US1090336A - Coating-machine. - Google Patents

Coating-machine. Download PDF

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US1090336A
US1090336A US75864913A US1913758649A US1090336A US 1090336 A US1090336 A US 1090336A US 75864913 A US75864913 A US 75864913A US 1913758649 A US1913758649 A US 1913758649A US 1090336 A US1090336 A US 1090336A
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chamber
passage
air
coating
coils
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US75864913A
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Arthur S O'neil
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F26DRYING
    • F26BDRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
    • F26B21/00Arrangements or duct systems, e.g. in combination with pallet boxes, for supplying and controlling air or gases for drying solid materials or objects
    • F26B21/06Controlling, e.g. regulating, parameters of gas supply
    • F26B21/08Humidity
    • F26B21/086Humidity by condensing the moisture in the drying medium, which may be recycled, e.g. using a heat pump cycle

Definitions

  • the ultimate purposes of the invention are to facilitate the coating operation by providing for an efficient drying of the fabric or other material which has been coated and to effect an economy in operation by providing for the thorough recovery of the solvents and other liquids which may be liberated during, or consequent to, the operation of drying the coated material.
  • the principal object of the invention is to provide means of simple and inexpensive character for effecting a thorough and facile recovery of the solvents and other liquids incorporated in the coating mixture and liberated during the drying operation, continuously with said drying operation, and, in efiect, as a part thereof.
  • the invention includes essentially a drying chamber through which the coated material is assed and in which said material is subected to heat, and instrumentalities in said chamber for effecting an induced, internal circulation of air in a definite direction, and for recovering from said air any vapors liberated by the drying heat and carried over by the air in its circulation.
  • Figure 1 is a top plan view of a coating machine in which the features of the invention are incorporated. In this figure the cover is shown as partly broken away to expose to View certain of the inclosed parts.
  • Fig. 2 is a central longitudinal sectional view of the said-machine;
  • Fig. 3 is a cross sectional view thereof;
  • Fig. 4 is an enlarged detail fragmentary sectional View on the line 4-4 of Fig. 3.
  • the coating mechanism may be of any desired character and is shown in the drawing at A. As herein shown, the material to be treated is unwound from a reel a and passes in relation to the coating mechanism A. The latter is arranged at one end of a relatively long drying chamber B havin an opening 1 in its end wall adjoinin said coating mechanism and through whic the material C passes. At the other end of the drying chamber any suitable rewinding apparatus may be provided.
  • the chamber B is preferably made of sheet metal, suitably reinforced, braced, or stiffened, where necessary, and is of sufficient length to insure that the coating applied to the material 0 shall be thoroughly dried during the passage of said material through said chamber.
  • the chamber B should be substantially air tight, and therefore, said chamber has no openings except the opening 1, through which the material C is introduced, and the opening at the opposite end of the machine, through which said material is removed. Access to the interior of the chamber is had, when necessary, by removing the cover, which is preferably made in a convenient number of sections 2.
  • each section 2 has at its sides depending flanges 3 which engage in channels 4 secured to the sides of the chamber B within said chamber, and extending longitudinally thereof.
  • the channels 4 serve to contain oil which establishes a seal against the passa e of air into or from the chamber B.
  • the material C as it passes through the chamber B, is subjected to the action of heat, for the purpose of drying the coating ap lied thereto by the mechanism A, and suc heat is preferably generated by an arrangement of steam coils 5 which are located in the upper portion of the chamber B, throughout the extent thereof.
  • a false floor 6 is arranged horizontally throughout the ex'- tent of said chamber, and in a plane midway of the top and bottom thereof.
  • the floor 6 is of less width than the chamber, and defines upper and lower air passages 7 and 8, which communicate with one another through the spaces intervening between the sides of the fioor 6 and the adjacent side walls of the chamber B.
  • the floor 6 is arranged below the material C and in the particular embodiment shown, serves the further purpose of furnishing support for said material in its passage through the chamber B, toward this end being provided at suitable intervals with cleats, rollers, or other suitable projections 9 upon which the material C rests and which suitably space said material from said floor.
  • the floor 6 may be of any suitable construction, whereby the passages 7 and 8 are heat insulated.
  • the support for the floor 6 may conveniently consist of transverse bars 10, arranged at suitable intervals and supported at their ends by ledges 11.
