US2127413A - Method and apparatus for coating strip material - Google Patents

Method and apparatus for coating strip material Download PDF

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US2127413A
US2127413A US751494A US75149434A US2127413A US 2127413 A US2127413 A US 2127413A US 751494 A US751494 A US 751494A US 75149434 A US75149434 A US 75149434A US 2127413 A US2127413 A US 2127413A
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dispersion
strip material
wire
coating
latex
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US751494A
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Charles W Leguillon
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Goodrich Corp
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BF Goodrich Corp
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29BPREPARATION OR PRETREATMENT OF THE MATERIAL TO BE SHAPED; MAKING GRANULES OR PREFORMS; RECOVERY OF PLASTICS OR OTHER CONSTITUENTS OF WASTE MATERIAL CONTAINING PLASTICS
    • B29B15/00Pretreatment of the material to be shaped, not covered by groups B29B7/00 - B29B13/00
    • B29B15/08Pretreatment of the material to be shaped, not covered by groups B29B7/00 - B29B13/00 of reinforcements or fillers
    • B29B15/10Coating or impregnating independently of the moulding or shaping step
    • B29B15/12Coating or impregnating independently of the moulding or shaping step of reinforcements of indefinite length
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29KINDEXING SCHEME ASSOCIATED WITH SUBCLASSES B29B, B29C OR B29D, RELATING TO MOULDING MATERIALS OR TO MATERIALS FOR MOULDS, REINFORCEMENTS, FILLERS OR PREFORMED PARTS, e.g. INSERTS
    • B29K2021/00Use of unspecified rubbers as moulding material
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29KINDEXING SCHEME ASSOCIATED WITH SUBCLASSES B29B, B29C OR B29D, RELATING TO MOULDING MATERIALS OR TO MATERIALS FOR MOULDS, REINFORCEMENTS, FILLERS OR PREFORMED PARTS, e.g. INSERTS
    • B29K2105/00Condition, form or state of moulded material or of the material to be shaped
    • B29K2105/0058Liquid or visquous
    • B29K2105/0064Latex, emulsion or dispersion
    • YGENERAL 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
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S118/00Coating apparatus
    • Y10S118/19Wire and cord immersion

Definitions

  • This invention relates to the coating of wire, thread or other strip material from a liquid dispersion of the coating material, and especially to the coating of such strip material from 5 a coagulable dispersion, such as an aqueous dispersion of rubber.
  • Fig. 1. is an elevation, with parts in section and broken away, of coating apparatus embody! ing and made in accordance with the invention in its preferred form.
  • Fig. 2 is a similar view on a reduced scale of a 35 modified construction.
  • a wire I0 is passed vertically upward through the bottom of a tank ll containing a body of latex l2, either'natural or artificial, to deposit upon the wire a rubber
  • the wire is led from a reel l4, mounted on the supporting framework, under a pair of pulleys l5 and I6 and up through the tank, being then drawn over a roller l1 and onto a driven receiving reel l8. While the rubber coating may, if desired, be left on the wire,
  • the deposition of the rubber uponthe wire 10 desirably is assisted electrophoretically, and for this purpose the tank II is of dielectric material, such as rubber, and contains cathodes 2
  • ,f2l are conveniently supported by a cover 22 for the tank.
  • Theimpeller preferably is positioned in the mouth of the shorter arm of a J-s'haped tube 24, the longer arm of which is disposed about the wire In in the manner shown in the drawing, so .that the latex will be circulated upwardly along the wire in the tube.
  • Thistube is of insulating -material, such as rubber, and further, in order not to hinder'the electrophoreticv action, its wall adjacent the wire is perforated.
  • the tube preferably is of such height that when the latex is in circulation the upper edge 25 constitutes a low splllway over which the latex flows away from the wire and carries with it froth and foreign matter which might objectionably lessen .the uniformity of the coating if permitted to gather at the wire on the surface of the latex. In a large measure such froth and foreign matter will be trapped on the surface of the latex at the remote, low side of the spillway.
