Spraying Patents (Class 427/233)
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Patent number: 4356214Abstract: A method of forming a puncture preventing layer on an innner surface of a pneumatic tire including the steps of extruding sealing material and pulverizing the extruded sealing material into fine particles for coating the inner surface with a layer of the sealing material under pressure through action of centrifugal force. For effecting the above described method in an efficient manner, there is also provided a puncture preventing layer forming apparatus which includes arrangements for holding the tire, extruding the sealing material, and pulverizing the extruded sealing material so as to be coated onto the inner surface of the tire through the action of centrifugal force.Type: GrantFiled: December 31, 1980Date of Patent: October 26, 1982Assignee: Sumitomo Rubber Industries, Ltd.Inventors: Kozi Soeda, Katuyuki Hoshikawa, Akitaka Kimura
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Patent number: 4341842Abstract: A method of coating an automotive part with a room temperature vulcanizable silicone rubber composition comprising applying to the automotive part a thin layer of a composition comprising a silanol end-stopped polysiloxane polymer, an alkyl silicate as the cross-linking agent and as the catalyst a metal salt of a carboxylic acid. The automotive part can be a tail pipe resonator or a muffler. Such composition, which is a two-component or two package room-temperature vulcanizable silicone rubber composition can also be used to coat the underside of a car to protect it from corrosion.Type: GrantFiled: June 30, 1980Date of Patent: July 27, 1982Assignee: General Electric CompanyInventor: Warren R. Lampe
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Patent number: 4298634Abstract: A method for coating the interior of a cylindrical surface comprising depositing on the interior or a rotating cylindrical surface a dry hydraulic cement composition and applying to the dry cement coating which is held stationary on the interior cylindrical surface by the centrifugal force of the rotating cylinder an aqueous composition and allowing the cement to harden to provide a coating having no tendency to slump or sag in the wet condition.Type: GrantFiled: November 4, 1980Date of Patent: November 3, 1981Assignee: Compagnie Internationale Pour l'Informatique CII-Honeywell Bull (Societe Anonyme)Inventor: Edwin H. Phelps
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Patent number: 4291640Abstract: An apparatus for the internal coating of a two-piece can body with a powder. Two-piece can bodies include a body and an end. A stream of powder is directed towards the corner between the end and the body in a circular path by rotating either the can body or the powder dispenser so as to coat the end of the can body. A recovery tube is provided to draw the powder rearwardly out of the can body away from the end in a generally cylindrical path adjacent the interior wall of the body so as to coat the body with the powder. The powder is electrostatically charged so as to adhere to the can body until such time as the powder may be suitably cured.Type: GrantFiled: September 9, 1977Date of Patent: September 29, 1981Assignee: The Continental Group, Inc.Inventors: Robert D. Payne, Thomas F. Jordan
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Patent number: 4289089Abstract: The applicator includes two elongated conveyor rollers arranged in parallel alignment and inclined from a sealant application station toward a tire unloading station. The rollers simultaneously rotate a series of tires in the same direction about a common axis in side-by-side engagement with one end tire adjacent the sealant application station and the other end tire adjacent the unloading station. A kicker assembly unloads the latter end tire, whereupon the rollers advance the remaining tires toward the unloading station while maintaining coaxial rotation thereof. A fresh tire then may be positioned at the application station and the application and advancement steps repeated. The applicator further includes a sealant applicator for effecting airless spray application of sealant to a tire, together with a control system for controlling the position of the spray applicator and causing sealant to be purged a predetermined time after no sealant application is made.Type: GrantFiled: December 3, 1979Date of Patent: September 15, 1981Assignee: Rocket Research CorporationInventors: Kenneth L. Tacke, Lyle D. Galbraith, Hudson Stewart
