US2107541A - Wiping device for rolling mill rolls - Google Patents

Wiping device for rolling mill rolls Download PDF

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US2107541A
US2107541A US742949A US74294934A US2107541A US 2107541 A US2107541 A US 2107541A US 742949 A US742949 A US 742949A US 74294934 A US74294934 A US 74294934A US 2107541 A US2107541 A US 2107541A
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roll
rolls
coolant
mill
wiping
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Paul H Long
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American Rolling Mill Co
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American Rolling Mill Co
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21BROLLING OF METAL
    • B21B28/00Maintaining rolls or rolling equipment in effective condition
    • B21B28/02Maintaining rolls in effective condition, e.g. reconditioning
    • B21B28/04Maintaining rolls in effective condition, e.g. reconditioning while in use, e.g. polishing or grinding while the rolls are in their stands
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21BROLLING OF METAL
    • B21B27/00Rolls, roll alloys or roll fabrication; Lubricating, cooling or heating rolls while in use
    • B21B27/06Lubricating, cooling or heating rolls
    • B21B27/10Lubricating, cooling or heating rolls externally

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  • My invention relates to rolling mills, and more especially to means for regulating the application lof acooling medium to the rolls of such mills and to keeping said rolls cleanand polished.
  • my invention is applied to the rolls of a three-high mill; although it will be understood that I am not necessarily limited to the use of-myimprovement on such a' mill, this example being used because the difficulties en- 1J are especially well overcome by my improvement.
  • 'I'he art of 'rolling light gauges and especially wide light gauges on a threehigh mill is diflicult primarily because of the diiiicultyof keeping the light-gauge bars yor sheets suiliciently hot for a suiiicient time to secure the desired elongation, and atthe same time keeping the rolls col enough to prevent damage to themselves and consequently to the material being rolled. If suicient water is supplied to the rolls to keep them cool, the water running oil?
  • the rolls falls on the pack being rolled and chills it, frequently unevenly, hardening the pack to such an extent that it can no longer be elongated in the conventional-mill. It -is well known inthe art-that the conventional mill has so much spring in the rolls, together with that in the housings, that only small elongations are possible on cold, or /nearly cold, material.
  • suilicient variation' in hardness and gauge ocurs to make the material affect one part of the roll more than another part; or the roll itself may be more sensitive to heat in one partof its length than in another part there- ⁇ of. If this occurs, the actual effective diameter of the roll changes from time to time, often in a few minutes, with the resultpthat elongation is uneven from side to side of the material being rolled.
  • Rolls of various diameters within a limited range, will be used. Also, any given roll may wchangeits location relative to the mill housing; as by spring of the roll, roll cross or shifting from the designed axial line for the roll, spring in the roll neck mounting, or wear in the necks of the rolls. It is another object ofd my'invention, therefore, to provide a flexible relation of Lra controlling means suitable to attain the aforementioned objects, to the roll, so that the means operates with complete efciency under all conditions of roll diameter or displacement. L.
  • a further object is to prevent iiooding of the -roll necks by the cooling liquid.
  • Figure 2 is a side elevation ofY the lower roll and parts of its housings, conventionally indicated, and partwof its driving stub at one end,
  • Figure 3 is a fragmentary perspective view of an end part of one of the wiping strips.
  • Figure 4 is a fragmentary view of a modification.
  • Figure 5 is a fragmentary view of another modication.
  • the threehigh mill has, as well known in the art, the bottom roll A, the top roll B, and the intermediate or working roll C. These rolls have, suitably mounted by means not shown in detail because well known in the art, the'Y necks a, b and c, respectively, in the housing D as seen in Fig. 2, where part of the driving stub end of the roll there shown is seen at a'.
  • the feed-in table E is seen in Fig. 1 at the left, leading to the entrance between the' i bottom and intermediate rolls A and C; and above this, leading from the exit between the intermediate roll C and the top roll B, is the receiving table F for the return pass.
  • coolant supply means 2 for the intermediate or working roll C inv the same position relative to the return passage of the material between this roll C and the top roll B, for similar reasons.
  • coolant supply means 2 for the intermediate or working roll C is, as here shown, located substantially at the top of this top roll, at 3; although it will be understood that its relative position may be varied; and if so, preferably toward the right as seen in Fig. 1.