  • a hollow 40 bushing 26 For sealing the wire-entering opening at the bottom of the tank there is provided a hollow 40 bushing 26, preferably also of insulating material and screwed into the tank wall, having an apertured cap 21 holding a sealing element .28 of a soft resilient material such as rubber and a backing washer 28 against a shoulder in the bushing wall, the arrangement being such that leakage of a fluid along the wire is prevented by a close frictional "fit of the sealing element against the wire.
  • the wall is apertured at 29 for passage of the wire without contacting the bushing,
  • this aperture preferably is provided a 'subchamber 30 at the upper end of which is provided another narrow perture at 30*. for pas sage .of the wire, here also without contacting the bushing.
  • the cover 22 also is apertured at 3
  • a body of non-coagulable fluid 32 is provided in the bushing chamber and in the subchamber 30 to prevent the coagulable latex in the tank from contacting the wire at its zone of rubbing 10 against the sealing element 28.
  • a reservoir tank 33 of the fluid 32 communicates with the bushing chamber through a hose 34 and valved pipe 35, and this tank is mounted for vertical adjustment, as by .a screw support 36, at a height such that the bushing chamber and subchamber may be maintained full of the fluid against the pressure of the latex.
  • the surfaces of the latex and the fluid in the reservoir tank are maintained at substantial- .20 ly the same level, and to facilitate this the two tanks are provided with gauge glasses 31 and 38 between which is mounted for vertical adjustment an indicating bar 39.
  • Some of the fluid 32 will be carried upward with the moving wire into the latex. Leakage in this direction is beneficial in retarding flow of the latex into the bushing where it is not wanted. This guarding action is assisted by the narrowness of the apertures Ill and 28'. While a small so amount of latex may at times flnd its way downward into the subchamber ill, it is unlikely that any latex will penetrate as far as the main bushing chamber, so long as the proper level of the fluid )2 in the tank It is maintained.
  • the fluid 32 through which the wire passes before it enters the latex, has the result of lessening the likelihood that air will be pocketed on thesurface of the wire and malform the rubber coating.
  • this fluid be such as to be readily miscible with the latex without polluting or materially diluting it.
  • Water. which is one of the principal ingredients of. the latex,
  • Circulation of the latex as by the impeller ll upward through the tube 24 along the wire and then over the spilling edge ll serves to keep froth and foreign matter away from the wire so that the deposited coating will be uniform and without lumps or malformations.
  • the tube 1 embodiment is contained in the tube at a level approximately the same as that of the latex so that the latter will not back up into the tube. This guarding action is assisted also by the narrowness of the aperture 49 and by the upward carrying of a small amount of the fluid on the surface of the wire, so that the latex is kept out of the tube and therefore away from the zone of any rubbing surfaces at the guide pulleys 4B and 41 in the tube.
  • This embodiment has the advantage that there is no aperture in the tank wail requiring a seal and also that replacement of the wire can be conveniently effected without disturbing the latex in the tank.
  • the deposition of the rubber upon the wire may be assisted electrophoretieally in this embodiment also, by expedients for the purpose such as are shown in the Fig. 1 embodiment, and also if desired a like circulating arrangement may be provided.
  • Apparatus for coating strip material with a coagulable liquid dispersion comprising a container adapted to hold a body of the coating dispersion having a free liquid surface, means having an aperture sufllciently large to permit free passage of the strip material located below the free liquid surface, guiding means wholly out of contact with the coating dispersion for introducing the strip material into the coating dispersion through said aperture without contacting the walls thereof and for withdrawing the strip material through the free liquid surface, and sealing means comprising a body of non-coagulable fluid which is miscible with the said coagulable liquid dispersion about the strip material adjacent the said aperture.