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Patent number: 4281621Abstract: The applicator includes two elongated conveyor rollers arranged in parallel alignment and inclined from a sealant application station toward a tire unloading station. The rollers simultaneously rotate a series of tires in the same direction about a common axis in side-by-side engagement with one end tire adjacent the sealant application station and the other end tire adjacent the unloading station. A kicker assembly unloads the latter end tire, whereupon the rollers advance the remaining tires toward the unloading station while maintaining coaxial rotation thereof. A fresh tire then may be positioned at the application station and the application and advancement steps repeated. The applicator further includes a sealant applicator for effecting airless spray application of sealant to a tire, together with a control system for controlling the position of the spray applicator and causing sealant to be purged a predetermined time after no sealant application is made.Type: GrantFiled: December 3, 1979Date of Patent: August 4, 1981Assignee: Rockcor, Inc.Inventors: Kenneth L. Tacke, Lyle D. Galbraith, Hudson Stewart
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Patent number: 4278709Abstract: A method of applying a water soluble epoxy resin to the interior surface of a heated beverage can of the lightweight design is disclosed. The epoxy, in a low viscosity solution, is directed against the interior surface of the can while the can is rotated. Centrifugal forces act on the epoxy solution causing a flow of the solution from the center portion of the can bottom to the difficult to access inner frustoconical surfaces.Type: GrantFiled: October 25, 1979Date of Patent: July 14, 1981Assignee: Ball CorporationInventors: Richard W. Sullivan, Robert N. Warwick
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Patent number: 4262627Abstract: This is an apparatus for coating the inside of a pipe with a wear-resistant material and is more specifically concerned with an improved production machine for producing large size pipe.Type: GrantFiled: April 6, 1978Date of Patent: April 21, 1981Assignee: Rexnord, Inc.Inventors: Charles L. Roeder, William J. Siefert, Frederik Theijsmeijer
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Patent number: 4262624Abstract: A method of forming a puncture preventing layer on an inner surface of a pneumatic tire including the steps of extruding sealing material and pulverizing the extruded sealing material into fine particles for coating the inner surface with a layer of the sealing material under pressure through action of centrifugal force. For effecting the above described method in an efficient manner, there is also provided a puncture preventing layer forming apparatus which includes arrangements for holding the tire, extruding the sealing material, and pulverizing the extruded sealing material so as to be coated onto the inner surface of the tire through the action of centrifugal force.Type: GrantFiled: November 9, 1978Date of Patent: April 21, 1981Assignee: Sumitomo Rubber Industries, Ltd.Inventors: Kozi Soeda, Katuyuki Hoshikawa, Akitaka Kimura
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Patent number: 4246300Abstract: Can bodies are held by means, such as a vacuum, magnetic or other means onto rotating, disc-shaped pads which accompany the cans throughout an indexing route. A can centering guide positions each can on the center of one of the pads to insure eventual alignment with spray guns at two spray stations downstream. A spinner-drive belt encircles a turret and forms a substantially continuous rotational drive for spinning the can-bearing pads. When a vacuum means is employed, the vacuum means comprises a vacuum manifold in the rear of the turret and has manifold groove for vacuum communication with the can through the vacuum pad. As the can-bearing vacuum pads pass along the manifold groove, the cans, being securely centered on the vacuum pads, rotate at the same velocity as the belt-drive vacuum pads.Type: GrantFiled: February 28, 1979Date of Patent: January 20, 1981Assignee: Reynolds Metals CompanyInventor: Eric L. Jensen
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Patent number: 4243699Abstract: A method of powder coating the inside of tubular goods, such as oil field pipe and the like, by connecting one end of the pipe to a means for producing a flow of compressible gases therethrough. The other end of the pipe is open to atmospheric pressure. A valve means is connected upstream of the pipe between the inlet end thereof and a container for holding a single charge of plastic powder. The charge of powdered plastic is isolated upstream of the pipe inlet. The charge is of sufficient size to coat the entire inside peripheral wall surface of the pipe with a substantial uniform coating of plastic.Type: GrantFiled: December 20, 1977Date of Patent: January 6, 1981Inventor: Jack E. Gibson
