the total restraining force applied to the strip by the bridle rolls likewise may be controlled.
In any case, the initiating tension applied to the strip by the electromagnet 5 results in a snubbing effect on the'strip, causing it to be pulled tightly against the entry bridle roll and preventing slippage between the strip and the bridle roll.
The magnetic drag for producing the initiating tension on the strip, is applied to only one side of the strip, thereby allowing all irregularities, such as cambered strip, wavy edges, dents, welded or otherwise joined coiled ends to pass freely over the tensioning magnet; whereas, if the restraining force were applied by a mechanical device operating on both sides of the strip, such irregularities would tend to pile up and cause the strip to be gouged, torn, folded over, or otherwise deformed, as well as tending to tear out, or otherwise damage, the restraining mechanism.
The relationship between the initiating tension magnet 5 and the bridle roll 1' may be expressed mathematically as follows:
I. For control of initiation tension:
T1=T2+Pu1 (Equation 1) where P=Total pull of magnet on strip u1=Coeflicient of friction between strip and pad T1=Tension of strip after passing over magnet Tz=Tension of strip before passing over magnet Normally T2 is very small compared to the tension T1 attained by use of the magnet, hence the tension imparted to the strip can be closely expressed by the formula.
T1=Pu1 (Equation 2) II. The controlled initiating tension is then multiplied by use of the roll bridle which, when geared} to a suitabledrag device such as a generator, will act as a dynamic brake. Such an arrangement can magnify the controlled tension imparted to the strip according to the following mathematical relationship: 7
where =Ratio of controlled initiating tension T1=Contr0lled initiating tension T3=Capacity tension e=Base of natural logarithms uz=Coefiicient of friction between the strip and the bridle roll surface =Aggregate angle of contact of the strip and all the bridle rolls (expressed in radians) Combining both of the above phases of the strip tension control principle (Equation 2 with Equation 3), the capacity tension which all rolls of any one bridle can exert is related to the pull of the magnet as follows.
' 0=Total angular wrap on bridle rolls (expressed in radians) While there has been shown and described herein a specific embodiment of the present invention, it will be apparent that the invention is not limited'to the exact embodiment herein illustrated and described, since various modifications may be made without departing from the scope of the invention, as defined by the following claims.
The present application is a continuation of the copending application Serial No. 270,700, filed April .23, 1939, entitled Handling metallic strip, which has become abandoned.
I claim:
1. Tension apparatus for use with strip-moving means adapted to move a strip of magnetic material through strip handling instrumentalities, which comprises a plurality of spaced-apart rotatable rolls around which the strip is adapted to be passed for imparting tension to the strip,
magnetic initiating tension means adjacent to the entry side of the said rolls, the said magnet means being constructed and'arranged to impose an initiating tension on the strip for holding the strip constantly in engagement with the said rolls under a predetermined controlled initiaing tension, and means for guiding the said strip against sidewise movement, the said magnet means having a strip-engaging surface in a direct line with the strip-engaging surface of the initial roll of the bridle.
2. Tension apparatus for use with strip-moving means adapted to move a strip of magnetic material through strip handling instrumentalionly one side of the strip, and a friction facing 1 on the" magnetic, drag for engaging the strip to impart maximum possible friction on the strip while avoiding defacing of the strip, thereby imparting the said initiating tension on the strip,
the said magnetic drag having a plane strip-engaging surface in a direct line with the stripengaging surface of the initial roll of the bridle.
3. Tension apparatus for use with strip-moving means adapted to move a strip of magnetic material through strip handling instrumentalities, the said apparatus comprising a bridle including a plurality of spaced-apart rotatable bridle rolls around which the strip is adapted to be passed, an electromagnet adjacent to the entry side of the said rolls adapted to engage the strip and to impose an initiating tension on the strip for maintaining the strip in tight engagement with the said bridle rolls under a predetermined controlled tension, the magnet being in contact with only one side of the strip, a friction facing on the magnet for engaging the strip to impart maximum possible friction on the strip while avoiding defacing the strip, thereby imparting the said initiating tension on the strip, the said friction facing on the magnet having a stripengaging surface in a direct line with the strip engaging surface of the initial roll of the bridle and means for controllable varying current to the magnet for controlling the said initiating tension on the strip.
4. Tension apparatus for use with strip moving means adapted to move a stri of magnetic material through strip-handling instrumentalitles, the said apparatus comprising a bridle includinga plurality of spaced apart rotatable brldle rolls around which the strip is adapted to be passed, an electromagnet adjacent to the entry side of the said rolls adapted to engage the strip and to impose an initiating tension on the strip for maintaining the strip in tight engagement with the said bridle rolls under a predetermined controlled tension, the magnet being in contact with only one side of the strip, a friction facing on the magnet for engaging the strip to impart maximum possible friction on the strip while avoiding defacing the strip, thereby imparting the said initiating tension on the strip, the said friction facing being in a direct line with the strip-engaging surface of the initial roll of the bridle and means for supplying controllable varying current to the magnet for controlling the said initiating tension on the strip, the initiating tension on the strip being controlled in accordance with the equation Ti=Tz+Pu1 where and Tz=tension of strip before passing over magnet.