  • the coating dispersion is an aqueous dispersion a liquid dispersion of the coating substance, comprising a 'dispersion container, means for guiding the strip material to be coated into the dispersion at a position below the surface thereof, and a structure containing a body o'f fluid through which the strip material passes at the submerged position of its entry into the dispersion, said .-structure comprising in succession a fiuidchamher, a narrow-neckedexit, a fluid subchamber, and a second narrow-necked 'exit through which the strip material is guided to reach the dispersion without contacting the walls of the exit, the arrangement being such that the dispersion is prevented from contacting the strip material I a liquid dispersion, comprising a dispersion container, means for guiding the strip material to be coated into the dispersion at a position below the surface thereof, and a structure containing a body of fluid through which the
  • Apparatus for coating strip material from a liquid dispersion of the coating substance comprising a dispersion container having an aperture in its wall below the surface of the dispersion, means for guiding the strip material to be coated through said aperture and dispersion and means for preventing leakage at said aperture, said means comprising a sealing structure contacting the strip material and containing a body of fluid separating the coating dispersion from the position of contact of the strip material with the sealing structure, the arrangement being such that the dispersion is prevented from contacting the strip material at all positions where the latter contacts other solid portions of the apparatus.
  • Apparatus as defined in claim 7 comprising a fluid reservoir communicating with the said sealing structure and mounted for vertical adjustment with relation to the dispersion container.
  • Apparatus for coating conducting strip material from an'aqueous dispersion of rubber comprising a dispersion container, means for guiding the strip' material to be coated through the dispersion without contact of the dispersion with the strip material where the latter contacts the guiding structure, means for assisting the dep osition of the rubber upon the strip material electrophoretically, and means forcirculating the dispersion in the container, said means comprising a structure directing the flow of the dis-.
  • the flow-directing structure comprises a per-'- forated tube of dielectric material enclosing the strip material and disposed to direct the flow upwardlyalong' the same within the tube and having its upper edge so positioned at the surface of the dispersion as to constitute a-spillway tor the dispersion to flow away from the stri material.
  • Apparatus for coating strip material from a liquid dispersion of the coating substance comprising a dispersion container, means for guiding .the strip material to be coated through the dispersion, and means for circulating the dispersion in the container, said circulating means comprising a structure directing the flow of the dispersion away from the strip material at its position of emergence from the dispersion.
  • theflow-directing structure comprises a tube enclosing the strip material and disposed to direct the flow upwardly along the same within the tube and having its upper edge so positioned at the surface of the dispersion as to constitute a spillway for the dispersion to flow away from the strip material.
  • the method of coating strip material with a coaguable liquid dispersion which comprises providing a-body of the coagulableliquid dispersion in superposed relation to a body of a noncoagulable liquid which is misciblewith the said coagulable dispersion, providing a communicaiw ing opening between. the two liquid bodies of a size to permit 'free passage of the strip material, maintaining a hydrostatic balancebetween the two liquids, and passing the strip material upward through the non-coagulable liquid, the said opening, and the coagulable liquid dispersion.
  • a method of coating strip material with a coagulable liquid dispersion which comprises ,providing a body of the dispersion having a free liquid surface, passing the strip material through a body of a non-coagulable liquid which is miscible with the dispersion, then through an orifice directly from the non-coagulable liquid into the dispersion at a position below the free liquid cmriLEs W..LEGUILLON.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Coating Apparatus (AREA)

Description

Aug. 16, 1938. c. w. LEGUILLON 2,127,413
METHOD AND APPARATUS FOR COATING STR IP MATERIAL 7 Filed may. 5, 1934 40 coating i3.
Patented Aug. 16, 1938 PATENT OFFICE METHOD AND APPARATUS FOR COATING STRIR MATERIAL Charles W. Leguillon, Akron, Ohio, assignor to- The B. F. Goodrich Company, New York, N. Y., t
a corporation of New York Application November 5, 1934, Serial No. 151,494
18 Claims.
This invention relates to the coating of wire, thread or other strip material from a liquid dispersion of the coating material, and especially to the coating of such strip material from 5 a coagulable dispersion, such as an aqueous dispersion of rubber.
