Brazed tubing connector construction and method
First Claim
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1. A joint construction joining a fluid conduit, said conduit comprised of a first material having a first coefficient of thermal expansion, in fluid communication to a body comprised of a second material having a second coefficient of thermal expansion, said first coefficient of thermal expansion greater than said second coefficient of thermal expansion, comprising:
- a body, said body including an opening, said opening having a perimeter, said conduit extending into said opening;
a neck projection on said body, said neck projection extending outward of said body adjacent the perimeter of said opening;
a collar comprised of said first material, said collar including;
a first sleeve portion adjacent and overlapping said neck projection, said neck projection disposed between said first sleeve portion of said collar and said conduit;
a second sleeve portion adjacent and overlapping said conduit; and
a cavity, said cavity in communication with said first sleeve portion and said second sleeve portion, and a mass comprising brazing material, said mass positioned in said cavity,whereby upon heating, said collar supports said conduit while said brazing material is enabled to flow between said first sleeve portion and said neck projection, and said second sleeve portion and said conduit, to hold said body and conduit in fixed, fluid tight relation upon cooling.
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Accused Products
Abstract
In a construction for joining a copper tube (20) to a steel body (10) which may be part of a device such as an accumulator used in an air conditioning system, the copper tube is passed into an opening (14) in a wall (12) of the steel body. The opening in the steel body is bounded by a neck projection (18) which extends outward therefrom. A copper collar (24) includes a first portion (26) which accepts neck projection (18) of the steel body. A second portion (28) of the copper collar (24) accepts the copper tube. A mass (34) of brazing material is positioned in the collar in a tapered transitional portion (30) between the first and second portions of the collar. When the body, tube and collar are assembled and placed in a brazing furnace, the brazing material melts and flows by capillary action between the first portion of the collar and the outside of the neck projection of the steel body. The brazing material also flows between the second portion of the collar and the tube. Upon cooling, the brazing material forms a strong, fluid-tight weld which joins the body and the tube.
28 Citations
8 Claims
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1. A joint construction joining a fluid conduit, said conduit comprised of a first material having a first coefficient of thermal expansion, in fluid communication to a body comprised of a second material having a second coefficient of thermal expansion, said first coefficient of thermal expansion greater than said second coefficient of thermal expansion, comprising:
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a body, said body including an opening, said opening having a perimeter, said conduit extending into said opening; a neck projection on said body, said neck projection extending outward of said body adjacent the perimeter of said opening; a collar comprised of said first material, said collar including; a first sleeve portion adjacent and overlapping said neck projection, said neck projection disposed between said first sleeve portion of said collar and said conduit; a second sleeve portion adjacent and overlapping said conduit; and a cavity, said cavity in communication with said first sleeve portion and said second sleeve portion, and a mass comprising brazing material, said mass positioned in said cavity, whereby upon heating, said collar supports said conduit while said brazing material is enabled to flow between said first sleeve portion and said neck projection, and said second sleeve portion and said conduit, to hold said body and conduit in fixed, fluid tight relation upon cooling.
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2. A joint construction joining a fluid conduit, said fluid conduit comprised of a first material having a first coefficient thermal expansion, in fluid communication to a body comprised of the second material having a second coefficient of thermal expansion, said first coefficient of thermal expansion greater than said second coefficient of thermal expansion, comprising:
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a body, said body including an opening, said opening having a perimeter, said conduit extending into said opening; a neck projection on said body, said neck projection extending outward of said body adjacent the perimeter of said opening; a collar comprised of a third material, said third material having a coefficient of thermal expansion greater than said second coefficient of thermal expansion, said collar including; a first sleeve portion adjacent and overlapping said neck projection, said neck projection disposed between said first sleeve portion of said collar and said conduit; a second sleeve portion adjacent and overlapping said conduit; and
,a cavity, said cavity in communication with said first sleeve portion and said second sleeve portion, and a mass comprising brazing material, said mass positioned in said cavity, whereby upon heating, said collar supports said conduit while said brazing material is enabled to flow between said first sleeve portion and said neck projection, and said second sleeve portion and said conduit, to hold said body and conduit in fixed, fluid tight relation upon cooling.
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3. A joint construction for holding a copper fluid conduit to a steel body, comprising:
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a steel body, said body including an opening, said opening having a perimeter, said conduit extending into said opening; a neck projection on said body, said neck projection extending outward of said body adjacent the perimeter of said opening; a copper collar, said collar including; a first sleeve portion adjacent and overlapping said neck projection, said neck projection disposed between said first sleeve portion of said collar and said conduit; a second sleeve portion adjacent and overlapping said conduit; and
,a cavity, said cavity in communication with said first sleeve portion and said second sleeve portion, a mass comprising brazing material, said mass positioned in said cavity, whereby upon heating, said collar supports said conduit while said brazing material is enabled to flow between said first sleeve portion and said neck projection and between said second sleeve portion and said conduit, to hold said body and conduit, in fixed, fluid tight relation upon cooling. - View Dependent Claims (4, 5, 6)
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7. A method for joining a fluid conduit comprised of a first material having a first coefficient of thermal expansion, in fluid communication to a body comprised of a second material having a second coefficient of thermal expansion, said first coefficient of thermal expansion greater than the second coefficient of thermal expansion, said body including an opening for accepting said fluid conduit, and a neck projection, said neck projection extending outward of said body adjacent said opening;
- said method comprising the steps of;
a) extending said fluid conduit into said opening; b) placing a mass comprising brazing material adjacent said neck projection and said conduit; c) placing a collar comprised of said first material on said neck projection and conduit, said collar including; a first sleeve portion adjacent and overlapping said neck projection, said neck projection disposed between said first sleeve portion of said collar and said conduit; a second sleeve portion adjacent and overlapping said conduit; a cavity, said cavity in communication with said first sleeve portion and said second sleeve portion, said cavity accepting said mass, d) heating said collar, neck projection and fluid conduit to enable said brazing material to flow between said first sleeve portion and said second neck projection and said second sleeve portion and said conduit; and e) cooling said collar, neck projection and fluid conduit to solidify said brazing material whereby said body and conduit are joined in fixed, fluid tight relation. - View Dependent Claims (8)
- said method comprising the steps of;
Specification
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Current AssigneeParker Intangibles LLC (Parker-Hannifin Corporation)
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Original AssigneeParker-Hannifin Corporation
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InventorsClark, David C., Griffin, Gary E.
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Primary Examiner(s)Arola, Dave W.
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Application NumberUS07/600,388Time in Patent Office418 DaysField of Search285/173, 285/416, 285/286, 285/287, 285/187, 228/245, 228/246, 228/251, 228/263.16, 228/263.18US Class Current285/148.12CPC Class CodesF16L 41/084 Soldered joints