  • wiping devices are alike in construction and mounting, as well as in size, which .is preferable from the viewpoint of economy of construction; although it will be under-l Amost clearly seen in Fig. 3; and it is of such length as to extend from end to end of the working diameter of the roll to which it is applied.
  • the outer acute edge of the bevel is in contact with the roll; the inclination of the bevel being in the direction of travel of the roll surface at the area of contact. Since the wipers are locatetd at those sides of the rolls where the roll surface travel is downward, the wide side of the strip accordingly is downward. It has bevels 4a at both edges, sc that when one edge is excessively worn,
  • each wiper is such that the strip edge 4a contacts the roll along an area slightly below the horizontal plane of the roll axis;l and the strip has its width substantially parallel with that plane. Consequently,the drag of the roll ⁇ surface tends to bend'the -thin edge 4a downward, as indicated to a somewhat exaggerated degree in Fig. 1.
  • the strip 4 being of a resilient material, and having its edge thin by the bevel 4a, and this edge being bent down, or in the direction of roll surface travel, the restoring force of this resilient bent down edge or rlip is sufllcient to maintain the required uniformityof passage for coolant between the strip 4 and the roll, at all points along its length, notwithstanding any slight variations in roll diameter, or other surface variations on the roll, at any of the points.
  • This is an improvement in a wiper in its function of controlling distribution of coolant in the mannerand for the objects before explained..
  • a further improvement resulting from my invention is the performance of the other wiping function, that of keeping the roll surface as free as may be of foreign substances, as before explained, directly at the area of coolant illm control; preferably, as shown, by means included in the wiping strip '4 itself, whereby the maximum I coincidence of coolant-regulating and roll-cleaning locations is attained.
  • This has the advantage of carrying away the substances cleaned from 'the roll along with the excess/of coolant liquid over that allowed togremain as a lm on the roll,
  • hard rubber for the strip 4 while the abrasive A further result is that' ⁇ i rod I2 has near its inner end may be any well known material having sumcient abrasive properties to remove the foreign sub- LVstances from the roll surface, as for4 example emery, carborundum or the like.
  • hard rubber I do not mean that' form of rubber which is brittle alike bakelite, but live rubber which is resilient, although relatively hard.
  • base material such vas hard lrubber, and the abrasive
  • the base material should be considerably more resilient and preferably softer, than the materials usually employed as binders for abrasives in such tools.
  • Hard rubber of usual quality answers this purpose. Its softness permits it to function fully as a coolant wiper, and to wear readily relative to the abrasive particles 4b; and its resiliency permits it to conform its thin beveled edge 4a to the roll as beforementioned.
  • an angle bar 5 disposed with one member under the strip 4 and its other member upstanding beyond the strip 4 from the roll surface, so that, with'the aid of the roll surface itself, a trough is dformed along the roll.
  • Walls 6 are provided to close the trough at each end lof the angle bar 5; and the mounting of the bar 5 is such that it slopes from one end of the roll to the other as seen in Fig. 2.
  • a spout 1 leads from the lower end of the trough tlius formed, and inclines out away from the path of travel of the material being rolled, to discharge? the excess of coolant, as well as the scraped-.off foreign worn; requiring flexible mounting of the wiper.V
  • the rimary support is a bar I0, with its ends held in stirrup brackets I I ,on the opposite mill housings D as seen in Fig. 2.
  • thiabar has bosses 5a with openings, through its I2 with their outer ends fixed to the support bar l0, have their inner end parts I2a reduced in diameter, with sliding ilt in the openings of'the bosses 5a, so that the angle bar 5, carrying the wiping strip 4, may slide toward or from the roll.
  • each support rod I2 near the support bar I0, is threaded, with an adjusting nut I3 thereon compressing a spring I4 between it and theangle bar 5; this spring I4 being helical and fitting around the angle. bar boss 5a upright member; 'and support rods tion to the rollsurface if the latter varies as bev' fore mentioned. So'that the spring I4 may not Centirely displace the angle bar 5, carrying the wiping strip 4, from the mounting, the support a stop pin I6 extending through and xed in it.
  • the above described mounting structure while preferred, is exemplary; and it will be understood bedded in its surface that acts on the roll particles of abrasive material to eiect the removal of the foreign substance from the roll.