  • Longitudinal angle irons 12, arranged at the sides of the chamber B, may be conveniently used as the support for the coils 5, which are preferably disposed in a horizontal plane and transversely of said chamber.
  • the bottom of the chamber B serves for the collection of the solvents and other liquids which are precipitated in said chamber, and for this purpose said bottom has a somewhat trough-shaped cross section, and is preferably provided with a centrally arranged longitudinal channel 13, along which the condensed liquids pass to any suitable and suitably located means of egress.
  • the recovery of the vapors which are liberated from the coating by the heat in the passage 7 is efiected in the passage 8, preferably by the agency of condensing coils 14, which are conveniently located somewhat at one side of the longitudinal center of said passage, and are disposed through the extent thereof.
  • the invention includes means for effectingan induced circulation of the air internal to the chamber B and in a definite direction,
  • a series of steam pipes or coils 15' are arranged through the longitudinal extent of the chamber B, and at one side of the passage 8, immediately adjacent the open space through which the passage 8 communicates with passage 7.
  • the pipes or coils 15 are arranged at the right side of the passage 8 and. the air in the chamber B circulates in the passage 7 from right to left, and in the passage 8 from left to right.
  • baflles 16 and 17 are arranged at opposite sides of the coils 14 and extend longitudinally of the passage 8, the battle 16 at the left sideof said coils depending from the floor 6 and terminating short of the bottom of the chamber B, and the baflle 17 at the right side of said coils 1 grojecting from the bottom of the chamber and terminating short of the floor 6.
  • the air in its circulation through the passage 8 first passes under the battle 16 and then rises uniformly through the coils 14, finally passing over the bafile 17 toward the opposite side of the passage 8.
  • a pump 18 which is ar ranged on the outside of the chamber, and has a suction branch 19 and a blast branch 20.
  • the branches 19 and 20 project into'the passage 8, and the branch 19 carries at its inner end a suction pipe 21 which extends longitudinally of the passage 8 and is located adjacent the batlle 17, being provided at its upper side with a row of closely associated small perforations through which the air in the passage 8 is drawn.
  • the branch 20 carries within the passage 8 a pipe 22, which extends longitudinally of said passage, being located adjacent the coils 15, and is provided with a row of closely associated apertures through which the air is discharged in relation to the coils 15.
  • Air deflectors 23 and 24 are preferably arranged adjacent the pipes 21 and 22.
  • the coils 14 effect the condensation of the vapors in the air circulating through the passage 8, and after the vapors have been precipitated, the air passes in relation to the coils 15, by which it is heated.
  • the air thus heated by the coils 15 passes upwardly into the passage 7 for reuse. It is thus apparent that the air in the chamber B is used overand over again, for the purpose of taking up the moisture liberated by the heat in the passage 7, and of carrying the vapors in relation to the condensing agent.
  • the coils 15 are located only at one side of the chamber B, the space at the other side of said chamber, through which the passages 7 and 8 communicate, being unobstructed. In this way, the air is caused to have a definite direction of movement, and the internal-circulation thereof is reliably induced.
  • a substantially air-tight drying chamber through which the coated material is passed, a false floor above which said material passes and which defines upper and lower air circulation passages communicating at their ends, heat supplying means located in the upper passage, vapor condensing means located in the lower passage, and means for inducing a circulation of air, internal to said chamber, in a definite direction whereby the air first takes up the liberated moisture in the upper passage and then carries such moisture in relation to the condensing means in the lower passage.
  • a substantially air-tight drying chamber through which the coated material is Passed, a false fioor above which said material passes and which defines upper and lower air circulation passages communicating at their ends, heat supplying means located in the upper passage, vapor condensing means located in the lower passage, and air reheating means located adjacent communicating ends of said passages, the communication of said passages at their other ends being unobstructed.
  • a substantially airtight drying chamber through which the coated material is passed, a false floor above which said material passes, and which defines upper and lower air circulation passages communicating at their ends, heat supplying means located in the upper passage, vapor condensing means located in the lower passage, an air pump, a suction pipe connected at one side of said pump and located adjacent said vapor condensing means, and a blast pipe connected at the other side of said pump and located adjacent the ends of the passages at the same side of the condensing means as the suction pipe.
