US1818008A - Manufacturing process - Google Patents

Manufacturing process Download PDF

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Publication number
US1818008A
US1818008A US410267A US41026729A US1818008A US 1818008 A US1818008 A US 1818008A US 410267 A US410267 A US 410267A US 41026729 A US41026729 A US 41026729A US 1818008 A US1818008 A US 1818008A
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United States
Prior art keywords
coil
tin
conduit
tube
metal
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Expired - Lifetime
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US410267A
Inventor
Ritter Carl Clifford
Harry M Williams
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Frigidaire Corp
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Frigidaire Corp
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Publication date
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Priority to US410267A priority Critical patent/US1818008A/en
Application granted granted Critical
Publication of US1818008A publication Critical patent/US1818008A/en
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    • CCHEMISTRY; METALLURGY
    • C23COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
    • C23CCOATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; SURFACE TREATMENT OF METALLIC MATERIAL BY DIFFUSION INTO THE SURFACE, BY CHEMICAL CONVERSION OR SUBSTITUTION; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL
    • C23C24/00Coating starting from inorganic powder
    • C23C24/08Coating starting from inorganic powder by application of heat or pressure and heat
    • C23C24/10Coating starting from inorganic powder by application of heat or pressure and heat with intermediate formation of a liquid phase in the layer
    • C23C24/103Coating with metallic material, i.e. metals or metal alloys, optionally comprising hard particles, e.g. oxides, carbides or nitrides
    • C23C24/106Coating with metal alloys or metal elements only

