Marine utility cast iron anode

Abstract

An improved marine anode sled comprises a single piece casting with high surface to weight ratio providing increased active surfaces and improved reliability. In one embodiment the anode weighs about 2,000 lbs and has an active surface area of about 5,000 square inches and a current output capacity of up to 160 amps. The improved anode has considerably higher current output than existing anode sleds with similar weight. Unlike known anode sleds, the entire exposed surface of new anode sled is anode material and passes current to a surrounding medium. The single piece casting eliminates structural failure when a frame of know anode sleds is damaged, and electrical failure when cables connecting multiple anodes are damaged. Two redundant lead cable are attached proximal to opposite corners to optimize reliability and electrical performance.

Claims

1. A marine utility anode sled, comprising: at least two generally parallel lateral members having lateral member centerlines and made of an anodic material; at least two generally parallel longitudinal members attached to reside generally perpendicular to the lateral members and having longitudinal member centerlines above the lateral member centerlines of the lateral members and made of an anodic material; and at least one electrical cable in electrical communication with the anodic material of both the lateral members and longitudinal members.

2. The marine utility anode sled of claim 1, wherein the anode sled consisting essentially of high silicon cast iron material.

3. The marine utility anode sled of claim 1, wherein the anode sled is a single piece casting.

4. The marine utility anode sled of claim 1, wherein the at least two generally parallel longitudinal members comprise at least two generally parallel longitudinal member attached to reside generally perpendicular to the at least two generally parallel lateral members and having longitudinal member centerlines above the lateral member centerlines of the lateral members and made of an anodic material.

5. The marine utility anode sled of claim 4, wherein the anode sled is configured to rest on a floor of a body of water supported by bottom surfaces of the lateral member, and the entire longitudinal members are supported to reside above the floor.

6. The marine utility anode sled of claim 1, wherein the at least one cable comprises two cables redundantly, electrically connected to the anodic material of both the lateral members and longitudinal members.

7. A marine utility anode sled, comprising: a single piece casting consisting essentially of a high silicon iron alloy; two generally parallel lateral members having lateral member centerlines; three generally parallel longitudinal members attached to reside generally perpendicular to the lateral members and having longitudinal member centerlines above the lateral member centerlines of the lateral members; two cables electrically connected to the anodic material of both the lateral members and longitudinal members; and the anode sled configured to rest on a floor of a body of water supported by bottom surfaces of the lateral members, the longitudinal members spaced vertically above the floor.

8. A marine anode system, comprising: a rectifier residing on a deck above a body of water; at least one anode sled comprising: a single piece casting consisting essentially of a high silicon iron alloy; two generally parallel lateral members having lateral member centerlines; three generally parallel longitudinal members attached to reside generally perpendicular to the lateral members and having longitudinal member centerlines above the lateral member centerlines of the lateral members; two cables electrically connected to the anodic material of both the lateral members and longitudinal members; and the anode sled configured to rest on a floor of a body of water supported by bottom surfaces of the lateral members, the longitudinal members spaced vertically above the floor; and the cables redundantly electrically connecting between the anode sled and a positive terminal of the rectifier.

9. The marine utility anode sled of claim 1, wherein least one electrical cable electrically connects the at least one anode sled to a rectifier residing on a deck above a body of water.

10. The marine utility anode sled of claim 1, wherein the entire exposed surface of the anode sled is anode material and passes current to a surrounding medium.

11. The marine utility anode sled of claim 1, wherein the at least two generally parallel lateral members have generally flat bottoms.

12. The marine utility anode sled of claim 11, wherein the at least two generally parallel longitudinal members have rounded tops.

13. The marine utility anode sled of claim 1, wherein the at least two generally parallel lateral members and the at least two generally parallel longitudinal members have heights of about six inches.

14. The marine utility anode sled of claim 1, wherein the at least two generally parallel lateral members have lengths of about 48 inches and the at least two generally parallel longitudinal members have lengths of about 40 inches.

15. The marine utility anode sled of claim 1, wherein: the at least two generally parallel lateral members have lengths of about 48 inches and the at least two generally parallel longitudinal members have lengths of about 40 inches; the at least two generally parallel lateral members and the at least two generally parallel longitudinal members have heights and widths of about six inches.

16. The marine utility anode sled of claim 1, wherein a horizontal projection of an overlapping connection of the at least two generally parallel lateral members and the at least two generally parallel longitudinal members is about six by six inches.

17. The marine utility anode sled of claim 1, wherein bottom of the at least two generally parallel longitudinal members are about even with tops of the at least two generally parallel lateral members.

18. The marine utility anode sled of claim 1, wherein bottoms of the at least two generally parallel longitudinal members are about six inches above bottoms of the at least two generally parallel lateral members.

19. The marine utility anode sled of claim 1, wherein: the anode sled is a single piece casting; and the entire exposed surface of the anode sled is anode material and passes current to a surrounding medium.

20. The marine utility anode sled of claim 1, wherein: the anode sled is a single piece casting; the entire exposed surface of the anode sled is anode material and passes current to a surrounding medium; the at least two generally parallel lateral members comprise two lateral members having lengths of about 48 inches; the at least two generally parallel longitudinal members comprise three generally parallel longitudinal members having lengths of about 40 inches; the two generally parallel lateral members and the three generally parallel longitudinal members have heights and widths of about six inches; a horizontal projection of an overlapping connection of the at least two generally parallel lateral members and the at least two generally parallel longitudinal members is about six by six inches; the two lateral members have flat bottom; and bottoms of the at least two generally parallel longitudinal members are about six inches above bottoms of the at least two generally parallel lateral members.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING

(1) The above and other aspects, features and advantages of the present invention will be more apparent from the following more particular description thereof, presented in conjunction with the following drawings wherein:

(2) FIG. 1 shows a prior art marine anode sled.

