Hydronic radiant heat tubing receptacle and heat distribution panel system
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F28F-003/12
F28F-003/00
출원번호
US-0911150
(2004-08-03)
발명자
/ 주소
Pickard,Dale H.
출원인 / 주소
Pickard,Dale H.
인용정보
피인용 횟수 :
20인용 특허 :
15
초록▼
A heat distribution panel which utilizes an extruded tubing receptacle having a tube receiving channel for tightly gripping the heat tubing throughout the serpentine course of continuous tubing including the straight and curved or looped ends of the parallel straight runs. The tubing receptacle is a
A heat distribution panel which utilizes an extruded tubing receptacle having a tube receiving channel for tightly gripping the heat tubing throughout the serpentine course of continuous tubing including the straight and curved or looped ends of the parallel straight runs. The tubing receptacle is an extruded cross section of minimum thickness with a plurality of planar surfaces for heat transfer to thermally conductive heat transfer plates or other thermally conductive materials. Curved end sections or components of the receptacle may be formed utilizing existing bending equipment without effecting the function of the receptacle channel. Sheet metal heat transfer plates may be attached to the essentially planar surfaces of the tubing receptacle with a suitable heat conductive adhesive or adhesive tape. The sheet metal plates may be attached either directly to the bottom face of the tube receptacle or sheet metal plates having angled edge portions may be adhered to side surfaces of the receptacle so as to extend heat transfer plate portions outwardly therefrom. Alternatively the flat surface areas of the tube receptacle may be used for attachment to any flat thermally conductive surface with a variety of mechanical fasteners.
대표청구항▼
What is claimed is: 1. A receptacle for mounting a heating tube comprising; an elongated metal extrusion having thin receptacle walls with a cylindrical inside surface including a locus of points defining a semicircular pattern in cross section and configured to receive said heating tube, said wall
What is claimed is: 1. A receptacle for mounting a heating tube comprising; an elongated metal extrusion having thin receptacle walls with a cylindrical inside surface including a locus of points defining a semicircular pattern in cross section and configured to receive said heating tube, said walls forming a thermal channel for snap-fit retention of said heating tube and an outside surface comprising a plurality of planar outside surface sections, said receptacle walls being uninterrupted by any substantial outwardly directed extensions beyond the surfaces of said planar surface sections, said receptacle having a cross section substantially symmetrical about a vertical centerline, and said outside surface sections conducting heat from said heating tube to adjacent thermally conductive surfaces. 2. The receptacle of claim 1 wherein the inside surface of said thermal channel is held in full surface-to-surface contact with the surface of said heating tube for essentially conductive heat transfer. 3. A receptacle for mounting and retaining a heating tube comprising; an elongated rigid metal extrusion having thin receptacle walls with a semicircular cylindrical inside surface forming a thermal channel for snap-fit retention of said heating tube and an outside surface comprising a plurality of planar outside surface sections, said receptacle having a cross section which is generally rectangular in peripheral outline and substantially symmetrical about a vertical centerline with an open top side for reception of said heating tube, said outside surface sections conducting heat to adjacent thermally conductive surfaces. 4. The receptacle of claim 3 including; a heat transfer plate held in direct surface contact with at least one of said planar outside surface sections, said heat transfer plate extending outwardly from said receptacle for distributing heat to surrounding thermally conductive surfaces. 5. The receptacle of claim 4 wherein said heat transfer plate is adhesively bonded to said at least one outside surface section. 6. The receptacle of claim 5 wherein the outside surface sections of said receptacle include a bottom planar surface opposite to said open top side and immediately adjacent planar side surfaces. 7. The receptacle of claim 6 wherein said heat transfer plate is a flat sheet metal plate bonded to said bottom planar surface in full surface contact therewith. 8. The receptacle of claim 5 wherein said heat transfer plate includes an angularly disposed surface section bonded to said at least one outside surface section. 