Definitions

  • This invention relates to a manufacturing process or to a process of coating the interior surface of a conduit with a material having different properties and more specifically to provide a method of coating the interior surface of a metal conduit which has been cut and prepared for use in refrigerating apparatus.
  • the principal. object of this invention is to provide a method of coating the interior surface of a conduit with a material having different properties and more specifically to provide a method of coating the interior surface of a metal conduit with a metal having different properties.
  • a second object is to provide a method whereby the interior surface of copper tubing of relatively small diameter may be coated with a metal such as tin and more specifically to apply this coating to the tubing in assembled form.
  • a furtherobject of this invention is to provide a method whereby a metal tube may be coated evenly and smoothly and more specifically to provide a method whereby this coating may be applied evenly and smoothly to the tubing in assembled form ready for i use in refrigerating apparatus.
  • this invention contemplates the coating of the inner surface of a conduit with a material having different properties by treating the said surface with the -material in finely divided form, and heating the surface so treated, to a temperature suificient to cause the material to melt and adhere to the said surface.
  • this invention contemplates the coating of the interior surface of a conduit or tube with a second metal by treating. the said surface with a flux, carrying suspended therein in-finely divided form, the metal to be applied, removing the excess flux and heating the conduit or tube to a temperature suflicient to Application filed November 27, 1929. Serial No. 410,267.
  • this invention contemplates the coating of the interior surface of a copper tube with a metal such as tin by treating the said surface with a flux, carrying suspended therein the tin in powdered form, removing the excess flux and subjecting the tube to a high temperature while slowly rotating the tube so as to cause the suspended tin to melt and adhere to the inner surface of the copper tubing.
  • a convenient manner of illustrating this process may be by settingforth the opera tions necessary to coat the interior surface of a copper coil.
  • This coil may be inch copper tubing made up into a coil 6 inches in diameter and comprising approximately 20 turns.
  • Fthe coil such a structure will be referred to as Fthe coil although it is to be understood that such is taken merely for illustrative purposes only and in no limiting sense whatever for obviously the process is applicable to tubing of other size and shape.
  • the coil is first cleaned and this cleaning operation may comprise an alkali wash, a thorough rinsing in water, an acid wash and a second rinsing in water.
  • the coil is then ready to be tinned, which may be accomplished by circulating through the coil, either by pum ing or suction action, a physical solution 0 pure tin suspended in finely divided form in a flux, for example, a solu- 'tion of ammonium chloride and zinc chloride in water. After removing the excess of this solution preferably by suction action, the coil may be heated to approximately 600 F. to 630? F. for 20 minutes to melt the finely divided tin, during which time the coil may be slowly rotated.
  • the coil may be quenched in water and it is only necessary to then remove the zinc oxide or other foreign matter d%%osited inside of the tube from the flux. is may be accomplished Ill . ute.
  • the coil may then be rinsed with hot sulphuric,
  • the cleaning operation as heretofore stated may comprise an alkali wash and an acid wash.
  • an alkali wash the coil may be treated with a boiling solution of sodium triphosphate and caustic soda i oz. of NA lPO plus 2 oz. NAOH per gal. of water). This solution may be pumped through the coil for five minutes at the rate of about 5 gal. per minwater for 2 minutes.
  • the acid wash may be effectively accomplished by circulating a-hot (150 F.) acid solution through the coil for 5 minutes at the rate of 2 to 3 gal. per minute.
  • This solution may comprise 20% sulphuric acid plus 2 oz. of sodium dichromate per gallon of H 61.
  • the coil may be rinsed a second time by circulating cold water therethrough for 2 minutes.
  • a suitable alkali cleaner may comprise a boiling solution of lbs. per 100 gal. of water of the following mixture: about trisodium phosphate, 10% caustic soda, and 35% sodium carbonate.
  • An alternative acid wash may comprise a solution of 1 gallon .3 gallons nitric and l c. c. hydrochloric acids in .6 gallons of water, operated at about room temperature. it is also sometimes advisable to treat the coil with a cyanide solution comprising 37 lbs. of sodium cyanide per 100' gallons of water.
  • the coil may first be mounted on a shaft passing longitudinally therethrough and adapted to be placed in a frame for rotating movement during the heating and quenching operations.
  • the coil may then be held upright with its dead end on top and the tin solution may be circulated through the coil either by pumping or naiaoee suction, action from the bottom at the rate of one to two gallons per minute for about three or four minutes.
  • dead end isv meant that end at which, due to the rotating action of the coil, the metal does not flow out during the tinning operation.
  • the position of the coil may be reversed, that is, with the dead end placed on the bottom and the excess of the solution may be sucked out of the coil.
  • the dead end of the coil should then be coated with some paste of tin powder and flux. After the coil has been so treated with the tin solution, it should be kept on its side and preferably mounted in a frame until ready for the heat treatment in order to prevent Washing or too much draining of the tin solution.
  • the coil together with the frame on which it has been mounted for rotary motion may then be placed in a furnace in a horizontal position and the coil slowly rotated at about 2 R. P. M. while it is being heated to approximately 600 to 630 F. for approximately 20 minutes sufficient to cause the tin to melt and to adhere to the surface of the coil. At the end of the heating period the coil may be removed from the furnace, continuing the revolving and quenched in water. This gives a bright smooth coating of tin.
  • That improvement in the art of tinning the inside surface of a copper tube having applied thereto a flux carrying suspended therein, tin in finely divided powdered form which comprises heating the tube to substantially 600630 F. for a period of time sufiicient to melt the powdered tin and slowly rotating the said tube during the heating operation substantially as and in the manner described.
  • the method of coating the inside surface of a metal tube with a metal having different properties which comprises cleaning the said surface, slushing the said surface with a flux containing the metal to be applied suspended in finely divided powdered form, removing the excess flux, heating the tube to a temperature suflicient to melt the suspended metal, slowly rotating the tube during the heating 0 eration, quenching the heated tube in col water, and removing the excess foreign material substantially as and in the manner set forth.
  • That improvement in the art of lining a metal conduit with a second metal which comprises slushing the conduit with a flux containing suspended therein a metal in finely divided powdered form and heating the said conduit to a temperature of substantially 600630 F.
  • That improvement in the art of lining a metal conduit with a second metal which comprises slushing the conduit with a flux containing the metal in finely divided powdered form, slowly rotating the said conduit, and heating the said conduit to a temperature of substantially GOO-630 F. as described.
  • a method of lining a metal conduit comprising, applying to the inner side of the conduit a flux containing suspended therein a metal to be applied, in finely divided powdered form, heating the conduit to melt the suspended metal, rotating the conduit to evenly apply the lining, quench ing and cooling the heated conduit and 'removing the excess foreign material from the lined conduit substantially as described.