It has been proposed heretofore to coat wire with rubber bypassing the wire up through an opening in the bottom of a tank of latex to 10 coat the rubber during its passage through the .2 improved apparatus for. coating wire, thread or other strip material. A more specific object is to provide a seal such that there will be no parts that rub one another in the immediate presence of the coating material, so that objectionable 25 coagulation of thematerial at that position-will not 000111.
These and other objects will be apparent from I the following description, reference being had to the accompanying drawing, in which:
39 Fig. 1.is an elevation, with parts in section and broken away, of coating apparatus embody! ing and made in accordance with the invention in its preferred form. I
Fig. 2 is a similar view on a reduced scale of a 35 modified construction.
In the embodiment of Fig. 1 a wire I0 is passed vertically upward through the bottom of a tank ll containing a body of latex l2, either'natural or artificial, to deposit upon the wire a rubber The wire is led from a reel l4, mounted on the supporting framework, under a pair of pulleys l5 and I6 and up through the tank, being then drawn over a roller l1 and onto a driven receiving reel l8. While the rubber coating may, if desired, be left on the wire,
as for insulating purposes, in' the illustrated'embodiment it is removed from the wire at the roller l1 and is led away over a roller llfor subsequent use as elastic thread. Theremoval or the rubber strip from the wire is effected by longitudinally separating it and drawing it from theroller in' split tubular shape, such separatlon being accomplished as the wire squeezes the rubber between. it and the roller surface, the 55 latter preferably being heated electrically through connections 20, 20, to assist the separation, and the separation of the rubber being facilitated also by drawing the thread off under tension. This subject matter is described and claimed in mycopending application, Serial No. 5 693,295, filed October 12, 1933, which has matured into U. S. Patent No. 2,042,536, granted June 2, 1936, for Strip rubber and method and apparatus for producing the same.
The deposition of the rubber uponthe wire 10 desirably is assisted electrophoretically, and for this purpose the tank II is of dielectric material, such as rubber, and contains cathodes 2|, 2|, the wire ID being electrically connected, as at the pulley IE, to function as the anode. The cathodes 2|,f2l are conveniently supported by a cover 22 for the tank.
Through the cover is disposed the shaft of an impeller 23 adapted to circulate the latex. Theimpeller preferably is positioned in the mouth of the shorter arm of a J-s'haped tube 24, the longer arm of which is disposed about the wire In in the manner shown in the drawing, so .that the latex will be circulated upwardly along the wire in the tube. Thistube is of insulating -material, such as rubber, and further, in order not to hinder'the electrophoreticv action, its wall adjacent the wire is perforated. The tube preferably is of such height that when the latex is in circulation the upper edge 25 constitutes a low splllway over which the latex flows away from the wire and carries with it froth and foreign matter which might objectionably lessen .the uniformity of the coating if permitted to gather at the wire on the surface of the latex. In a large measure such froth and foreign matter will be trapped on the surface of the latex at the remote, low side of the spillway.
For sealing the wire-entering opening at the bottom of the tank there is provided a hollow 40 bushing 26, preferably also of insulating material and screwed into the tank wall, having an apertured cap 21 holding a sealing element .28 of a soft resilient material such as rubber and a backing washer 28 against a shoulder in the bushing wall, the arrangement being such that leakage of a fluid along the wire is prevented by a close frictional "fit of the sealing element against the wire. At the upper end of the bushing chamber the wall is apertured at 29 for passage of the wire without contacting the bushing,
' and above this aperture preferably is provided a 'subchamber 30 at the upper end of which is provided another narrow perture at 30*. for pas sage .of the wire, here also without contacting the bushing. The cover 22 also is apertured at 3| for free passage of the wire, and the arrangement is such that between the pulley l8 and the roller only at the sealing element 28.
A body of non-coagulable fluid 32 is provided in the bushing chamber and in the subchamber 30 to prevent the coagulable latex in the tank from contacting the wire at its zone of rubbing 10 against the sealing element 28.
