초록 ▼

A metallic heat transfer tube, in particular for the evaporation of liquids from pure substances or mixtures on the outside of the tube. Fins are integrally formed on the outside of the tube. Recesses are arranged in the area of the base of the primary grooves and extend between the fins. The recess

A metallic heat transfer tube, in particular for the evaporation of liquids from pure substances or mixtures on the outside of the tube. Fins are integrally formed on the outside of the tube. Recesses are arranged in the area of the base of the primary grooves and extend between the fins. The recesses are in the form of re-entrant secondary grooves. The mechanical stability of the tube is not negatively influenced because material is primarily removed from the fin flanks toward the base of the groove so that the re-entrant secondary grooves are radially open.

대표청구항 ▼

1. A metallic heat transfer tube, comprising:integral completely formed fins formed on an outside of a tube wall, a primary groove being defined between mutually adjacent completely formed fins, a root of the completely formed fins projecting generally radially outwardly from the tube wall at a base

1. A metallic heat transfer tube, comprising:integral completely formed fins formed on an outside of a tube wall, a primary groove being defined between mutually adjacent completely formed fins, a root of the completely formed fins projecting generally radially outwardly from the tube wall at a base of the primary groove, each of the completely formed fins having a T-shaped cross section so that the primary groove will be radially closed off by mutually adjacent fins, but for radially open pores opening into the primary groove; a re-entrant groove having opposing sidewalls and a bottom wall formed between the roots of the mutually adjacent completely formed fins and in the base of the primary groove, the re-entrant groove extending coextensively with the primary groove, the re-entrant groove being formed by a pair of projections extending continuously with the primary groove and projecting toward one another from a respective root of the mutually adjacent fins and terminating a first measured distance from one another so as to define a gap therebetween and so that a second measured distance at a widest spacing between the sidewalls of the re-entrant groove measured along a theoretical line spaced from and parallel to a further theoretical line containing the first measured distance is greater than the first measured distance, a relationship between the first and second measured distances being continuously maintained throughout the length of the primary groove; wherein the fins and the primary grooves extend helically; and wherein the cross section of the re-entrant secondary grooves is varied at regular intervals. 2. A metallic heat transfer tube, comprising:integral completely formed fins formed on an outside of a tube wall, a primary groove being defined between mutually adjacent completely formed fins, a root of the completely formed fins projecting generally radially outwardly from the tube wall at a base of the primary groove, each of the completely formed fins having a T-shaped cross section so that the primary groove will be radially closed off by mutually adjacent fins, but for radially open pores opening into the primary groove; a re-entrant groove having opposing sidewalls and a bottom wall formed between the roots of the mutually adjacent completely formed fins and in the base of the primary groove, the re-entrant groove extending coextensively with the primary groove, the re-entrant groove being formed by a pair of projections extending continuously with the primary groove and projecting toward one another from a respective root of the mutually adjacent fins and terminating a first measured distance from one another so as to define a gap therebetween and so that a second measured distance at a widest spacing between the sidewalls of the re-entrant groove measured along a theoretical line spaced from and parallel to a further theoretical line containing the first measured distance is greater than the first measured distance, a relationship between the first and second measured distances being continuously maintained throughout the length of the primary groove; wherein the fins and the primary grooves extend annularly; and wherein the cross section of the re-entrant secondary grooves is varied at regular intervals. 3. A metallic heat transfer tube, comprising:integral completely formed fins formed on an outside of a tube wall, a primary groove being defined between mutually adjacent completely formed fins, a root of the completely formed fins projecting generally radially outwardly from the tube wall at a base of the primary groove, each of the completely formed fins having a T-shaped cross section so that the primary groove will be radially closed off by mutually adjacent fins, but for radially open pores opening into the primary groove; a re-entrant groove having opposing sidewalls and a bottom wall formed between the roots of the mutually adjacent completely formed fins and in the base of the primary groove, the re-entrant groove extending coextensively with the primary groove, the re-entrant groove being formed by a pair of projections extending continuously with the primary groove and projecting toward one another from a respective root of the mutually adjacent fins and terminating a first measured distance from one another so as to define a gap therebetween and so that a second measured distance at a widest spacing between the sidewalls of the re-entrant groove measured along a theoretical line spaced from and parallel to a further theoretical line containing the first measured distance is greater than the first measured distance, a relationship between the first and second measured distances being continuously maintained throughout the length of the primary groove; wherein the fins and the primary grooves extend in an axial direction of the metallic heat transfer tube; and wherein the cross section of the re-entrant secondary grooves is varied at regular intervals. 4. The metallic heat transfer tube according to one of the claims 1, 2, or 3, wherein the re-entrant secondary grooves have a height that is in a range that is greater than 0 and up to a maximum of 20% of the fin height H.5. The metallic heat transfer tube according to one of the claims 1, 2, or 3, wherein the fins have a uniform height H.6. The metallic heat transfer tube according to one of the claims 1, 2, or 3, wherein tips of the fin are notched.7. The metallic heat transfer tube according to one of the claims 1, 2, or 3, wherein the tube has at least one of plain ends and plain center lands.8. The metallic heat transfer tube according to one of the claims 1, 2, or 3, wherein the tube is designed as a seamless tube.9. The metallic heat transfer tube according to one of the claims 1, 2, or 3, wherein the tube is designed as a tube welded with a longitudinal seam.10. The metallic heat transfer tube according to one of the claims 1 and 2, wherein each of the T-shaped tips have a flat unobstructed radially outwardly facing surface area between circumferentially extending edges thereof.