  • a substantially air-tight drying chamber through which the coated material is passed, a false floor above which said material passes and which defines upper and lower air circulating passages communicating at their ends, heat supplying means located in the upper passage,
  • a substantially air-tight drying chamber through which the coated material is passed, a false floor above which said material passes and which terminates short of the sides of said chamber, thereby defining upper and lower air circulation passages communicating with one another adjacent the sides of said chamber, heat supplying means arranged in the upper passages throughout the longitudinal extent of said chamber, vapor condensing means arranged in the lower passage throughout the longitudinal extent of said chamber, and means for inducing a circulation of air, internal to said chamber and in a definite direction through said passages transversely thereof, whereby the air first takes up the liberated moisture in the upper passage and then carries such moisture in relation to the condensing means in the lower passage.
  • a substantially air-tight drying chamber through which the coated material is passed, a false floor above which said material passes and which terminates short of the sides of said chamber, thereby defining upper and lower air circulation passages communicating with one another adjacent the sides of said chamber, heat supplying means arranged in the upper passage throughout the longitudinal extent of said chamber, vapor condensing means arranged in the lower passage throughout the longitudinal extent of said chamber, longitudinal battles arranged adjacent the vapor condensing means at opposite sides thereof, one batlle depending from the false floor and terminating short of the bottom of the charm her, and the other battle projecting from the bottom of the chamber and terminating short of the false floor, and means for inducing a circulation of air, internal to said chamber and in a definite direction through said passages transversely thereof, where by the air first takes up the liberated moisture in the upper passage and then carries such moisture in relation to the condensing means in the lower passage.
  • a substantially air-tight drying chamber through which the coated material is passed, a false floor above which said material passes and which terminates short of the sides of said chamber, thereby defining upper and lower air cir- Ill culation passages communicating with one another adjacent the sides of said chamber, heat supplying means arranged in the upper passage throughout the longitudinal extent of said chamber, vapor condensing means arranged in the lower passage throughout the longitudinal extent of said chamber, and air re-heating means disposed longitudinally of the chamber and located in the lower passage closely adjacent one side of the chamber, theopposite endsof the passages being unobstructed.
  • a substantially air-tight drying chamber through which the coated material is passed, a false floor above which said material passes and'which terminates short of the sides of said chamber, thereby defining upper and lower air circulation passages communicating with one another adjacent the sides of said chamber, heat supplying means arranged in the upper passage throughout the longitudinal extent of said chamber, vapor condensing means arranged in the lower passage throughout the longitudinal extent of said chamber, an air pump, a longitudinally disposed suction pipe connected at one side of said pump and iiorrection in Letters Patent No. 1,090,336.
  • aoeaaee 9 In a coating machine, a substantially air-tight drying chamber through which the coated material is passed, a false floor above which said material passes and which terminates short of the sides of said chamber,

Description

A. S. ONBIL.
COATING MACHINE.
APPLIUATION FILED APR. 3, 1913. 1,090,336.
Patented Mar. 17, 1914.
3 SHEETS-SHEET l.
A. S. ONEIL. COATING MACHINE.
APPLIOATION FILED APR. s, 1013.
1,9,336. Patented Mar.1'7,1914.
3 BHEETS-BHEBT 2.
A. S. ONEIL.
COATING MACHINE. APPLICATION FILED APR. 3, 101a.
1,09,336. Patented Mar. 17, 1914.
3 SHEETS-SHEET 3.
ARTHUR S. ONEIL, OF WABBEN, PENNSYLVANIA.
COATING-MACHINE.
Specification of Letters Patent.
Patented Mar. 17, 1914.
Application filed April 3, 1918. Serial No. 758,649.
and it is directed more particularly to the recovery of solvents and other liquids incorporated in the bath or coating mixture,
in relation to which the material to be dried is passed.
The ultimate purposes of the invention are to facilitate the coating operation by providing for an efficient drying of the fabric or other material which has been coated and to effect an economy in operation by providing for the thorough recovery of the solvents and other liquids which may be liberated during, or consequent to, the operation of drying the coated material.
The principal object of the invention is to provide means of simple and inexpensive character for effecting a thorough and facile recovery of the solvents and other liquids incorporated in the coating mixture and liberated during the drying operation, continuously with said drying operation, and, in efiect, as a part thereof.
Having the above object in view, the invention includes essentially a drying chamber through which the coated material is assed and in which said material is subected to heat, and instrumentalities in said chamber for effecting an induced, internal circulation of air in a definite direction, and for recovering from said air any vapors liberated by the drying heat and carried over by the air in its circulation.