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  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Application Of Or Painting With Fluid Materials (AREA)

Description

Patented Aug. 11, 1931 UNITED STATES PATENT OFFICE CARL CLIFFORD BITTER AND HARRY M. WILLIAMS, F DAYTON, OHIO, ASSIGNORS TO FBIGIDAIBJE CORPORATION, OF DAYTON, OHIO, A CORPORATION OF DELAWARE MANUFACTURING rnocnss No Drawing.
This invention relates to a manufacturing process or to a process of coating the interior surface of a conduit with a material having different properties and more specifically to provide a method of coating the interior surface of a metal conduit which has been cut and prepared for use in refrigerating apparatus.
The principal. object of this invention is to provide a method of coating the interior surface of a conduit with a material having different properties and more specifically to provide a method of coating the interior surface of a metal conduit with a metal having different properties.
A second object is to provide a method whereby the interior surface of copper tubing of relatively small diameter may be coated with a metal such as tin and more specifically to apply this coating to the tubing in assembled form.
A furtherobject of this invention is to provide a method whereby a metal tube may be coated evenly and smoothly and more specifically to provide a method whereby this coating may be applied evenly and smoothly to the tubing in assembled form ready for i use in refrigerating apparatus.
Further objects of this invention will be apparent from the following description of one method in which this process may be practiced.
In its broad aspect, this invention contemplates the coating of the inner surface of a conduit with a material having different properties by treating the said surface with the -material in finely divided form, and heating the surface so treated, to a temperature suificient to cause the material to melt and adhere to the said surface.
In a more limited aspect this invention contemplates the coating of the interior surface of a conduit or tube with a second metal by treating. the said surface with a flux, carrying suspended therein in-finely divided form, the metal to be applied, removing the excess flux and heating the conduit or tube to a temperature suflicient to Application filed November 27, 1929. Serial No. 410,267.
same to adhere to the inner surface of the conduit.
In a still more limited aspect this invention contemplates the coating of the interior surface of a copper tube with a metal such as tin by treating the said surface with a flux, carrying suspended therein the tin in powdered form, removing the excess flux and subjecting the tube to a high temperature while slowly rotating the tube so as to cause the suspended tin to melt and adhere to the inner surface of the copper tubing.
A convenient manner of illustrating this process may be by settingforth the opera tions necessary to coat the interior surface of a copper coil. This coil may be inch copper tubing made up into a coil 6 inches in diameter and comprising approximately 20 turns. Hereinafter such a structure will be referred to as Fthe coil although it is to be understood that such is taken merely for illustrative purposes only and in no limiting sense whatever for obviously the process is applicable to tubing of other size and shape.-
In describing such a process the steps or operations will first be set forth generally and thereafter the individual operations will be separately and fully described.
The coil is first cleaned and this cleaning operation may comprise an alkali wash, a thorough rinsing in water, an acid wash and a second rinsing in water. The coil is then ready to be tinned, which may be accomplished by circulating through the coil, either by pum ing or suction action, a physical solution 0 pure tin suspended in finely divided form in a flux, for example, a solu- 'tion of ammonium chloride and zinc chloride in water. After removing the excess of this solution preferably by suction action, the coil may be heated to approximately 600 F. to 630? F. for 20 minutes to melt the finely divided tin, during which time the coil may be slowly rotated. Thereafter the coil may be quenched in water and it is only necessary to then remove the zinc oxide or other foreign matter d%%osited inside of the tube from the flux. is may be accomplished Ill . ute. The coil may then be rinsed with hot sulphuric,
by circulating warm water therethrough. Blowing out and drying the tube completes the inside tinning thereof.