  • a combined coolant wiper and foreign-substance remover for a rolling-mill roll comprising a member of hard rubber, having embedded in its surface that acts on the roll particles of abrasive material to effect the removai ofthe foreign substance from the roll.
  • a coolant wiper for a. rolling mill roll comprising a strip of resilient material to extend longitudinally of the roll with an edge close to the roll, said edge being of reduced thickness to yield in the direction of roll surface travel, to adapt itself to irregularities of formation of the roll surface, and having embedded in its thin edge an abrasive to remove foreign substances from the roll surface coincident with its coolantwiping acticn.
  • a combined coolant wiper and foreign substance remever for rolling mill rolls comprising a member of hard rubber and an abrasive member, both of said members being located along an area longitudinally of the roll and of such limited extent crcumferentially of the roll as to perform their respective functions substantially coincidentally on a given area of the roll surface.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Metal Rolling (AREA)

Description

Feb. 8, 1938. P. H. LoNG 2,107,541
WIPING DEVICEFOR ROLLING: MILL' ROLLS Filedsept. e, 1954 A TTQRNEYJ.
Patented F eb. 8, .1938' PATENT ori-ICE WIPING DEVICE FOB ROLLING MILL ROLLS Paul'H. Long, Middletown, Ohio, assignor to The American Rolling Mill Company, Middletown, Ohio, a corporation of Ohio Application september s, 1934, serial No. 742,949
` 4 Claims.
My invention relates to rolling mills, and more especially to means for regulating the application lof acooling medium to the rolls of such mills and to keeping said rolls cleanand polished. As
5 illustrated herein, my invention is applied to the rolls of a three-high mill; although it will be understood that I am not necessarily limited to the use of-myimprovement on such a' mill, this example being used because the difficulties en- 1J are especially well overcome by my improvement. 'I'he art of 'rolling light gauges and especially wide light gauges on a threehigh mill is diflicult primarily because of the diiiicultyof keeping the light-gauge bars yor sheets suiliciently hot for a suiiicient time to secure the desired elongation, and atthe same time keeping the rolls col enough to prevent damage to themselves and consequently to the material being rolled. If suicient water is supplied to the rolls to keep them cool, the water running oil? the rolls falls on the pack being rolled and chills it, frequently unevenly, hardening the pack to such an extent that it can no longer be elongated in the conventional-mill. It -is well known inthe art-that the conventional mill has so much spring in the rolls, together with that in the housings, that only small elongations are possible on cold, or /nearly cold, material.
It is one of the objects of my invention, therefore, to keep the rolls suiiicientlyA cool by the proper application of the cooling liquid, yet avoid unduly rapid cooling of the pack being rolled, by keeping the cooling liquid off the pack.
Further, inrollingmateril of whatmay be termed even heat, suilicient variation' in hardness and gauge ocurs to make the material affect one part of the roll more than another part; or the roll itself may be more sensitive to heat in one partof its length than in another part there- `of. If this occurs, the actual effective diameter of the roll changes from time to time, often in a few minutes, with the resultpthat elongation is uneven from side to side of the material being rolled.
The problem of keeping the roll cool, therefore, is not only one of preventing damage to =the roll from heat, but that of keeping the roll cool enough for the operator of the mill to controlA its shape by varying the amount of cooling medium applied, as well as the point of application thereof.
It is -another object of my` invention, therefore, to'provide for the maintenance of-any desired 'proportion-vof the cooling liquid, usually water,
countered in the operation of three-high mills at any various areas along the length of the roll, in accordance with the variant application of the 'coolant by the perator.
Rolls of various diameters, within a limited range, will be used. Also, any given roll may wchangeits location relative to the mill housing; as by spring of the roll, roll cross or shifting from the designed axial line for the roll, spring in the roll neck mounting, or wear in the necks of the rolls. It is another object ofd my'invention, therefore, to provide a flexible relation of Lra controlling means suitable to attain the aforementioned objects, to the roll, so that the means operates with complete efciency under all conditions of roll diameter or displacement. L.
