Claims
- 1. A coil assembly for use in a heat exchanger having air flowing in a predetermined direction, the coil assembly comprising:
- a plurality of linear tubes, each linear tube having a longitudinal axis, a central portion and two end portions, the central portion having a generally elliptical cross-section with major and minor axes, the minor axis being about 0.8 times the diameter of a tube having a circular cross-section with a circumference equal to the circumference of the central portion of the linear tube, and the two end portions each having a generally circular cross-section, each linear tube oriented to be generally parallel with respect to every other linear tube and to be generally transversely oriented with respect to a line in the direction of air flow, the air flowing across each linear tube, each linear tube also oriented such that the major axis of the elliptical cross-section resides at an oblique angle with respect to a line in the direction of air flow;
- the linear tubes being oriented in a plurality of rows, each row of linear tubes being oriented such that a plane intersects the longitudinal axes of the linear tubes in the row, the plane being generally perpendicular with respect to a line in the direction of air flow, the distance between the longitudinal axes of adjacent linear tubes in each row being about 2.25 times the diameter of a tube having a circular cross-section with a circumference equal to the circumference of the central portion of the linear tube, the plurality of rows comprising first and second alternating rows such that, when viewed along the longitudinal axes of the linear tubes, the major axis of the elliptical cross-section of each linear tube in the first alternating rows is oriented at a clockwise-rotated position, the clockwise position being at an oblique angle of about 25 degrees with respect to a line in the direction of air flow, and the major axis of the elliptical cross-section of each linear tube in the second alternating rows is oriented at a counter-clockwise-rotated position, the counter-clockwise position being at an oblique angle of about 25 degrees with respect to a line in the direction of air flow;
- the linear tubes, when viewed along their longitudinal axes, being oriented such that their longitudinal axes are in an equilateral triangular pattern with respect to at least two adjacent linear tubes, whereby end portions of a return tube are capable of interconnecting the end portions of any two adjacent linear tubes;
- a plurality of return tubes, each return tube having a body portion and two end portions, the body portion comprising a bend of about 180 degrees and the two end portions each having a generally circular cross-section, each end portion engaging an end portion of a linear tube such that a plurality of linear tubes are interconnected with another to form at least one series of linear tubes, each series of linear tubes having first and second ends for respective connection to an inlet source of an internal heat exchange fluid and an outlet for the internal heat exchange fluid; and
- a plurality of fins adjacent one another, each fin comprising a generally planar sheet of a heat-conductive material, each fin oriented in a plane generally perpendicular with respect to the longitudinal axes of the linear tubes and generally parallel with respect to a line in the direction of air flow, the sheet having a plurality of holes, the central portion of a linear tube extending through a corresponding hole, each fin securely contacting each linear tube extending therethrough such that heat transfer therebetween is effectuated.
- 2. The coil assembly as recited in claim 1 wherein each end portion of one of the tubes selected from the group consisting of each linear tube and each return tube comprises a round female socket, and wherein the end portion of the other of the tubes selected from the group consisting of each linear tube and each return tube fits into the round female socket.
- 3. The coil assembly as recited in claim 2 wherein each end portion of each linear tube comprises a round female socket, and wherein the end portion of each return tube fits into the round female socket.
- 4. The coil assembly as recited in claim 1 wherein each fin further comprises a plurality of major corrugations having a major amplitude and a major period and a plurality of minor corrugations having a minor amplitude and a minor period, the major corrugations defined by a plurality of generally parallel alternating major folds across each fin, the major folds providing major corrugations with the major amplitude relatively small when compared to the major period, each major fold being generally transversely oriented with respect to a line in the direction of air flow, and the minor corrugations defined by a plurality of generally parallel alternating minor folds, the minor folds providing minor corrugations with the minor amplitude relatively small when compared to the minor period, the minor corrugations being oriented along at least a portion of at least one edge of the fin, the edge being generally transversely oriented with respect to a line in the direction of air flow and each minor fold being generally perpendicularly oriented with respect to the edge.
- 5. The coil assembly as recited in claim 1 wherein each fin further comprises at least one collar extending from around the perimeter of a fin hole in a direction generally perpendicular with respect to the plane of the fin sheet, each collar securely engaging the linear tube extending therethrough, each collar spacing each fin about 0.16 to about 0.33 inch (about 4.1 to about 8.4 mm) apart, and at least one spacing tab extending from the collar in a direction generally parallel with respect to the plane of the fin sheet and away from the fin hole, the spacing tab on a first fin for contacting an adjacent fin and preventing the adjacent fin sheet from moving into contact with the first fin sheet.
- 6. The coil assembly as recited in claim 1 wherein the fin sheet has a planar area surrounding each hole.