A reservoir tank 33 of the fluid 32 communicates with the bushing chamber through a hose 34 and valved pipe 35, and this tank is mounted for vertical adjustment, as by .a screw support 36, at a height such that the bushing chamber and subchamber may be maintained full of the fluid against the pressure of the latex. Preferably the surfaces of the latex and the fluid in the reservoir tank are maintained at substantial- .20 ly the same level, and to facilitate this the two tanks are provided with gauge glasses 31 and 38 between which is mounted for vertical adjustment an indicating bar 39.
Some of the fluid 32 will be carried upward with the moving wire into the latex. Leakage in this direction is beneficial in retarding flow of the latex into the bushing where it is not wanted. This guarding action is assisted by the narrowness of the apertures Ill and 28'. While a small so amount of latex may at times flnd its way downward into the subchamber ill, it is unlikely that any latex will penetrate as far as the main bushing chamber, so long as the proper level of the fluid )2 in the tank It is maintained.
.35 In addition to its guardinggfunction, the fluid 32, through which the wire passes before it enters the latex, has the result of lessening the likelihood that air will be pocketed on thesurface of the wire and malform the rubber coating.
49 Because of the small leakage of the fluid intothe latex, it is preferred that this fluid be such as to be readily miscible with the latex without polluting or materially diluting it. Water. which is one of the principal ingredients of. the latex,
is very satisfactory. Preferably ammonia or oththrough the tank it is so guided as not to contact.
any of the tank or guiding structure except at the sealing element II. Circulation of the latex as by the impeller ll upward through the tube 24 along the wire and then over the spilling edge ll serves to keep froth and foreign matter away from the wire so that the deposited coating will be uniform and without lumps or malformations.
N With the aid of the gauges 31 and I. and indicatorllflieliquidllinthetankflcanbe kept at the proper level so that the latex will be kept out of the bushing chamber and away from theaone ofrubbingofthewireagainsttheseale6 ing element. The result is a uniform, smooth coating on the wire.
In the modification of Fig. 2 the wire 40. in-
stead of entering the tank through an aperture in the wall, is conducted downward through the 70 long arm of a .i-shaped tube 4| immersed in a body" oflatexcontainedin atankll. Thetube may conveniently be supported by a removable cover 44 for the tank. and is thuseasily remov the wire contacts structure of the apparatus versed by guide pulleys 46 and 41 mounted in the turn of the tube, and after emerging from the tank it is guided over a roller 48, the rubber coating being there removed as a thread 5i, as in the embodiment of Fig. l. Erom the tube the wire enters the latex through a narrow aperture 49 formed in the end of the small arm ofthe tube without touching the tube. A body 50 of fluid, similar to the fluid 32 of the Fig. 1 embodiment, is contained in the tube at a level approximately the same as that of the latex so that the latter will not back up into the tube. This guarding action is assisted also by the narrowness of the aperture 49 and by the upward carrying of a small amount of the fluid on the surface of the wire, so that the latex is kept out of the tube and therefore away from the zone of any rubbing surfaces at the guide pulleys 4B and 41 in the tube.
This embodiment has the advantage that there is no aperture in the tank wail requiring a seal and also that replacement of the wire can be conveniently effected without disturbing the latex in the tank.
If desired, the deposition of the rubber upon the wire may be assisted electrophoretieally in this embodiment also, by expedients for the purpose such as are shown in the Fig. 1 embodiment, and also if desired a like circulating arrangement may be provided.
I claim:
1. Apparatus for coating strip material with a coagulable liquid dispersion, comprising a container adapted to hold a body of the coating dispersion having a free liquid surface, means having an aperture sufllciently large to permit free passage of the strip material located below the free liquid surface, guiding means wholly out of contact with the coating dispersion for introducing the strip material into the coating dispersion through said aperture without contacting the walls thereof and for withdrawing the strip material through the free liquid surface, and sealing means comprising a body of non-coagulable fluid which is miscible with the said coagulable liquid dispersion about the strip material adjacent the said aperture.