Other objects and advantages will appear as the description proceeds.
What is now regarded as a preferred embodiment of the invention is illustrated in the accompanying drawings, wherein:
Figure 1 is a top plan view of a coating machine in which the features of the invention are incorporated. In this figure the cover is shown as partly broken away to expose to View certain of the inclosed parts. Fig. 2 is a central longitudinal sectional view of the said-machine; Fig. 3 is a cross sectional view thereof; Fig. 4 is an enlarged detail fragmentary sectional View on the line 4-4 of Fig. 3.
Similar characters of reference designate corresponding parts throughout the several views.
The coating mechanism may be of any desired character and is shown in the drawing at A. As herein shown, the material to be treated is unwound from a reel a and passes in relation to the coating mechanism A. The latter is arranged at one end of a relatively long drying chamber B havin an opening 1 in its end wall adjoinin said coating mechanism and through whic the material C passes. At the other end of the drying chamber any suitable rewinding apparatus may be provided.
The chamber B is preferably made of sheet metal, suitably reinforced, braced, or stiffened, where necessary, and is of sufficient length to insure that the coating applied to the material 0 shall be thoroughly dried during the passage of said material through said chamber. To secure the best results, the chamber B should be substantially air tight, and therefore, said chamber has no openings except the opening 1, through which the material C is introduced, and the opening at the opposite end of the machine, through which said material is removed. Access to the interior of the chamber is had, when necessary, by removing the cover, which is preferably made in a convenient number of sections 2. In order that the cover may be associated with the chamber in an air tight manner, each section 2 has at its sides depending flanges 3 which engage in channels 4 secured to the sides of the chamber B within said chamber, and extending longitudinally thereof. The channels 4 serve to contain oil which establishes a seal against the passa e of air into or from the chamber B. The material C, as it passes through the chamber B, is subjected to the action of heat, for the purpose of drying the coating ap lied thereto by the mechanism A, and suc heat is preferably generated by an arrangement of steam coils 5 which are located in the upper portion of the chamber B, throughout the extent thereof.
For the purpose of defining passage-ways through which the air confined within the chamber B may circulate, a false floor 6 is arranged horizontally throughout the ex'- tent of said chamber, and in a plane midway of the top and bottom thereof. The floor 6 is of less width than the chamber, and defines upper and lower air passages 7 and 8, which communicate with one another through the spaces intervening between the sides of the fioor 6 and the adjacent side walls of the chamber B. The floor 6 is arranged below the material C and in the particular embodiment shown, serves the further purpose of furnishing support for said material in its passage through the chamber B, toward this end being provided at suitable intervals with cleats, rollers, or other suitable projections 9 upon which the material C rests and which suitably space said material from said floor. The floor 6 may be of any suitable construction, whereby the passages 7 and 8 are heat insulated. The support for the floor 6 may conveniently consist of transverse bars 10, arranged at suitable intervals and supported at their ends by ledges 11. Longitudinal angle irons 12, arranged at the sides of the chamber B, may be conveniently used as the support for the coils 5, which are preferably disposed in a horizontal plane and transversely of said chamber.
The bottom of the chamber B serves for the collection of the solvents and other liquids which are precipitated in said chamber, and for this purpose said bottom has a somewhat trough-shaped cross section, and is preferably provided with a centrally arranged longitudinal channel 13, along which the condensed liquids pass to any suitable and suitably located means of egress.
The recovery of the vapors which are liberated from the coating by the heat in the passage 7 is efiected in the passage 8, preferably by the agency of condensing coils 14, which are conveniently located somewhat at one side of the longitudinal center of said passage, and are disposed through the extent thereof.
' The invention includes means for effectingan induced circulation of the air internal to the chamber B and in a definite direction, Thus, a series of steam pipes or coils 15'are arranged through the longitudinal extent of the chamber B, and at one side of the passage 8, immediately adjacent the open space through which the passage 8 communicates with passage 7. In the drawings, the pipes or coils 15 are arranged at the right side of the passage 8 and. the air in the chamber B circulates in the passage 7 from right to left, and in the passage 8 from left to right. In order that the air circulating through the passage 8 may be thoroughly exposed to the coils 14, baflles 16 and 17 are arranged at opposite sides of the coils 14 and extend longitudinally of the passage 8, the battle 16 at the left sideof said coils depending from the floor 6 and terminating short of the bottom of the chamber B, and the baflle 17 at the right side of said coils 1 grojecting from the bottom of the chamber and terminating short of the floor 6. Thus, the air in its circulation through the passage 8 first passes under the battle 16 and then rises uniformly through the coils 14, finally passing over the bafile 17 toward the opposite side of the passage 8.
