Means and methods for sending heat downwardly

Ordinarily and naturally heat, once freed, tends to travel upwardly. Here means and a method causes heat to travel downwardly, to heat any out of sight area where warmth is required.

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Description

Here I show means and method for transferring heat downwardly to an out of sight area. This is particularly applicable to the reception, transport, and storage of solar heat in a manner that prevents its prompt loss back to the sky if the sky clouds over.

Likewise when incorporated in the roof of any shelter structure it can provide internal solar warmth to the structure and at a minimum construction and maintainence cost.

In the drawings

FIG. 1 shows one of my units for receiving and sending heat downwardly.

In FIG. 1, numeral 1 is an upper sheet metallic container, 2 is a lower sheet metal container positioned under it, 3 is a metallic passage way joining container 1 and container 2 together and reaching almost to the top of container 1 and almost to the inner bottom surface of container 2. All tubular and container contacts and connections are permanently sealed and made leak proof so no liquid sulphur dioxide or sulphur dioxide fumes can possibly escape and become obnoxious.

Numeral 4 represents a sheet metal surface fastened by welding or brazing to the bottom of container 2, numeral 5 being a similar sheet of metal fastened by welding or brazing to the top of container 1. Around the outer surfaces of containers 1 and 2 and tubular passage way 3 is packed heat insulation material 6, in this case rigid polyurethane foam.

Within the upper container 1 I show a supply of liquid sulphur dioxide 7. It need not fill the entire container but could occupy at least the bottom one-third thereof.

As previously noted the upper outlet of tubular passage 3 approaches near, but does not touch, the inner upper top surface of container 1 while the bottom opening of tubular passage approaches near but does not touch the inner bottom of container numeral 2.

The upper surface of sheet metal plate 5 is blackened to better receive and absorb heat from the rays of the sun.

Means of loading the upper container 2 with the needed liquid sulphur dioxide is not shown on the drawings.

When container 1 is partially filled with sulphur dioxide the combined apparatus is ready to function to send heat downwardly during the day time.

If it is solar heat, then as the blackened surface metal sheet 5 gives its heat to container 1 this causes the sulphur dioxide in container 1 to vaporize sending the solar heated vapor downward through the metal passage way 3 into container 2. Since container 2 is cooler than container 1, the vapor of liquid 7 condenses and becomes condensate 70. Then at nightime container 1 cools drawing the liquid 70 back up into container 1 where it later repeats the performance of sending heat downwardly.

Claims

1. In a means for sending heat downward, a pair of metallic containers one above the other and connected by a metallic tubular passageway, said passageway reaching almost to the inner bottom of the lower container and almost to the inner top of the upper container, one of said containers partially filled with liquid sulphur dioxide and all tubular and container contacts and connections permanently sealed and made leak proof so no sulphur dioxide fumes can possibly excape..]..[.2. A method of sending heat downward including having an upper metallic container, and another metallic container below it, both containers connected by a metallic tubular passage way, extending almost to the top of the upper container and almost to the bottom of the lower container, all tubular and container contacts and connections permanently sealed and made leakproof so no sulphur dioxide fumes can possibly escape there from, positioning a pool of liquid sulphur dioxide in said upper container, heating said upper container thus causing said liquid sulphur dioxide to vaporize and move downward through said tubular passage way as a vapor into said lower container and condensing said vapor in said lower container..]..[.3. The invention set forth in claim 2 including the return of the liquid condensate into the upper container..]..Iadd. 4. A heat transfer assembly for transferring heat in a downward direction from a first position to a second, vertically lower position, and comprising:

a pair of hollow containers formed of heat transfer material, a first of said containers positioned substantially vertically above a second of said containers, said first container including an aperture through a vertically lower wall portion aligned with a further aperture through a vertically upper wall portion of said second container;
a conduit having a first end portion extending into said first container through said aperture, said conduit having a second end portion extending into said second container through said further aperture;
a first heat transfer member in conductive heat transfer relationship with a vertically upper wall portion of said first container for conveying heat into said first container;
a second heat transfer member in conductive heat transfer relationship with a vertically lower wall portion of said second container for conveying heat from said second container; and
a quantity of liquid refrigerant material partially filling at least one of said containers; and,
insulative means surrounding said first and second containers and a portion of said conduit extending therebetween for preventing heat from leaving said assembly between said first heat transfer member and said second heat

transfer member..Iaddend..Iadd. 5. Heat transfer assembly according to claim 1, wherein each of said hollow containers includes a substantially spherical cross-sectional configuration..Iaddend..Iadd. 6. Heat transfer assembly according to claim 1, wherein said tubular conduit is formed of a metallic material and extends in a substantially linear direction between said hollow containers..Iaddend..Iadd. 7. Heat transfer assembly according to claim 1, wherein said liquid refrigerant has the chemical composition of sulphur dioxide..Iaddend..Iadd. 8. Heat transfer assembly according to claim 1, wherein said insulation means comprises a layer of rigid polyurethane foam substantially surrounding said pair of containers and that portion of said tubular conduit extending therebetween..Iaddend.

Referenced Cited
U.S. Patent Documents
228488 June 1880 Motay et al.
1786129 December 1930 Sanford, Jr.
2068549 January 1937 Knight
3309896 March 1967 Leonard, Jr.
3924674 December 1975 Basiulis
3951204 April 20, 1976 Movick
4050509 September 27, 1977 Bienert
Foreign Patent Documents
1038756 October 1953 FRX
Patent History
Patent number: RE31175
Type: Grant
Filed: Mar 12, 1980
Date of Patent: Mar 15, 1983
Inventor: Edward J. O'Hanlon (Lake George, NY)
Primary Examiner: Albert W. Davis
Law Firm: Pollock, Vande Sande & Priddy
Application Number: 6/116,545
Classifications
Current U.S. Class: 165/10422; With Thermal Or Acoustical Blocker (165/135); Related To Wall, Floor Or Ceiling Structure Of A Chamber (165/53); 126/433
International Classification: F28D 1500;