2. Apparatus as defined in claim 1 in which the coating dispersion is a coagulable rubber dispersion and the sealing fluid is a non-coagulable liquid which is miscible with the coating dispersion.
3. Apparatus as deflned in claim 1 in which ,the coating dispersion is an aqueous dispersion a liquid dispersion of the coating substance, comprising a 'dispersion container, means for guiding the strip material to be coated into the dispersion at a position below the surface thereof, and a structure containing a body o'f fluid through which the strip material passes at the submerged position of its entry into the dispersion, said .-structure comprising in succession a fiuidchamher, a narrow-neckedexit, a fluid subchamber, and a second narrow-necked 'exit through which the strip material is guided to reach the dispersion without contacting the walls of the exit, the arrangement being such that the dispersion is prevented from contacting the strip material I a liquid dispersion, comprising a dispersion container, means for guiding the strip material to be coated into the dispersion at a position below the surface thereof, and a structure containing a body of fluid through which the strip material passes at the submerged position of its entry into the dispersion, said structure comprising a guiding tube for the strip material having'an entrance above the surface of the dispersion and a submerged, narrow-necked exit, the fluid in the tube being maintained at substantiallythe same level as the coating dispersiom the entire arrangement being such that the dispersion is prevented from contacting the strip material at all positions where the latter frictionally contacts-solid portions of the'apparatus.
'1. Apparatus for coating strip material from a liquid dispersion of the coating substance comprising a dispersion container having an aperture in its wall below the surface of the dispersion, means for guiding the strip material to be coated through said aperture and dispersion and means for preventing leakage at said aperture, said means comprising a sealing structure contacting the strip material and containing a body of fluid separating the coating dispersion from the position of contact of the strip material with the sealing structure, the arrangement being such that the dispersion is prevented from contacting the strip material at all positions where the latter contacts other solid portions of the apparatus.
8. Apparatus as defined in claim 7 comprising a fluid reservoir communicating with the said sealing structure and mounted for vertical adjustment with relation to the dispersion container.
9'. Apparatus for coating conducting strip material from an'aqueous dispersion of rubber comprising a dispersion container, means for guiding the strip' material to be coated through the dispersion without contact of the dispersion with the strip material where the latter contacts the guiding structure, means for assisting the dep osition of the rubber upon the strip material electrophoretically, and means forcirculating the dispersion in the container, said means comprising a structure directing the flow of the dis-.
persion away from the strip material at its posi tion of emergence from the dispersion.
10. Apparatus as defined in claim 9' in which the flow-directing structure comprises a per-'- forated tube of dielectric material enclosing the strip material and disposed to direct the flow upwardlyalong' the same within the tube and having its upper edge so positioned at the surface of the dispersion as to constitute a-spillway tor the dispersion to flow away from the stri material.
11. Apparatus for coating strip material from a liquid dispersion of the coating substance comprising a dispersion container, means for guiding .the strip material to be coated through the dispersion, and means for circulating the dispersion in the container, said circulating means comprising a structure directing the flow of the dispersion away from the strip material at its position of emergence from the dispersion.
12. Apparatus as defined in claim 11 in which theflow-directing structure comprises a tube enclosing the strip material and disposed to direct the flow upwardly along the same within the tube and having its upper edge so positioned at the surface of the dispersion as to constitute a spillway for the dispersion to flow away from the strip material.
13. The method of coating strip material with a coaguable liquid dispersion which comprises providing a-body of the coagulableliquid dispersion in superposed relation to a body of a noncoagulable liquid which is misciblewith the said coagulable dispersion, providing a communicaiw ing opening between. the two liquid bodies of a size to permit 'free passage of the strip material, maintaining a hydrostatic balancebetween the two liquids, and passing the strip material upward through the non-coagulable liquid, the said opening, and the coagulable liquid dispersion.
14. A method as defined by claim 13 in which the coagulable liquid dispersion is an aqueousdispersion of rubber and the non-coagulable liquid is water.