(3) FIG. 2A shows an isometric view of an improved marine anode sled having lifting eyes according to the present invention.

(4) FIG. 2B shows an isometric view of a second improved marine anode sled having lifting holes according to the present invention.

(5) FIG. 3A shows a top view of the improved marine anode sled according to the present invention.

(6) FIG. 3B shows a side view of the improved marine anode sled according to the present invention.

(7) FIG. 3C shows a front view of the improved marine anode sled according to the present invention.

(8) FIG. 4 shows a anode system including the improved marine anode sled according to the present invention.

(9) Corresponding reference characters indicate corresponding components throughout the several views of the drawings.

DETAILED DESCRIPTION OF THE INVENTION

(10) The following description is of the best mode presently contemplated for carrying out the invention. This description is not to be taken in a limiting sense, but is made merely for the purpose of describing one or more preferred embodiments of the invention. The scope of the invention should be determined with reference to the claims.

(11) Where the terms about or generally are associated with an element of the invention, it is intended to describe a feature's appearance to the human eye or human perception, and not a precise measurement.

(12) A prior art marine anode sled 10 is shown in FIG. 1. The anode sled 10 includes a frame comprising two large diameter concrete longitudinal beams 12 connected by smaller lateral beams 14, and four lifting eyes 16. A plurality of anodes 18 are attached to the beams 12 by loops 20. One or two electrical cable connections 22 connect to each cathodic protection anode 18, anode clamps 20 attach the cathodic protection anodes 18 to frame, and cables 24 to connected the anode sled 10 to a current source. Damage to any of the cables or clamps can result in failure of the anode sled 10.

(13) An isometric view of an improved marine anode sled 30 according to the present invention is shown in FIG. 2A. The anode sled 30 includes at least two generally parallel lateral members 32 having lateral member centerlines CL1 (see FIG. 3A) and made of an anodic material and at least two generally parallel longitudinal members 34 attached to reside generally perpendicular to the lateral members and having longitudinal member centerlines CL2. The lateral members 32 are intended to rest on a floor 122 (see FIG. 4) of a body of water. The longitudinal members 34 reside at least partially above the lateral members 32 and are raised above the floor 122 so that the longitudinal members 34 are substantially (other than where the longitudinal members 34 contact the lateral members 32) surrounded by water. Lifting eyes 36 are cast into to the lateral members 32, but may be attached to the longitudinal members 34, and lifting holes 37 may replace the lifting eyes. At least one cable 24 is attached to the anode sled 30, and preferably two redundant cables 24 at attached in two separated locations to the anode sled 30. The two separated locations are preferably proximal to opposite corners.

(14) An isometric view of an improved marine anode sled 30a is shown in FIG. 2B. The anode sled 30a replaces the lifting eyes 36 with lifting holes 37, and is otherwise similar to the anode sled 30.

(15) A top view of the anode sled 30 is shown in FIG. 3A, a side view of the anode sled 30 is shown in FIG. 3B, and a front view of the anode sled 30 is shown in FIG. 3C. In one embodiment, the anode sled 30 has an overall width W1, an overall length L, and an overall height H1. The width W1 is preferably about 48 inches, the length L1 is preferably about 40 inches, and the height H1 is preferably about 12 inches. The lateral members 32 have a width W2 and a height H2. The width W2 is preferably about six inches and the height H2 is preferably about six inches. The longitudinal members 34 have a width W3 and a height H3, and are supported by the lateral members 32 to reside a height H4 above the floor 122. The width W3 is preferably about six inches, the height H3 is preferably about six inches and the height H4 is preferably about six inches. The anode sleds 30 and 30a are configured to reside the floor 122 of body of water 126 on bottom surfaces 31 of the lateral members 31 and support the longitudinal members 34 entirely above the floor 122.

(16) An anode system 100 including the anode sled 30 is shown in FIG. 4. The anode system 100 includes a rectifier 112 mounted to a deck 116 supported by pilings 118. Cables 120 connect a positive terminal 113a of the rectifier 112 to the anode sleds 30 through a junction 114. A negative terminal 113b of the rectifier 112 is connected to the pilings 118 or other protected structure, by the cables 120. The anode sleds 30 rest on the floor 122 submerged in water 126 and below a water line 124.

(17) The anode sleds 30 and 30a may be cast of an anodic material selected from alloys of iron, magnesium, aluminum, and zinc, and preferred anodic material is high silicon iron comprising silicon 14.20-14.75 percent by weight, manganese 1.5 maximum percent by weight, carbon 0.7-1.10 percent by weight, chromium 3.25-5.00 percent by weight, molybdenum 0.2 maximum percent by weight, copper 0.5 maximum percent by weight, and the remainder iron. In one embodiment, the anode sleds 30 and 30a have a total weigh of about 2,000 lbs. and active surface area of about 5000 sq. inches, and a current output capacity of up to 160 amps in sea water.

(18) While the invention herein disclosed has been described by means of specific embodiments and applications thereof, numerous modifications and variations could be made thereto by those skilled in the art without departing from the scope of the invention set forth in the claims.