To aid in the circulation of air, it is preferred to employ a pump 18 which is ar ranged on the outside of the chamber, and has a suction branch 19 and a blast branch 20. The branches 19 and 20 project into'the passage 8, and the branch 19 carries at its inner end a suction pipe 21 which extends longitudinally of the passage 8 and is located adjacent the batlle 17, being provided at its upper side with a row of closely associated small perforations through which the air in the passage 8 is drawn. The branch 20 carries within the passage 8 a pipe 22, which extends longitudinally of said passage, being located adjacent the coils 15, and is provided with a row of closely associated apertures through which the air is discharged in relation to the coils 15. Air deflectors 23 and 24 are preferably arranged adjacent the pipes 21 and 22.
From the foregoing description it will be apparent that the circulation of air provided for in the embodiment shown is transverse to the chamber B. The heat generated by the coils 5 in the upper portion of said chamber liberates the readily volatile solvents and other volatile liquids incorporated in the coating, and the vapors thus liberated are taken up by the air in the passage 7. The super-saturated air, being heavy with vapors, passes downwardly into the passage 8 and in its circulation through the passage 8, passes in relation to the coils 14, through which cold water or some other. agent suitable for condensing purposes, is
circulating. The coils 14 effect the condensation of the vapors in the air circulating through the passage 8, and after the vapors have been precipitated, the air passes in relation to the coils 15, by which it is heated. The air thus heated by the coils 15 passes upwardly into the passage 7 for reuse. It is thus apparent that the air in the chamber B is used overand over again, for the purpose of taking up the moisture liberated by the heat in the passage 7, and of carrying the vapors in relation to the condensing agent.
It will be observed that the coils 15 are located only at one side of the chamber B, the space at the other side of said chamber, through which the passages 7 and 8 communicate, being unobstructed. In this way, the air is caused to have a definite direction of movement, and the internal-circulation thereof is reliably induced.-
It will be apparent that the features of construction and arrangement hereindescribed provide for a thorough drying of the material C in its passage through the drying chamber, provide for a thorough recovery of solvents and other volatile liquids incorporated in the coating, enable the recovery of the solvents and other liquids to be, in eflect, a part of the drying operation, and, of course, continuous with said operation, and insure that the results stated are accomplished with facility, in a simple manner, and by means of inexpensive character.
Having fully described my invention, I claim:
1. In a coating machine, a substantially air-tight drying chamber through which the coated material is passed, a false floor above which said material passes and which defines upper and lower air circulation passages communicating at their ends, heat supplying means located in the upper passage, vapor condensing means located in the lower passage, and means for inducing a circulation of air, internal to said chamber, in a definite direction whereby the air first takes up the liberated moisture in the upper passage and then carries such moisture in relation to the condensing means in the lower passage.
2. In a coating machine, a substantially air-tight drying chamber through which the coated material is Passed, a false fioor above which said material passes and which defines upper and lower air circulation passages communicating at their ends, heat supplying means located in the upper passage, vapor condensing means located in the lower passage, and air reheating means located adjacent communicating ends of said passages, the communication of said passages at their other ends being unobstructed.
3. In a coating machine, a substantially airtight drying chamber through which the coated material is passed, a false floor above which said material passes, and which defines upper and lower air circulation passages communicating at their ends, heat supplying means located in the upper passage, vapor condensing means located in the lower passage, an air pump, a suction pipe connected at one side of said pump and located adjacent said vapor condensing means, and a blast pipe connected at the other side of said pump and located adjacent the ends of the passages at the same side of the condensing means as the suction pipe.
l. In a coating machine, a substantially air-tight drying chamber through which the coated material is passed, a false floor above which said material passes and which defines upper and lower air circulating passages communicating at their ends, heat supplying means located in the upper passage,
means as the suction pipe, and air re-heating means located between the blast pipe and the adjacent communicating ends of the passages, the communication of the passages at their other ends bein unobstructed.