15. A method as defined by claim 13 in which the coagulable liquid dispersion is an aqueous dispersion of rubber and the non-coagulable liquid is water containing a stabilizing agent for the dispersion.
16. A method of coating strip material with a coagulable liquid dispersion, which comprises ,providing a body of the dispersion having a free liquid surface, passing the strip material through a body of a non-coagulable liquid which is miscible with the dispersion, then through an orifice directly from the non-coagulable liquid into the dispersion at a position below the free liquid cmriLEs W..LEGUILLON.
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Cited By (22)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2456650A (en) * 1944-10-20 1948-12-21 Redding Mfg Company Inc Method of coating filaments
US2478940A (en) * 1946-01-26 1949-08-16 Resistofiex Corp Apparatus for making hose
US2647488A (en) * 1950-05-31 1953-08-04 Bentley Harris Mfg Company Apparatus for coating tubular fabric and like narrow materials
US2679823A (en) * 1951-04-07 1954-06-01 Gen Electric Wire coating apparatus
US2683425A (en) * 1952-04-08 1954-07-13 Gen Electric Pumping system
US2778404A (en) * 1954-03-08 1957-01-22 South Bend Bait Company Method and apparatus for making bonded fiber glass shafts
US2800448A (en) * 1954-04-30 1957-07-23 Rca Corp Cataphoretic coating machine
US3304251A (en) * 1962-03-14 1967-02-14 Exxon Research Engineering Co Separation of wax from an oil dispersion using a non-uniform electric field
US3307998A (en) * 1962-09-18 1967-03-07 Universal Moulded Fiber Glass Filament winding equipment
US3466186A (en) * 1966-05-16 1969-09-09 Gen Electric Dip forming method
US3557749A (en) * 1969-03-12 1971-01-26 George Farago Immersion apparatus
US3638919A (en) * 1969-08-18 1972-02-01 Texas Instruments Inc Slurry agitator
US3930462A (en) * 1975-05-08 1976-01-06 United Technologies Corporation Slurry dip tank
US4024046A (en) * 1974-08-15 1977-05-17 General Electric Company Method for making polyimide coated conductors in a continuous manner and products made thereby
US4259379A (en) * 1977-11-10 1981-03-31 Arthur Britton Application of liquid material to webs
US4993354A (en) * 1987-08-06 1991-02-19 Central Glass Company, Limited Apparatus for coating thin liquid film on solid surface
US5009933A (en) * 1988-08-26 1991-04-23 Central Glass Company, Limited Method and apparatus for coating thin liquid film on plate surface
US5217533A (en) * 1991-07-08 1993-06-08 The United States Of America As Represented By The Secretary Of The Air Force Coating apparatus for continuous fibers
US6280788B1 (en) * 1995-11-22 2001-08-28 Rijksuniversiteit Groningen Method and a system for manufacturing a catheter and a catheter manufactured by that method
US7718251B2 (en) 2006-03-10 2010-05-18 Amesbury Group, Inc. Systems and methods for manufacturing reinforced weatherstrip
US10329834B2 (en) 2015-02-13 2019-06-25 Amesbury Group, Inc. Low compression-force TPE weatherseals
US11018270B2 (en) * 2018-03-08 2021-05-25 Lg Electronics Inc. Flux coating device and method for solar cell panel, and apparatus for attaching interconnector of solar cell panel

Cited By (25)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2456650A (en) * 1944-10-20 1948-12-21 Redding Mfg Company Inc Method of coating filaments
US2478940A (en) * 1946-01-26 1949-08-16 Resistofiex Corp Apparatus for making hose
US2647488A (en) * 1950-05-31 1953-08-04 Bentley Harris Mfg Company Apparatus for coating tubular fabric and like narrow materials
US2679823A (en) * 1951-04-07 1954-06-01 Gen Electric Wire coating apparatus
US2683425A (en) * 1952-04-08 1954-07-13 Gen Electric Pumping system
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