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Patent number: 4206008Abstract: The applicator includes two elongated conveyor rollers arranged in parallel alignment and inclined from a sealant application station toward a tire unloading station. The rollers simultaneously rotate a series of tires in the same direction about a common axis in side-by-side engagement with one end tire adjacent the sealant application station and the other end tire adjacent the unloading station. A kicker assembly unloads the latter end tire, whereupon the rollers advance the remaining tires toward the unloading station while maintaining coaxial rotation thereof. A fresh tire then may be positioned at the application station and the application and advancement steps repeated. The applicator further includes a sealant applicator for effecting airless spray application of sealant to a tire, together with a control system for controlling the position of the spray applicator and causing sealant to be purged a predetermined time after no sealant application is made.Type: GrantFiled: August 14, 1978Date of Patent: June 3, 1980Assignee: Rockcor, Inc.Inventors: Kenneth L. Tacke, Lyle D. Galbraith, Hudson Stewart
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Patent number: 4205101Abstract: Method of treating automotive and like bodies with a pretreatment liquid in which the body is traversed with respect to a multiplicity of orifices for projection of the liquid at the body, the longitudinal axis of the body being at right angles to the direction of traverse and the major part of the liquid being projected at an angle to the longitudinal plane of symmetry of the body in the range 30.degree.-60.degree..Type: GrantFiled: February 8, 1977Date of Patent: May 27, 1980Assignee: Imperial Chemical Industries LimitedInventor: Norman M. Ness
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Patent number: 4186225Abstract: Two spray coatings are successively applied, without an intervening curing step, to coat the inside surface of a shell for a two-piece can. This "wet-on-wet" coating technique utilizes zone spraying, wherein only the sidewall is covered during the first application, with the second coat being applied to all inside surfaces.Type: GrantFiled: March 22, 1978Date of Patent: January 29, 1980Assignee: American Can CompanyInventors: Jack L. Smith, Leon W. Mitchell
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Patent number: 4183974Abstract: A method for coating a cylindrical container with a thin, resinous coating by spraying powdered resin is disclosed. The technique involves spraying of finely divided resin particles into a beverage container from spray nozzles external to the container. The container may be sprayed by directing a pulse of a predetermined quantum of resin into the container to deposit a substantially uniform coating. Alternatively, a continuous flow of resin at a predetermined rate may be sprayed into a container. The resin particles are caused to adhere to the container by preheating the container. The coating is rendered continuous by preheating the container to temperatures above the softening point of the resin. Postheating of the coated container at temperatures in excess of about 300.degree. F. matures the coating.Type: GrantFiled: March 24, 1977Date of Patent: January 15, 1980Assignee: W. R. Grace & Co.Inventors: Robert G. Coucher, Gene Gerek
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Patent number: 4177233Abstract: Method for making a tire whose white sidewall portion is created by, selectively, providing a circumferential groove in the molded tire, buffing the surfaces of the groove, placing an adhesive in the groove, heating the tire about 138.degree. C. to dry the adhesive, bringing the tire temperature to about 100.degree. C. and, while rotating the tire with the groove in a substantially horizontal plane, directing a stream of white polyurethane stock into the groove by means of an applicator which is formed to direct the stock in differing volumes into the bottom of the groove and laterally against its corners and sides; the white sidewall strip so formed has the shape of a concave meniscus.Type: GrantFiled: April 25, 1978Date of Patent: December 4, 1979Assignee: The Firestone Tire & Rubber CompanyInventor: Durward T. Roberts, Jr.