In the operation of a three-high inill, on the 'first pass the weight of the working roll and the -top roll rests on the bottom roll. Hence, due
to the enormous pressure at the instant the pack hits the mill, due to overcoming the inertia of the top and bottom rolls in a vertical direction, a welding temperature may be attained unless a lm of water is maintained on`the bottom roll. It is a further object of my invention to apply the Acooling'liquid to the bottom roll especially, at an area extending along the roll length as nearly as possible opposite, along the path of travel of the pack, tovthat area where the pack enters the mill; together with the resultant carrying of the coolant by the lower roll around under and up to the area of entrance, to prevent welding, or formation of "stickers", asth'e welded I packs are'called; and also to provide for proper control by the operator of Ithe amount of coolant initially supplied to the area, and for control of the amount of liquid carried around by the lower roll.
A further object is to prevent iiooding of the -roll necks by the cooling liquid.
In the operation of any mill, there is a tendency for the roll to accumulate grit, loose particles of metal, oil films and the like. Solid particles such as those mentioned will in time become embedded in the surface of the roll, giving it an irregular and inaccurate surface, whichof course is detrimental to accurate rolling. It is remove such substances from the rolls. Asit is a marked advantage to have such removed substances disposed of to a place where they will not again enter into the working of the rolls on the sheets, or packs', it is a further object of my invention to provide for the removal of the substances dlrectly in conjunction with the control of distribution of the cooling liquid on the rolls,
, a further object of my invention to promptly and therebyv to carry off the removed substances, as fully as may be, by the excess of cooling liquid which ilows away as a result of the controlled distribution.
Other objects will appear in the course of the following description of a preferred example of my invention, illustrated :by theY drawing, in which- Y Figure 1 is a vertical section in a plane along the path of rolling, corresponding to the plane of the line |-I of Fig. 2, showing my invention applied to a threes-high mill;
Figure 2 is a side elevation ofY the lower roll and parts of its housings, conventionally indicated, and partwof its driving stub at one end,
showing my invention as applied to said lowerYV roll, the view being to the left in Fig. 1.
Figure 3 is a fragmentary perspective view of an end part of one of the wiping strips.
Figure 4 is a fragmentary view of a modification.
Figure 5 is a fragmentary view of another modication. f
As more completely shown in Fig. 1, the threehigh mill has, as well known in the art, the bottom roll A, the top roll B, and the intermediate or working roll C. These rolls have, suitably mounted by means not shown in detail because well known in the art, the'Y necks a, b and c, respectively, in the housing D as seen in Fig. 2, where part of the driving stub end of the roll there shown is seen at a'. The feed-in table E is seen in Fig. 1 at the left, leading to the entrance between the' i bottom and intermediate rolls A and C; and above this, leading from the exit between the intermediate roll C and the top roll B, is the receiving table F for the return pass. 'I'he construction and arrangement of these tables E and F being well known, their details are not shown. It will be understood that the illustration of the three-high mill in Figs. 1 and 2 is conventional only, with only such indica.- tion of its structure as is necessary to illustrate the association of my invention therewith; and that` I am not limited to any particular type of mill, in the use of my invention, which is` susceptible of modification in accordance with varying details of design of different mills.
Means for supplying coolant to the rolls of course also is well known in the art, and I have conventionally indicated such means, without full detail; the important aspect of the provision of such means, in'conjunction with my invention, being the relative location of it. In accordance with one of my objects above stated, I prefer to locate the coolant supplymeans I just below the plane of passage of`the materiaLbetween the bottom roll A and intermediate roll C at the side of exit of the material from between these rolls, where the roll surface is traveling downward as indicated by the arrow, and will carry a portion of the coolant under and then up to the entrance from the table E, where'the material makes impact with the rolls at its rst pass, as before mentioned. i
I prefer also to locate the coolant supply means 2 for the intermediate or working roll C inv the same position relative to the return passage of the material between this roll C and the top roll B, for similar reasons.' 'I'he supply means for coolant for the top roll B is, as here shown, located substantially at the top of this top roll, at 3; although it will be understood that its relative position may be varied; and if so, preferably toward the right as seen in Fig. 1.
'Ihe location of the coolant supply devices at areas remote from the areas of entrance of thel material between the respective pairs of rolls permits eifective control to apply coolant in proper'quantity and evenness of distribution at the entrance areas, yet 'without risk of excessive area to the location of the supply of coo1ant.` It
is near the entrance area, measured in the opposite direction; but the direction of the roll surface is such that the coolant does not materially travel in this shorter measured direction. 'I'he considerations o f this location of coolant supply are largely dictated by the requirements ofthe wiping devices lin accordance with my invention, and in so far as they enter into association with my wiping devices in this way, the coolant supply means are, though old and known, per se, elements of my invention, in respect of their relative locations. Also, in principle, so far as I am aware, the locationrof the coolant supply means land 2, relative to the entrance and exit areas of 'the mill, is original with nie, with the improved results in accordance with my object of avoiding occurrence of welded packs or stickers, as above set forth.