5. In a coating machine, a substantially air-tight drying chamber through which the coated material is passed, a false floor above which said material passes and which terminates short of the sides of said chamber, thereby defining upper and lower air circulation passages communicating with one another adjacent the sides of said chamber, heat supplying means arranged in the upper passages throughout the longitudinal extent of said chamber, vapor condensing means arranged in the lower passage throughout the longitudinal extent of said chamber, and means for inducing a circulation of air, internal to said chamber and in a definite direction through said passages transversely thereof, whereby the air first takes up the liberated moisture in the upper passage and then carries such moisture in relation to the condensing means in the lower passage.
6. In a coating machine, a substantially air-tight drying chamber through which the coated material is passed, a false floor above which said material passes and which terminates short of the sides of said chamber, thereby defining upper and lower air circulation passages communicating with one another adjacent the sides of said chamber, heat supplying means arranged in the upper passage throughout the longitudinal extent of said chamber, vapor condensing means arranged in the lower passage throughout the longitudinal extent of said chamber, longitudinal battles arranged adjacent the vapor condensing means at opposite sides thereof, one batlle depending from the false floor and terminating short of the bottom of the charm her, and the other battle projecting from the bottom of the chamber and terminating short of the false floor, and means for inducing a circulation of air, internal to said chamber and in a definite direction through said passages transversely thereof, where by the air first takes up the liberated moisture in the upper passage and then carries such moisture in relation to the condensing means in the lower passage.
7. In a coating machine, a substantially air-tight drying chamber through which the coated material is passed, a false floor above which said material passes and which terminates short of the sides of said chamber, thereby defining upper and lower air cir- Ill culation passages communicating with one another adjacent the sides of said chamber, heat supplying means arranged in the upper passage throughout the longitudinal extent of said chamber, vapor condensing means arranged in the lower passage throughout the longitudinal extent of said chamber, and air re-heating means disposed longitudinally of the chamber and located in the lower passage closely adjacent one side of the chamber, theopposite endsof the passages being unobstructed.
8. In a coating machine, a substantially air-tight drying chamber through which the coated material is passed, a false floor above which said material passes and'which terminates short of the sides of said chamber, thereby defining upper and lower air circulation passages communicating with one another adjacent the sides of said chamber, heat supplying means arranged in the upper passage throughout the longitudinal extent of said chamber, vapor condensing means arranged in the lower passage throughout the longitudinal extent of said chamber, an air pump, a longitudinally disposed suction pipe connected at one side of said pump and iiorrection in Letters Patent No. 1,090,336.
located adjacent said vapor condensing means, and a longitudinally disposed blast pipe connected atv the other side of said pump and located adjacent the ends of the passages at the same time of the condensing means as the suction pipe.
aoeaaee 9; In a coating machine, a substantially air-tight drying chamber through which the coated material is passed, a false floor above which said material passes and which terminates short of the sides of said chamber,
thereby defining upper and lower air circulation passages communicating with one another adjacent the sides of said chamber, heat supplying means arranged in the upper passage throughout the longitudinal extent of said chamber, vapor condensing means arranged in the lower passage throughout the longitudinal extent of said chamber, an air pump, a longitudinally disposed suction pipe, connected at one side of said pump and located adjacent said vapor condensing means, a longitudinally disposed blast pipe connected at the other side of said pump Y nesses.
ARTHUR S. ONEIL. v Witnesses:
Rosn H. DAVIS, C. W. ROGERS.
It is hereby certified that in Letters Patent No. 1,090,336, granted March 17, 1914:, upon the application of Arthur S. ONeil, of Warren, Pennsylvania, for an improvement in Coating-Machines, an error appears in the printed specification requiring correction as follows: Page 4:, line 32, for the word time read side; and that the said Letters Patent should be read with this correction therein that the same may conform to the record of the casein the Patent Otfice.
Signed and sealed this 4th day of August, A. D., 1914:-
J, r. NEWTON,
I Actc'ng Commissioner of Patents.
US75864913A 1913-04-03 1913-04-03 Coating-machine. Expired - Lifetime US1090336A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2535087A (en) * 1940-06-06 1950-12-26 Munters Carl Georg Apparatus for impregnating heat insulating material
US2723923A (en) * 1947-10-02 1955-11-15 Munters Carl Georg Method of impregnating multilayer paper insulation

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2535087A (en) * 1940-06-06 1950-12-26 Munters Carl Georg Apparatus for impregnating heat insulating material
US2723923A (en) * 1947-10-02 1955-11-15 Munters Carl Georg Method of impregnating multilayer paper insulation

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