- 7. A heat exchanger comprising:
- a housing;
- a blower arranged to cause air to flow through the housing in a predetermined direction;
- inlet and outlet manifolds; and
- a coil assembly at least partially disposed within the housing, the coil assembly comprising:
- a plurality of linear tubes, each linear tube having a longitudinal axis, a central portion, and two end portions, the central portion having a generally elliptical cross-section with major and minor axes, the minor axis being about 0.8 times the diameter of a tube having a circular cross-section with a circumference equal to the circumference of the central portion of the linear tube, and the two end portions each having a generally circular cross-section, each linear tube oriented to be generally parallel with respect to every other linear tube and to be generally transversely oriented with respect to a line in the direction of air flow, the air flowing across each linear tube, each linear tube also oriented such that the major axis of the elliptical cross-section resides at an oblique angle with respect to a line in the direction of air flow;
- the linear tubes being oriented in a plurality of rows, each row of linear tubes being oriented such that a plane intersects the longitudinal axes of the linear tubes in the row, the plane being generally perpendicular with respect to a line in the direction of air flow, the distance between the longitudinal axes of adjacent linear tubes in each row being about 2.25 times the diameter of a tube having a circular cross-section with a circumference equal to the circumference of the central portion of the linear tube, the plurality of rows comprising first and second alternating rows such that, when viewed along the longitudinal axes of the linear tubes, the major axis of the elliptical cross-section of each linear tube in the first alternating rows is oriented at a clockwise-rotated position, the clockwise position being at an oblique angle of about 25 degrees with respect to a line in the direction of air flow, and the major axis of the elliptical cross-section of each linear tube in the second alternating rows is oriented at a counter-clockwise-rotated position, the counter-clockwise position being at an oblique angle of about 25 degrees with respect to a line in the direction of air flow;
- the linear tubes, when viewed along their longitudinal axes, being oriented such that their longitudinal axes are in an equilateral triangular pattern with respect to at least two adjacent linear tubes, whereby end portions of a return tube are capable of interconnecting the end portions of any two adjacent linear tubes;
- a plurality of return tubes, each return tube having a body portion and two end portions, the body portion comprising a bend of about 180 degrees and the two end portions each having a generally circular cross-section, each end portion engaging an end portion of a linear tube such that a plurality of linear tubes are interconnected to form at least one series of linear tubes, each series of linear tubes having first and second ends, each series of linear tubes interconnected at the first end to the inlet manifold and at the second end to the outlet manifold, wherein an internal heat exchange fluid is circulated through the inlet manifold, the coil assembly, and then the outlet manifold such that heat is exchanged between the air flowing across each linear tube and the internal heat exchange fluid; and
- a plurality of fins disposed within the housing adjacent one another, each fin comprising a generally planar sheet of a heat-conductive material, each fin oriented in a plane generally perpendicular with respect to the longitudinal axes of the linear tubes and generally parallel with respect to a line in the direction of air flow, the sheet having a plurality of holes, the central portion of a linear tube extending through a corresponding hole, each fin securely contacting each linear tube extending therethrough such that heat transfer therebetween is effectuated, the fins enhancing the heat exchange between the flowing air and the internal heat exchange fluid.
- 8. The heat exchanger as recited in claim 7 wherein each end portion of one of the tubes selected from the group consisting of each linear tube and each return tube comprises a round female socket, and wherein the end portion of the other of the tubes selected from the group consisting of each linear tube and each return tube fits into the round female socket.
- 9. The heat exchanger as recited in claim 8 wherein each end portion of each linear tube comprises a round female socket, and wherein the end portion of each return tube fits into the round female socket.
- 10. The heat exchanger as recited in claim 7 wherein each fin further comprises a plurality of major corrugations having a major amplitude and a major period and a plurality of minor corrugations having a minor amplitude and a minor period, the major corrugations defined by a plurality of generally parallel alternating major folds across each fin, the major folds providing major corrugations with the major amplitude relatively small when compared to the major period, each major fold being generally transversely oriented with respect to a line in the direction of air flow, and the minor corrugations defined by a plurality of generally parallel alternating minor folds, the minor folds providing minor corrugations with the minor amplitude relatively small when compared to the minor period, the minor corrugations being oriented along at least a portion of at least one edge of the fin, the edge being generally transversely oriented with respect to a line in the direction of air flow and each minor fold being generally perpendicularly oriented with respect to the edge.
- 11. The heat exchanger as recited in claim 7 wherein each fin further comprises at least one collar extending from around the perimeter of a fin hole in a direction generally perpendicular with respect to the plane of the fin sheet, each collar securely engaging the linear tube extending therethrough, each collar spacing each fin about 0.16 to about 0.33 inch (about 4.1 to about 8.4 mm) apart, and at least one spacing tab extending from the collar in a direction generally parallel with respect to the plane of the fin sheet and away from the fin hole, the spacing tab on a first fin for contacting an adjacent fin and preventing the adjacent fin sheet from moving into contact with the first fin sheet.
- 12. The heat exchanger as recited in claim 7 wherein the fin sheet has a planar area surrounding each hole.
CROSS-REFERENCE TO RELATED APPLICATION
This is a continuation of application Ser. No. 08/122,209, filed Sep. 17, 1993, now U.S. Pat. No. 5,425,414, issued Jun. 20, 1995.
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Continuations (1)
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Number |
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122209 |
Sep 1993 |
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