5. Tension apparatus for use with strip moving means adapted to move a strip ofmagnetic material through strip-handling instrumentalities, the said apparatus comprising a bridle including a plurality of spaced-apart rotatable bridle rolls around which the strip is adapted to be passed, an electromagnet adjacent to the entry side of the said rolls adapted to engage the strip and impose an initiating tension on the strip for maintaining the strip in tight engagement with the said bridle rolls under a predetermined controlled tension, the magnet being in contact with only one side of the strip, a friction facing on the magnet for engaging the strip to impart maximum possible friction on the strip while avoiding defacing the strip, the-facing being in direct line with the strip engaging surface of the initial roll of the bridle, thereby imparting the said initiating tension on the strip, means for dynamically braking the said bridle rolls, and means for supplying controllable varying current to the magnet for controlling the said initiating tension on the strip, the initiating tension magnet and the bridle rolls having a relationship between them in accordance with the following mathematical equation:
I. For control of initiating tension:
T1. Tz+Pu1 where 'P=the total pull of the magnet on the strip T1=tension of the strip after passing over the magnet T2=tension of strip before passing over the magnet.
the said controlled initiating tension being multiplied by the dynamically braked bridle rolls, the said bridle rolls thereby magnifying the controlled initiating tension imparted to the strip in accordance with the mathematical relationship:
1 T1 P U1 (I I P where =ratio of controlled initiating tension to capacity tension 6. Tension apparatus for use with trip moving means adapted to move a strip of magnetic material through strip-handling instrumentalities, the said apparatus comprising a bridle including a plurality of spaced-apart rotatable bridle rolls around which the strip is adapted to be passed, means for dynamically braking the bridle rolls, an electromagnet adjacent to the entry side of the said rolls'adapted to engage the strip and to impose an initiating tension on the strip for maintaining the strip in tight engagement with the said bridle rolls under a, predetermined controlled tension, the magnet being positioned adjacent to one side of the strip, a friction facing on the magnet for engaging the strip to impart maximum possible friction on the strip while avoiding defacing the strip, the friction facing being in direct line with the strip-engaging surface of the initial roll of the bridle, thereby im'- parting the same initiating tension on the strip, the said bridle rolls being related to the pull of the magnet in accordance with the mathematical relationship:
' Ts=Pu1e':'
where Ta=Capacity tension of the bridle rolls P=Total controlled pull of magnet on the strip ui=Coefllcient of friction between the strip and the magnet pad e=Base of natural logarithms u2=Coeflicient of friction between the strip and the bridle rolls 0=Tota1 angular wrap of strip on the bridle rolls,
expressed in radians "l. Tension apparatus for use with strip-moving means adapted to move a strip of magnetic material through strip-handling instrumentaiities, which comprises, in combination, a drag bridle including a plurality of spaced-apart bridle rolls around which the strip is adapted to be wrapped for imparting tension to the strip, means for braking the bridle rolls, one of the rolls being an entry roll over the upper surface of which the strip is initially wrapped as it enters the drag bridle, means for guiding the said strip against sidewise movement, and magnetic initiatng tenson means adjacent to the entry side of the said rolls, the said magnetic means being disposed on one side of its strip and having a non-abrasive friction pad mounted thereon, the said pad having its face in direct line between the stripwrapping surface of the entry roll and the said guide means, the said drag bridle multiplying the initiating tension imparted by the magnetic means through action of the braking means.
8. Tension apparatus for use with strip-moving means adapted to move a strip of magnetic material through strip-handling instrumentaiities, which comprises, in combinatiom'a drag bridle including a plurality of spaced-apart bridle rolls around which the strip is adapted to be wrapped for imparting tension to the strip, means for braking the bridle rolls, one of the rolls being an entry roll over the upper surface of which the strip is initially wrapped as it enters the drag bridle, means for guiding the strip against lateral movement, and magnetic initiating tension means adjacent to the entry side of the said rolls, the said magnetic'means being disposed on one side of the strip and having a flat face in direct line between the strip-wrapping surface of the entry roll and the said guide means, the said drag bridle multiplying the initiating tension imparted by the magnetic means through action of the braking means.