'Referring now more specifically to the details of the individual steps, the cleaning operation as heretofore stated may comprise an alkali wash and an acid wash. For an alkali wash the coil may be treated with a boiling solution of sodium triphosphate and caustic soda i oz. of NA lPO plus 2 oz. NAOH per gal. of water). This solution may be pumped through the coil for five minutes at the rate of about 5 gal. per minwater for 2 minutes. The acid wash may be effectively accomplished by circulating a-hot (150 F.) acid solution through the coil for 5 minutes at the rate of 2 to 3 gal. per minute. This solution may comprise 20% sulphuric acid plus 2 oz. of sodium dichromate per gallon of H 61. Finally the coil may be rinsed a second time by circulating cold water therethrough for 2 minutes.
Although but one alkali cleaner and one acid cleaner have been set forth, it is obvious that others may be used. For example, a suitable alkali cleaner may comprise a boiling solution of lbs. per 100 gal. of water of the following mixture: about trisodium phosphate, 10% caustic soda, and 35% sodium carbonate. An alternative acid wash may comprise a solution of 1 gallon .3 gallons nitric and l c. c. hydrochloric acids in .6 gallons of water, operated at about room temperature. it is also sometimes advisable to treat the coil with a cyanide solution comprising 37 lbs. of sodium cyanide per 100' gallons of water. However, if the phosphate cleaner and the acid solution of sulphuric acid and dichromate are used as set forth above, it is generally unnecessary to use the cyanide wash. The coil is now ready to be tinned and although any one of several solutions carrying suspended therein the finely divided tin may be used, the following is preferred: Ammonia chloride 6 grams @nc chloride-"n" grz igms ater 1 Pure tin powder 200 grams (M. P. 449 F.) (150 mesh) Other tinning solutions may be used such as a mixture of lard oil, ammonia chloride and powdered tin with or without the addition of zinc chloride. Another solution may comprise a mixture of zinc chloride, ammonium chloride, ethyl and butyl alcohols, powdered tin and water.
In applying the solution to the interior surface of the tube, the coil may first be mounted on a shaft passing longitudinally therethrough and adapted to be placed in a frame for rotating movement during the heating and quenching operations. The coil may then be held upright with its dead end on top and the tin solution may be circulated through the coil either by pumping or naiaoee suction, action from the bottom at the rate of one to two gallons per minute for about three or four minutes. By dead end isv meant that end at which, due to the rotating action of the coil, the metal does not flow out during the tinning operation. Then the position of the coil may be reversed, that is, with the dead end placed on the bottom and the excess of the solution may be sucked out of the coil. The dead end of the coil should then be coated with some paste of tin powder and flux. After the coil has been so treated with the tin solution, it should be kept on its side and preferably mounted in a frame until ready for the heat treatment in order to prevent Washing or too much draining of the tin solution.
The coil together with the frame on which it has been mounted for rotary motion may then be placed in a furnace in a horizontal position and the coil slowly rotated at about 2 R. P. M. while it is being heated to approximately 600 to 630 F. for approximately 20 minutes sufficient to cause the tin to melt and to adhere to the surface of the coil. At the end of the heating period the coil may be removed from the furnace, continuing the revolving and quenched in water. This gives a bright smooth coating of tin.
It may now be necessary to remove zinc oxide deposited inside of the coil from the flux and this may be accomplished by circulating therethrough Warm water. Blowing out and drying the tubing completes the inside tinning operation.
While I have described the process as applied to the tinning of the interior surface of a copper tubing or coil it will be obvious that substantially the same process may be practiced in applying other materials to other tubes, and that modifications may be adopted, all falling within the scope of the appended claims.
What is claimed is as follows:
1. The process of tinning the inner surface of a copper tube which comprises slushing the said surface with a flux containing finely divided tin suspended therein, removlng the excess of flux, heating the so treated tube to a temperature sufficient to melt the finely divided tin, slowly rotating the tubing during the heating operation and removing the excess fiux from the tubing substantially in the manner described.
2. The process of tinning the interior surface of a copper tube comprising washing and cleaning the said surface, applying 3. The process of tinning the inside surface of a copper tubing made up into the form of a coil which comprises slushing the said surface with a flux containing suspended therein the tin in finely divided powered form, and heating the said coil to approximately GOO-630 F. while slowly rotating the coil.
4. The process of tinning the inside surface of a copper tube which comprises slushing the inside of the tube with a flux containing suspended therein tin in finely divided powdered form, heating the tube to a temperature sufiicient to melt the powdered tin, slowly rotating the tube during the heating operation, and removing the excess foreign material substantially in the manner described.
5. That improvement in the art of tinning the inside surface of a copper tube having applied thereto a flux carrying suspended therein, tin in finely divided powdered form, which comprises heating the tube to substantially 600630 F. for a period of time sufiicient to melt the powdered tin and slowly rotating the said tube during the heating operation substantially as and in the manner described.
6. The method of coating the inside surface of a metal tube with a metal having different properties which comprises cleaning the said surface, slushing the said surface with a flux containing the metal to be applied suspended in finely divided powdered form, removing the excess flux, heating the tube to a temperature suflicient to melt the suspended metal, slowly rotating the tube during the heating 0 eration, quenching the heated tube in col water, and removing the excess foreign material substantially as and in the manner set forth.
7. That improvement in the art of lining a metal conduit with a second metal which comprises slushing the conduit with a flux containing suspended therein a metal in finely divided powdered form and heating the said conduit to a temperature of substantially 600630 F.
8. That improvement in the art of lining a metal conduit with a second metal which comprises slushing the conduit with a flux containing the metal in finely divided powdered form, slowly rotating the said conduit, and heating the said conduit to a temperature of substantially GOO-630 F. as described.
9. A method of lining a metal conduit comprising, applying to the inner side of the conduit a flux containing suspended therein a metal to be applied, in finely divided powdered form, heating the conduit to melt the suspended metal, rotating the conduit to evenly apply the lining, quench ing and cooling the heated conduit and 'removing the excess foreign material from the lined conduit substantially as described.
In testimony whereof we hereto afix our signatures,
CARL CLIFFORD RITTER.
HARRY M. WILLIAMS.
US410267A 1929-11-27 1929-11-27 Manufacturing process Expired - Lifetime US1818008A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2470689A (en) * 1943-02-16 1949-05-17 Chase Brass & Copper Co Process for tin-coating the interiors of copper tubes
US2771669A (en) * 1952-07-07 1956-11-27 Gen Motors Corp Method of coating interior of tubing with zinc
US2822291A (en) * 1949-06-25 1958-02-04 Gen Motors Corp Seal coating interior of tubing
US2983634A (en) * 1958-05-13 1961-05-09 Gen Am Transport Chemical nickel plating of magnesium and its alloys
US3001889A (en) * 1960-02-23 1961-09-26 Phelps Dodge Copper Prod Method and apparatus for applying metal coatings to the inner surfaces of metal tubes
FR2198003A1 (en) * 1972-09-05 1974-03-29 Shell Int Research

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2470689A (en) * 1943-02-16 1949-05-17 Chase Brass & Copper Co Process for tin-coating the interiors of copper tubes
US2822291A (en) * 1949-06-25 1958-02-04 Gen Motors Corp Seal coating interior of tubing
US2771669A (en) * 1952-07-07 1956-11-27 Gen Motors Corp Method of coating interior of tubing with zinc
US2983634A (en) * 1958-05-13 1961-05-09 Gen Am Transport Chemical nickel plating of magnesium and its alloys
US3001889A (en) * 1960-02-23 1961-09-26 Phelps Dodge Copper Prod Method and apparatus for applying metal coatings to the inner surfaces of metal tubes
FR2198003A1 (en) * 1972-09-05 1974-03-29 Shell Int Research

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