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Patent number: 4169906Abstract: This is concerned with a method of making a pipe to increase its wear resistance by coating the interior thereof with a wear resistant coating which includes wear resistant particles, and the pipe produced by such a method.Type: GrantFiled: April 6, 1978Date of Patent: October 2, 1979Assignee: Rexnord Inc.Inventors: James R. Hallstrom, Kenneth G. Klatt, Ronald L. Walling
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Patent number: 4163812Abstract: A method for coating a slender, cylindrical container with a thin, resinous coating by spraying powdered resin is disclosed. The technique involves spraying of finely divided resin particles entrained in a gas stream at a substantially uniform rate at a velocity of from about 20 ft/min. to about 1000 ft/min. from a nozzle. The container may be sprayed by directing a continuous flow of resin particles at an accurate, predetermined rate into the container to deposit a substantially uniformly distributed coating. Alternatively, a pulse of a predetermined quantum of resin may be sprayed into a container. The resin particles are caused to adhere to the container by preheating the container, by inducing an electrostatic charge on the resin particles, or a combination of both. The coating may be matured by preheating the container to a high temperature or by postheating the coated container at temperatures in excess of about 300.degree. F.Type: GrantFiled: November 30, 1977Date of Patent: August 7, 1979Assignee: W. R. Grace & Co.Inventor: Robert G. Coucher
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Patent number: 4150164Abstract: The interior of cylindrical metal containers are coated with a thin, substantially uniform comestible coating by spraying finely divided resinous particles into the container after it has been preheated by a plasma arc-generated flame to a temperature above the softening point of the resin. The process is capable of coating containers at rates up to about 600 containers per minute with a substantially pore-free film having a thickness less than about one mil to as low as 0.1 mil and lower. Typical of containers coated by the process are conventional two-piece aluminum containers. Typical preheat temperatures are from about 150.degree. F. to about 525.degree. F. for aluminum containers and from about 150.degree. F. to about 1000.degree. F. for steel containers. A typical preheat time is from about 30 to about 300 milliseconds. Typical resins are finely divided thermosetting epoxy powders. The plasma arc device may also be used to post-heat coated containers to mature the coating.Type: GrantFiled: July 11, 1977Date of Patent: April 17, 1979Assignee: W. R. Grace & Co.Inventors: Gene Gerek, Robert G. Coucher
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Patent number: 4150176Abstract: A process for the production of a refractory lining within a tubular vessel which comprises disposing said tubular vessel so that the longitudinal axis running therethrough is horizontal, slinging a moist refractory mass onto a longitudinal or annular section of the interior wall of the tubular vessel and thereafter applying moist refractory mass to additional longitudinal or annular sections as the case may be. The process can be conducted either by rotating the vessel so as to expose successive annular sections and applying refractory mass to said sections from a fixed position or it can be performed by moving the source of refractory mass longitudinally to cover longitudinal sections and rotating the vessel only partially so as to bring the stream of refractory mass against a second longitudinal section. Devices to carry out these processes are disclosed including a slinger machine disposed for longitudinal movement within the vessel and means for rotating the vessel to the desired extent.Type: GrantFiled: February 23, 1976Date of Patent: April 17, 1979Assignee: Martin & Pagenstecher GmbHInventor: Karl D. Beckers
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Patent number: 4133910Abstract: A process for depositing thick film electronic material which forms elect circuits on the inside wall of right circular substrates. The process includes the determination of a circuit pattern wherein a light sensor is used to actuate electronics which in turn controls the flow of the thick film paste for deposition on the substrate inside wall. The substrate is rotated and translated in conjunction with the movement of a light sensor in the x-y plane.Type: GrantFiled: December 1, 1977Date of Patent: January 9, 1979Assignee: The United States of America as represented by the Secretary of the ArmyInventors: Victor W. Ruwe, Thomas D. Graben
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Patent number: 4125088Abstract: A device for coating, with a carbon material, the inner surface of a cathode ray tube having a neck and flared or cone end portion which is opened at its end remote from the neck along a free peripheral edge portion to which the front panel of the completed cathode ray tube is later secured. The device includes a frame on which a turntable is rotatably mounted and supports, for rotation therewith, a seal assembly for selectively forming a seal on the inner surface of the flared portion of the cathode ray tube adjacent the free edge thereof. The tube is supported on the turntable adjacent the seal assembly along its peripheral edge, and the assembly includes an expandable seal strip generally complementary to the internal configuration of the tube along which the seal is to be formed, so that upon expansion of the seal strip a tight seal is formed against the tube.Type: GrantFiled: January 21, 1977Date of Patent: November 14, 1978Assignee: Sony CorporationInventors: Sung D. Hong, Ray Boggs, Shinzo Takei