9. The receptacle of claim 3 wherein said extrusion comprises a curved receptacle having an arcuate thermal channel of essentially constant diameter nominally identical to the outside diameter of said heating tube for retaining said tube in an arcuate configuration in full surface-to-surface contact therewith, said open top side being arcuately disposed in a single plane for reception of said tube. 10. The receptacle of claim 7 wherein said extrusion comprises a curved receptacle having an arcuate thermal channel of essentially constant diameter nominally identical to the outside diameter of said heating tube for retaining said tube in an arcuate configuration in full surface-to-surface contact therewith, said open top side being arcuately disposed in a single plane for reception of said tube. 11. The receptacle of claim 8 wherein said extrusion comprises a curved receptacle having an arcuate thermal channel of essentially constant diameter nominally identical to the outside diameter of said heating tube for retaining said tube in an arcuate configuration in full surface-to-surface contact therewith, said open top side being arcuately disposed in a single plane for reception of said tube. 12. A radiant heat distribution panel comprising; an extruded metal tube receptacle having an inside surface forming a thermal channel with an open top side for retaining a looped end section of a flexible heating tube in full surface-to-surface contact therewith, said receptacle including linear and arcuate sections in end-to-end abutting relation forming a continuous curved thermal channel for reception of said tube, said receptacle having at least one planar outside surface for heat transfer from said heating tube, at least one heat transfer plate adhesively attached to said at least one planar outside surface, and thermally conductive members contacting said receptacle and said heat transfer plate for conducting heat to surrounding structures. 13. The radiant heat distribution panel of claim 12 wherein; said receptacle has a generally rectangular peripheral outline in cross section and is substantially symmetrical about a vertical centerline, said receptacle including a bottom outside planar surface opposite said open top side and an immediately adjacent planar outside surface. 14. The radiant heat distribution panel of claim 13 wherein said heat transfer plate comprises a flat sheet metal plate attached to said bottom surface. 15. The radiant heat distribution panel of claim 13 wherein said heat transfer plate comprises a sheet metal plate attached to each of said side surfaces, said sheet metal plates having outwardly extending fin portions and angularly bent portions attached to said side surfaces. 16. A method of constructing a radiant heat distribution panel for heat transfer from a flexible heating tube to thermally conductive surfaces comprising the steps of; extruding an elongated thermally conductive heating tube receptacle having a thin walled body with an inside cylindrical surface and an open top side to form a thermal channel for receiving and retaining said heating tube therein, the outside surface of said thin walled body comprising a plurality of planar surface sections for heat transfer to thermally conductive planar surfaces, then maintaining said open top side of the thermal channel in a single plane, and simultaneously bending said elongated tube receptacle through an arc while maintaining the cross sectional area of said thermal channel substantially constant to form an arcuate tube receptacle section, whereby said heating tube may be inserted and retained in said thermal channel in an arcuate configuration, and then placing a planar surface of a thermally conductive heat transfer plate in heat transferring contact with at least one of the outside surface sections of said thin walled body, said heat transfer plate including a section extending outwardly from said thin walled body for heat distribution to surrounding thermally conductive surfaces. 17. The method of claim 16 including the further step of; mating linear sections of said heating tube receptacle in an end-to-end abutting relation with arcuate tube receptacle sections to thereby retain a continuous heating tube in a serpentine pattern to form a radiant heat system for an extended area. 18. A receptacle for mounting a flexible heating tube comprising; an elongated metal extrusion having thin receptacle walls with an inside surface and an open top side forming a thermal channel configured for snap-fit reception and retention of said heating tube, said receptacle including an outside surface comprising a plurality of planar surface sections for conducting heat from said heating tube to adjacent thermally conductive surfaces, said receptacle including at least one portion thereof extending in an arcuate configuration with said top side being located in a single plane, said metal extrusion being bendable for forming said arcuate portion, whereby said receptacle is formed into said arcuate portion subsequent to extrusion, mounting extruded linear sections of said tube receptacle in alternate end-to-end abutting relationship with a plurality of said arcuate tube receptacle portions, whereby a continuous heating tube may be continuously mounted in a serpentine pattern. 19. The receptacle of claim 18 wherein said receptacle cross section is generally rectangular in peripheral outline. 20. The receptacle of claim 18 wherein said inside surface includes a locus of points defining a semicircular pattern in cross section. 21. The receptacle of claim 20 wherein said receptacle cross section is generally rectangular in peripheral outline. 22. The receptacle of claim 20 wherein said inside surface comprises a continuous semicircular cylindrical surface, said heating tube being held in full surface-to-surface contact therewith for essentially conductive heat transfer. 23. The receptacle of claim 22 wherein said receptacle cross section is generally rectangular in peripheral outline. 