9. Tension apparatus for use with strip-moving means adapted to move a strip of magnetic material through strip-handling instrumentalities, which comprises, in combination, a drag bridle including a plurality of spaced-apart bridle rolls around which the strip is adapted to be wrapped for imparting tension to the strip, one of the rolls being an entry roll over the upper surface of which the strip is initially wrapped as it enters the drag bridle, and instrumentalities for imparting an initiating tension to the strip prior to its entry into the drag bridle, the said instrumentalities comprising a magnet and co- 15 operating guide mechanism for guiding the strip 10 against lateral movement, one of the initiating- I tension instrumentalities being adapted to in- REFERENCES CITED crease the tension imparte o th strip y the The following references are of record in the other, the said magnethaving a flat surface in file of t t t; alignment with the guide mechanism and with 5 the strip-wrapping surface of the entry roll of UNITED STATES PATENTS the drag bridle, whereby increase of tension on Number Name Date the strip in the drag bridle avoids separation of 1,986,776 Moore Jan. 1, 1935 the strip from the face of the magnet, a constant 2,141,104 Buccicone Dec. 20, 1938 contact of the strip and magnet thereby being 10 1,971,666 Webster Aug. 23, 1934 continuously maintained. 2,035,312 Greer et a1 Mar. 24, 1936 GEORGE H. RENDEL.
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Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2731212A (en) * 1953-02-13 1956-01-17 Richard S Baker Polyphase electromagnet strip guiding and tension device
US2754883A (en) * 1952-12-22 1956-07-17 Firestone Tire & Rubber Co Apparatus for tension-calendering fabric
US2953369A (en) * 1957-04-05 1960-09-20 Avco Mfg Corp Magnetic drive and brake for magnetic tape
US3348585A (en) * 1963-05-28 1967-10-24 Continental Gummi Werke Ag Method of making industrial belts with strength wire members therein and apparatus for straightening and tensioning such strength wire members
US3380686A (en) * 1965-06-25 1968-04-30 Creil Const Mec Apparatus for winding electrically conducting metal strips
US3517894A (en) * 1967-10-09 1970-06-30 Edwin A Pauls Device for creating tension in a travelling strip
US3851395A (en) * 1971-12-03 1974-12-03 British Steel Corp Apparatus for measuring movement of a ferromagnetic member
EP0172179A1 (en) * 1984-02-09 1986-02-26 Lysaght Australia Ltd Inducing back tension in a moving strip via a drag pad.
US4915318A (en) * 1985-09-26 1990-04-10 John Lysaght (Australia) Limited Electromagnetic drag mechanisms for ferrous strip
US4991381A (en) * 1989-06-07 1991-02-12 Liberty Industries Stretch wrapped braking apparatus
US6840475B1 (en) * 1999-09-21 2005-01-11 Betriebsforschungsinstitut Vdeh-Institut Fur Angewandte Forschung Gmbh Method and device for the rolling or winding of strip

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1971666A (en) * 1932-07-29 1934-08-28 William R Webster Apparatus for heat treating strip metal
US1986776A (en) * 1933-11-27 1935-01-01 American Sheet & Tin Plate Auxiliary for tension reeling devices
US2035312A (en) * 1933-07-27 1936-03-24 Herbert C Greer Continuous strip annealing furnace
US2141104A (en) * 1937-03-15 1938-12-20 Buccicone Dario Feed regulating device

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1971666A (en) * 1932-07-29 1934-08-28 William R Webster Apparatus for heat treating strip metal
US2035312A (en) * 1933-07-27 1936-03-24 Herbert C Greer Continuous strip annealing furnace
US1986776A (en) * 1933-11-27 1935-01-01 American Sheet & Tin Plate Auxiliary for tension reeling devices
US2141104A (en) * 1937-03-15 1938-12-20 Buccicone Dario Feed regulating device

Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2754883A (en) * 1952-12-22 1956-07-17 Firestone Tire & Rubber Co Apparatus for tension-calendering fabric
US2731212A (en) * 1953-02-13 1956-01-17 Richard S Baker Polyphase electromagnet strip guiding and tension device
US2953369A (en) * 1957-04-05 1960-09-20 Avco Mfg Corp Magnetic drive and brake for magnetic tape
US3348585A (en) * 1963-05-28 1967-10-24 Continental Gummi Werke Ag Method of making industrial belts with strength wire members therein and apparatus for straightening and tensioning such strength wire members
US3380686A (en) * 1965-06-25 1968-04-30 Creil Const Mec Apparatus for winding electrically conducting metal strips
US3517894A (en) * 1967-10-09 1970-06-30 Edwin A Pauls Device for creating tension in a travelling strip
US3851395A (en) * 1971-12-03 1974-12-03 British Steel Corp Apparatus for measuring movement of a ferromagnetic member
EP0172179A1 (en) * 1984-02-09 1986-02-26 Lysaght Australia Ltd Inducing back tension in a moving strip via a drag pad.
EP0172179A4 (en) * 1984-02-09 1988-06-20 Lysaght Australia Ltd Inducing back tension in a moving strip via a drag pad.
US4915318A (en) * 1985-09-26 1990-04-10 John Lysaght (Australia) Limited Electromagnetic drag mechanisms for ferrous strip
US4991381A (en) * 1989-06-07 1991-02-12 Liberty Industries Stretch wrapped braking apparatus
US6840475B1 (en) * 1999-09-21 2005-01-11 Betriebsforschungsinstitut Vdeh-Institut Fur Angewandte Forschung Gmbh Method and device for the rolling or winding of strip

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