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Patent number: 4125639Abstract: A method for spraying a processing fluid on the internal surface of an unfinished or green radial tire blank includes clamping the green radial tire in a horizontal position by grasping its upper beaded edge, then grasping its lower beaded edge and pulling the tire apart to its open position where its internal surface is fully exposed, and effecting relative rotation between the tire and a fluid spraying device as the internal surface is sprayed completely, including the beaded edges.Type: GrantFiled: October 28, 1977Date of Patent: November 14, 1978Assignee: Peter Ilmberger KG, Maschinen -und ZahnradfabrikInventor: Josef Brandl
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Patent number: 4110493Abstract: A system and method of coating the seam on the inside surface of a container is disclosed. The container is initially spun about an axis generally parallel to the seam. The seam of the container is engaged while the container is rotating to stop the container with the engaging means in registry with the seam. The interior of the container is coated along the seam while the container is stopped to provide a protective coating overlying the seam. If desired, a subsequent protective coating can be applied on the entire inside surface of the container.Type: GrantFiled: October 6, 1975Date of Patent: August 29, 1978Assignee: Gerber Products CompanyInventors: John H. Loveless, Claude T. Phillips
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Patent number: 4106964Abstract: A method and apparatus for correcting imbalance occurring in pneumatic tires during their manufacture. Correction is made by depositing on the inside surface of the tire, at a balance-correcting position, a measured quantity of an uncured, quick-curing, urethane or other liquid elastomer composition which bonds to such surface when cured, and curing the composition in place against the surface. The surface is cleaned in advance, as by washing, scrubbing, and/or abrading, to remove mold release agents and the like and to expose the bare rubber of the tire wall for bonding. The elastomer is desirably deposited in a pool, but may be dispensed in a stream of air or other gas directed toward the deposit. The air reduces the thickness of the pool and feathers its edges and thereby reduces the discontinuity between the deposited material and the tire surface, and promotes bonding.Type: GrantFiled: June 11, 1976Date of Patent: August 15, 1978Assignee: Ransburg CorporationInventor: Joseph M. DeVittorio
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Patent number: 4100881Abstract: The invention relates to a process and apparatus for applying a covering on heat-sensitive articles by means of a blowpipe. The covering is applied by a sequence of very short spraying or blasting steps separated from one another by comparatively long cooling stages. The article is carried by a continuous moving support member in the form of a circular wheel, the articles being rotatably mounted in lateral rims on the wheel.Type: GrantFiled: February 24, 1972Date of Patent: July 18, 1978Assignee: Commissariat a l'Energie AtomiqueInventors: Felix d'Andrea, Louis Minjolle
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Patent number: 4071389Abstract: Resin is sprayed onto a mandrel by traversing a nozzle axially of the mandrel, reinforcement is applied on the resin layer and continuous filament is wound on the reinforcement and resin. To control the amount of resin sprayed onto particular locations of the mandrel, auxiliary means move the nozzle relative to the mandrel in addition to the axial-traversing movement, such as by moving the nozzle toward and away from the mandrel or by turning the nozzle. Such turning can be about an upright axis to displace the depositing location of the resin spray axially of the mandrel, or about an axis generally parallel to the path along which resin is ejected from the nozzle in a flat fan-shaped spray to change the plane of the spray from a position generally parallel to the axis of the mandrel into a position at a substantial angle to the axis of the mandrel.Type: GrantFiled: January 29, 1976Date of Patent: January 31, 1978Inventor: Frank Elmer Ives
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Patent number: 4064291Abstract: A method of applying a longitudinally extending coating of a reflecting or luminescent material in a tubular lamp by means of a nozzle which travels along the longitudinal axis of the lamp envelope. A plurality of spraying jets are so disposed that the suspension or solution, lands on a portion of the envelope immediately adjacent to the slot to be formed.Type: GrantFiled: October 26, 1976Date of Patent: December 20, 1977Assignee: U.S. Philips CorporationInventors: William Lodewijk Kuijer, Peter Ivan Sygall, Paulus Johannes Wennekes