24. A method of constructing a heating tube receptacle comprising the steps of; extruding an elongated tube receptacle having a thin walled body with an inside surface and an open top side to form a thermal channel for receiving and retaining a heating tube therein, the outside surface of said thin walled body comprising a plurality of planar surface sections for heat transfer from said heating tube to thermally conductive planar surfaces, said thin walled body being uninterrupted by any substantial outwardly directed integral extensions beyond the surfaces of said planar surface sections, and forming said receptacle with a cross section substantially symmetrical about a vertical center line during extrusion. 25. The method of claim 24 including the step of; forming said receptacle with a cross section which is generally rectangular in peripheral outline during extrusion. 26. The method of claim 24 including the step of; forming said thermal channel with a surface including a locus of points defining a substantially semicircular pattern in cross section configured to receive said heating tube. 27. The method of claim 26 including the step of; forming said receptacle with a cross section which is generally rectangular in peripheral outline during extrusion. 28. The method of claim 27 including the step of then placing a planar surface of a thermally conductive heat transfer plate in heat transferring contact with at least one of the outside surface sections. 29. The method of claim 28 wherein said heat transfer plate comprises a thin metal sheet and including the step of adhesively bonding said sheet metal plate to said at least one outside surface sections. 30. The method of claim 28 wherein said heat transfer plate comprises a thin metal sheet and including the step of; attaching said sheet metal plate to said at least one outside surface section with mechanical fastener means. 31. A method of constructing a heating tube receptacle comprising the steps of; extruding an elongated tube receptacle having a thin walled body with an inside semicircular surface and an open top side to form a thermal channel for receiving and retaining said heating tube therein, the outside surface of said thin walled body comprising a plurality of planar surface sections for heat transfer to thermally conductive planar surfaces, then maintaining said open top side of the thermal channel in a single plane and simultaneously bending said elongated tube receptacle through an arc while maintaining the cross sectional area of said thermal channel substantially constant to form an arcuate tube receptacle section. 32. The method of claim 31 wherein said arcuate tube receptacle section is bent to form a 180째 arc, the method including the further step of: mounting extruded linear sections of said tube receptacle in alternate end-to-end abutting relationship with a plurality of said arcuate tube receptacle sections, whereby a continuous heating tube may be continuously mounted in a serpentine pattern. 33. The method of claim 31 wherein said heating tube is circular in cross section, said inside cylindrical surface including a locus of points defining a semicircular pattern in cross section. 34. The method of claim 33 wherein said tube receptacle is extruded with an inside surface having a continuous semicircular cylindrical surface, said heating tube being held in snap-fit engagement in full surface-to-surface contact therewith for essentially conductive heat transfer. 35. A receptacle for mounting a heating tube comprising; an elongated metal extrusion having thin receptacle walls with a cylindrical inside surface including a locus of points defining a semicircular pattern in cross section and configured to receive said heating tube, said walls forming a thermal channel for snap-fit retention of said heating tube and an outside surface comprising a plurality of planar outside surface sections, said receptacle walls being uninterrupted by any substantial outwardly directed extensions beyond the surfaces of said planar surface sections, said receptacle having a cross section substantially symmetrical about a vertical centerline, and said outside surface sections being adapted for conducting heat from said heating tube to adjacent thermally conductive surfaces. 36. A receptacle for mounting a flexible heating tube comprising; an elongated metal extrusion having thin receptacle walls with an inside surface and an open top side forming a thermal channel configured for snap-fit reception and retention of said heating tube, said receptacle including an outside surface comprising a plurality of planar surface sections adapted for conducting heat from said heating tube to adjacent thermally conductive surfaces, said receptacle including at least one portion thereof extending in an arcuate configuration with said top side being located in a single plane, said metal extrusion being bendable for forming said arcuate portion, whereby said receptacle is formed into said arcuate portion subsequent to extrusion, mounting extruded linear sections of said tube receptacle in alternate end-to-end abutting relationship with a plurality of said arcuate tube receptacle portions, whereby a continuous heating tube may be continuously mounted in a serpentine pattern.
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