I have illustrated a preferred embodiment of my improved wiping device, one of Vwhich devices is applied to each roll A, B and C as shown in Fig. l; although it may be stated that a wiper, in its function of controlling and distributing the coolant, one of the functions-of my device, is not so necessary on the bottom roll A as it is on the ltwovupper rolls B and C, since coolant applied at l may`run off the bottom roll A as it is carried around thereby to' the entrancerea, leaving a sufficiently reduced and uniform lm of coolant to reach said entrance area for the purposes before explained. 'I'he wipers for the two upper rolls B and C are more essential in their function of preventing the coolantfalling on the material being rolled, and excessively cooling it, as also has been previously explained as one of the objects of my invention.
As here shown, all three wiping devices are alike in construction and mounting, as well as in size, which .is preferable from the viewpoint of economy of construction; although it will be under-l Amost clearly seen in Fig. 3; and it is of such length as to extend from end to end of the working diameter of the roll to which it is applied. The outer acute edge of the bevel is in contact with the roll; the inclination of the bevel being in the direction of travel of the roll surface at the area of contact. Since the wipers are locatetd at those sides of the rolls where the roll surface travel is downward, the wide side of the strip accordingly is downward. It has bevels 4a at both edges, sc that when one edge is excessively worn,
the strip may be reversed and the other edge applied to the roll. 'I'he preferred location of each wiper is such that the strip edge 4a contacts the roll along an area slightly below the horizontal plane of the roll axis;l and the strip has its width substantially parallel with that plane. Consequently,the drag of the roll `surface tends to bend'the -thin edge 4a downward, as indicated to a somewhat exaggerated degree in Fig. 1. The strip 4 being of a resilient material, and having its edge thin by the bevel 4a, and this edge being bent down, or in the direction of roll surface travel, the restoring force of this resilient bent down edge or rlip is sufllcient to maintain the required uniformityof passage for coolant between the strip 4 and the roll, at all points along its length, notwithstanding any slight variations in roll diameter, or other surface variations on the roll, at any of the points. This is an improvement in a wiper in its function of controlling distribution of coolant in the mannerand for the objects before explained..
A further improvement resulting from my invention, is the performance of the other wiping function, that of keeping the roll surface as free as may be of foreign substances, as before explained, directly at the area of coolant illm control; preferably, as shown, by means included in the wiping strip '4 itself, whereby the maximum I coincidence of coolant-regulating and roll-cleaning locations is attained. This has the advantage of carrying away the substances cleaned from 'the roll along with the excess/of coolant liquid over that allowed togremain as a lm on the roll,
as before explained. MiOne result of this is that the substances do not again deposit on 'the work or part of some other roll, to give trouble again; and no attention or labor is necessary to disposeof the substances. as soon as the film of coolant liquid ls determined by the cotrol wiping, itis formed on a surface of the roll freshly cleaned, so that the uniformity of film", for the purposes before fully explained, is further guaranteed than were the control of film to be effected at an area substantilly displaced from the area at which the cleaning is done. It will be seen that this latter object is attained if the areas of control and cleaning are not exactly coincident; and the disposal of the cleaned-oil.' substances also may be well done under such lack of coincidence; and 'f therefore I am not limited to exact coincidence of areas in which these functions are carried out, but deem it within the scope of my invention to have the areas so close together that the above objects are substantially attained.
In Figure `4, I have shown one `such mddiiications, where the wiping and abra'dant materials are discrete but placed close together. The abradant material is indicated at 20, and the wiping material at 2I. In Figure 5 the members 20 and 2| are shown member 22.