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Patent number: 4052519Abstract: This disclosure depicts a non-settling process for forming on an inner viewing surface of a color cathode ray tube faceplate, a coating of an aqueous slurry composed of an organic binder and a suspension of particulate phosphor material of distributed particle size, which coating exhibits an extraordinarily suppressed radial streaking, a high degree of coating weight uniformity, and a predictable particle size distribution.Type: GrantFiled: July 2, 1975Date of Patent: October 4, 1977Assignee: Zenith Radio CorporationInventor: Charles J. Prazak, III
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Patent number: 4049842Abstract: A small-mouthed container having a continuous resinous coating covering the interior of said container and end, said interior coating having a thickness less than about one mil and being free of low molecular weight organic matter, is disclosed herein. Typical containers are food and beverage containers having cylindrical metal walls and circular disc-shaped ends. The coating is typically a comestible coating having a thickness of less than one mil and having no occluded solvent therein. Thermoset resinous coatings are particularly useful.A coating is applied by flowing a mixture of gas and fine resin particles through a nozzle into the vicinity of a plasma arc flame which at least partially melts the surface of said particles and propels said particles into a rapidly spinning container having one closed end. A predetermined quantity of resin is pulsed through the nozzle to deposit on the interior of the container a uniform coating of resin particles.Type: GrantFiled: December 29, 1975Date of Patent: September 20, 1977Assignee: EPPCOInventors: Gene Gerek, Robert G. Coucher
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Patent number: 4025664Abstract: A method for coating a cylindrical container with a thin, resinous coating by spraying powdered resin is disclosed. The technique involves spraying of finely divided resin particles at a velocity of at least about 200 feet per minute from a spray nozzle external to the container into the interior of a rapidly revolving container, particularly slender, cylindrical containers. The container may be sprayed by directing a pulse of a predetermined quantum of resin into the container to deposit a substantially uniform coating. Alternatively, a continuous flow of resin at a predetermined rate may be sprayed into a container. The resin particles are caused to adhere to the container by preheating the container. The coating is rendered continuous by preheating the container to temperatures above the softening point of the resin. Postheating of the coated container at temperatures in excess of about 300.degree. F matures the coating.Type: GrantFiled: November 25, 1974Date of Patent: May 24, 1977Assignee: EPPCOInventors: Gene Gerek, Robert G. Coucher
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Patent number: 3989859Abstract: A preheated workpiece having a surface with substantially arcuate curvature is supported by rotatable supporting means which has limited contact with said surface. Heat fusible plastic material in finely divided solid form is propelled against all parts of the surface of the workpiece, to be melted by its heat and fuse into an overall coating. During such coating, and thereafter until the material solidifies to substantial hardness, the supporting means is rotated, imparting rotation to the workpiece by its rolling contact therewith, and is cooled to maintain its temperature below the melting point of the material.Type: GrantFiled: November 14, 1974Date of Patent: November 2, 1976Assignee: Koerper Engineering Associates, Inc.Inventor: Phillip E. Koerper
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Patent number: 3982050Abstract: This invention relates to a method for coating inner faces of metal pipes of a small diameter which comprises feeding a stream of a powdery resin at a rate of 2 to 10 m/sec into a metal pipe of a small diameter preheated at a temperature higher by 20.degree. to 70.degree.C. than the melting or softening point of said powdery resin so that the concentration of said powdery resin or a mixture of said powdery resin and a carrier is 5 to 40% by volume.Type: GrantFiled: May 16, 1974Date of Patent: September 21, 1976Assignee: Dai Nippon Co., Ltd.Inventors: Haruhiro Kato, Tsunehiko Toyoda, Hiroyuki Tanabe
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Patent number: 3974306Abstract: A method for coating the inner surface of a metal pipe having an inner diameter of about 1 to 15 cm, which comprises feeding from one end of said metal pipe dry particles of a coating composition into the interior of the metal pipe preheated at a temperature of from a softening point of said coating composition to below a melting point thereof, sucking air at the same time from the other end of the metal pipe so as to form an air stream carrying the particles and flowing in the interior of the pipe at a flow rate of about 4 to 20 m/sec and to allow the particles to deposit on the inner surface of the pipe, and fusing the deposited particles at a reduced pressure of 10 to about 100 mm Hg to form a continuous film on the inner surface of the pipe.Type: GrantFiled: October 4, 1973Date of Patent: August 10, 1976Assignee: Kansai Paint Company, Ltd.Inventors: Keizo Inamura, Tadayoshi Tatsuno, Toshio Okoshi