Claims
- 1. In an electrolytic cell having at least one adjustable anode set, at least one conductor for conveying electric current to said at least one anode set, and a liquid cathode in spaced relation to said at least one anode set, the improvement which comprises employing, with said electrolytic cell, apparatus for adjusting the space between said at least one anode set and said liquid cathode, which comprises:
- a. digital computer means programmed with a standard voltage coefficient and a permissible range of deviation for each anode set,
- b. means for detecting voltage signals and current signals to each of said anode sets,
- c. means for selecting from said detected signals a set of signals generated from a selected anode set,
- d. means for supplying said selected signals in digital form to said digital computer means,
- e. said digital computer being programmed for calculating the voltage coefficient from said detected signals in digital form for said selected anode set and comparing said voltage coefficient with said permissible range,
- f. said digital computer being programmed for generating activating electric signals when said calculated voltage coefficient is outside of said permissible range, and
- g. motor means operative to raise and lower said selected anode set, said motor means being energized by said activating electric signals when said calculated voltage coefficient is outside of said permissible range.
- 2. The cell of claim 1 wherein said anode sets are comprised of a plurality of said adjustable anode sets, and said voltage coefficient is calculated in accordance with the formula: ##EQU6##where V is the overall average voltage across said anode set in which said set of signals is generated, D is the decomposition voltage of the cell, and KA/M.sup.2 is the current density in kiloamperes per square meter of cathode surface below said selected anode set.
- 3. The cell of claim 2 wherein there is a plurality of said conductors to each of said anode sets, and said voltage coefficient is calculated by obtaining an average current measurement and an average voltage measurement for a series of measurements for each of said conductors and the average current and average voltage for each anode set is obtained from the average of the average current measurement and average voltage measurement for each of said conductors.
- 4. The cell of claim 3 wherein said apparatus also comprises
- a. means for detecting voltage signals and current signals to each anode set and conveying said signals in direct current, analog form at cell potential to a cell selector means,
- b. an anode selector means for selecting a series of voltage signals and a series of current signals from a selected anode set in said cell selector means,
- c. means for converting said signals from direct current form to alternating current form,
- d. transformer means for transforming said signals from cell potential to earth potential,
- e. detector means to convert said earth potential signals from alternating current to direct current form,
- f. integrator means to remove electrical noise from direct current earth potential signals, and
- g. converter means to convert said direct current, earth potential signals from analog form to binary form and for conveying said converted signals to said digital computer.
- 5. The cell of claim 4 wherein said cell is one of a plurality of said cells in series.
- 6. Cell of claim 5 wherein said apparatus also comprises
- a. means for compensating said current signals for temperature variations in said conductors, and
- b. means for amplifying said signals when detected in said conductors.
- 7. The cell of claim 6 wherein said transformer means is a transformer.
- 8. The cell of claim 6 wherein said transformer means is an optical isolator.
- 9. The cell of claim 6 wherein said apparatus also comprises
- a. digital computer means being programmed with a standard predetermined current deviation range for each of said conductors to said anode set,
- b. means for detecting current signals to each of said current conductors of each of said anode sets,
- c. means for selecting from detected current signals a desired series of N current signals for a selected conductor for a selected anode set,
- d. means for supplying said selected current signals in digital form to said digital computer means,
- e. said digital computer being programmed to provide means to compare said selected current signals with said predetermined current deviation range for said conductor to said anode set,
- f. said digital computer being programmed to provide means to generate an activated electric signal when any of said current signals in said series N is outside of said predetermined deviation range, and
- g. motor drive means operative to receive said activating electric signals and to raise or lower said selected anode set when said selected current signals are outside of said predetermined current deviation range.
Parent Case Info
This application is a continuation-in-part of copending application Ser. No. 272,240, filed July 17, 1972, now abandoned.
US Referenced Citations (3)
Number |
Name |
Date |
Kind |
3531392 |
Schmeiser |
Sep 1970 |
|
3723285 |
Daga et al. |
Mar 1973 |
|
3763024 |
Engelmann et al. |
Oct 1973 |
|
Foreign Referenced Citations (2)
Number |
Date |
Country |
1,804,259 |
May 1970 |
DT |
1,212,488 |
Nov 1970 |
UK |
Continuation in Parts (1)
|
Number |
Date |
Country |
Parent |
272240 |
Jul 1972 |
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