` Of course exact coincidenceof the areas is preferable, and by my invention this is attained in the most economical manner by the inclusion in the material of the wiping strip 4 of a suitable abrasive and polishing substance indicated by the stippling on the bevels 4a., as at 4b in Fig. 3. In order that the abrasive 4b may have a sumslightly separated by a ciently effective action in cleaning the rolLsurface, it is preferable that the material of the `wiping strip 4 be of such lsoftness as to wear substantially more rapidly than the abrasive material 4b in the areas of contact with the roll. An example of .such material, preferably used, is
hard rubber for the strip 4; while the abrasive A further result is that'` i rod I2 has near its inner end may be any well known material having sumcient abrasive properties to remove the foreign sub- LVstances from the roll surface, as for4 example emery, carborundum or the like. By the term hard rubber I do not mean that' form of rubber which is brittle alike bakelite, but live rubber which is resilient, although relatively hard. The combination of base material such vas hard lrubber, and the abrasive, thus resembles the construction of abrasive tools, such as emery wheels and the like; although it is necessary that the base material should be considerably more resilient and preferably softer, than the materials usually employed as binders for abrasives in such tools. Hard rubber of usual quality answers this purpose. Its softness permits it to function fully as a coolant wiper, and to wear readily relative to the abrasive particles 4b; and its resiliency permits it to conform its thin beveled edge 4a to the roll as beforementioned.
To support the strip 4, as well as conduct away the excess of coolant, I provide in the example shown an angle bar 5 disposed with one member under the strip 4 and its other member upstanding beyond the strip 4 from the roll surface, so that, with'the aid of the roll surface itself, a trough is dformed along the roll. Walls 6 are provided to close the trough at each end lof the angle bar 5; and the mounting of the bar 5 is such that it slopes from one end of the roll to the other as seen in Fig. 2. A spout 1 leads from the lower end of the trough tlius formed, and inclines out away from the path of travel of the material being rolled, to discharge? the excess of coolant, as well as the scraped-.off foreign worn; requiring flexible mounting of the wiper.V
This I provide as here shown by guiding the bar 5 horizontally and holding it toward the roll under adjustable spring pressure. The rimary support is a bar I0, with its ends held in stirrup brackets I I ,on the opposite mill housings D as seen in Fig. 2. In a short distance from each end of the angle bar 5, thiabar has bosses 5a with openings, through its I2 with their outer ends fixed to the support bar l0, have their inner end parts I2a reduced in diameter, with sliding ilt in the openings of'the bosses 5a, so that the angle bar 5, carrying the wiping strip 4, may slide toward or from the roll. The larger part I2b of each support rod I2, near the support bar I0, is threaded, with an adjusting nut I3 thereon compressing a spring I4 between it and theangle bar 5; this spring I4 being helical and fitting around the angle. bar boss 5a upright member; 'and support rods tion to the rollsurface if the latter varies as bev' fore mentioned. So'that the spring I4 may not Centirely displace the angle bar 5, carrying the wiping strip 4, from the mounting, the support a stop pin I6 extending through and xed in it.
The above described mounting structure, while preferred, is exemplary; and it will be understood bedded in its surface that acts on the roll particles of abrasive material to eiect the removal of the foreign substance from the roll.
2. A combined coolant wiper and foreign-substance remover for a rolling-mill roll, comprising a member of hard rubber, having embedded in its surface that acts on the roll particles of abrasive material to effect the removai ofthe foreign substance from the roll.
3. A coolant wiper for a. rolling mill roll comprising a strip of resilient material to extend longitudinally of the roll with an edge close to the roll, said edge being of reduced thickness to yield in the direction of roll surface travel, to adapt itself to irregularities of formation of the roll surface, and having embedded in its thin edge an abrasive to remove foreign substances from the roll surface coincident with its coolantwiping acticn.
4. A combined coolant wiper and foreign substance remever for rolling mill rolls, comprising a member of hard rubber and an abrasive member, both of said members being located along an area longitudinally of the roll and of such limited extent crcumferentially of the roll as to perform their respective functions substantially coincidentally on a given area of the roll surface.
PAUL H. LONG.
US742949A 1934-09-06 1934-09-06 Wiping device for rolling mill rolls Expired - Lifetime US2107541A (en)

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Cited By (17)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2573353A (en) * 1945-10-04 1951-10-30 Bethlehem Steel Corp Rolling mill
US2762295A (en) * 1950-11-01 1956-09-11 Carding Spec Canada Distribution of pressure between a pair of pressure rollers
US2811849A (en) * 1952-04-30 1957-11-05 Francis Clair Guard for wringer rollers
US2921488A (en) * 1955-11-23 1960-01-19 United States Steel Corp Method and apparatus for cooling mill rolls
US2953952A (en) * 1956-02-29 1960-09-27 Kaiser Aluminium Chem Corp Apparatus for cleaning rolls
US3200629A (en) * 1961-07-18 1965-08-17 Bethlehem Steel Corp Obtaining improved surface finishes on double reduced material
US3763679A (en) * 1969-05-29 1973-10-09 Us Corp Apparatus for applying lubricant to a workpiece in a hot strip mill
US3845539A (en) * 1971-06-16 1974-11-05 Nippon Kokan Kk Apparatus for manufacturing steel sheets with layers of protective metal
US3994151A (en) * 1974-06-11 1976-11-30 Alcan Research And Development Limited Method for cooling the rolls of rolling mills
FR2368310A1 (en) * 1976-10-21 1978-05-19 Escher Wyss Sa ROLLING MILL
US4272976A (en) * 1979-06-05 1981-06-16 Mesta Machine Company Hot strip rolling mill stand
US4422318A (en) * 1980-01-25 1983-12-27 Escher Wyss Limited Roller with a roller surface which is to be heated or cooled
US4619126A (en) * 1985-04-04 1986-10-28 Atlantic Richfield Co. Lubricant removal system for cold rolling stand
EP0205295A2 (en) * 1985-06-10 1986-12-17 DAVY McKEE (POOLE) LIMITED Improvements relating to the lubrication of rolling mills
US4671091A (en) * 1984-03-23 1987-06-09 Davy Mckee (Poole) Limited Rolling mill
US5255549A (en) * 1992-06-10 1993-10-26 The Monarch Machine Tool Company Tension leveler roll cleaning system and method
WO1998048956A1 (en) * 1997-04-30 1998-11-05 Travhydro Plastics Et Isolants Mecanises Roll mill scraping device

Cited By (19)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2573353A (en) * 1945-10-04 1951-10-30 Bethlehem Steel Corp Rolling mill
US2762295A (en) * 1950-11-01 1956-09-11 Carding Spec Canada Distribution of pressure between a pair of pressure rollers
US2811849A (en) * 1952-04-30 1957-11-05 Francis Clair Guard for wringer rollers
US2921488A (en) * 1955-11-23 1960-01-19 United States Steel Corp Method and apparatus for cooling mill rolls
US2953952A (en) * 1956-02-29 1960-09-27 Kaiser Aluminium Chem Corp Apparatus for cleaning rolls
US3200629A (en) * 1961-07-18 1965-08-17 Bethlehem Steel Corp Obtaining improved surface finishes on double reduced material
US3763679A (en) * 1969-05-29 1973-10-09 Us Corp Apparatus for applying lubricant to a workpiece in a hot strip mill
US3845539A (en) * 1971-06-16 1974-11-05 Nippon Kokan Kk Apparatus for manufacturing steel sheets with layers of protective metal
US3994151A (en) * 1974-06-11 1976-11-30 Alcan Research And Development Limited Method for cooling the rolls of rolling mills
US4061010A (en) * 1974-06-11 1977-12-06 Alcan Research And Development Limited Apparatus for cooling the rolls of rolling mills
FR2368310A1 (en) * 1976-10-21 1978-05-19 Escher Wyss Sa ROLLING MILL
US4272976A (en) * 1979-06-05 1981-06-16 Mesta Machine Company Hot strip rolling mill stand
US4422318A (en) * 1980-01-25 1983-12-27 Escher Wyss Limited Roller with a roller surface which is to be heated or cooled
US4671091A (en) * 1984-03-23 1987-06-09 Davy Mckee (Poole) Limited Rolling mill
US4619126A (en) * 1985-04-04 1986-10-28 Atlantic Richfield Co. Lubricant removal system for cold rolling stand
EP0205295A2 (en) * 1985-06-10 1986-12-17 DAVY McKEE (POOLE) LIMITED Improvements relating to the lubrication of rolling mills
EP0205295A3 (en) * 1985-06-10 1987-10-07 Davy Mckee (Poole) Limited Improvements relating to the lubrication of rolling mills
US5255549A (en) * 1992-06-10 1993-10-26 The Monarch Machine Tool Company Tension leveler roll cleaning system and method
WO1998048956A1 (en) * 1997-04-30 1998-11-05 Travhydro Plastics Et Isolants Mecanises Roll mill scraping device

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