Thermostatic valve for an electrochemical power source for use in a marine environment
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01M-002/38
B63G-008/00
H01M-006/34
G05D-011/16
출원번호
US-0935234
(2015-11-06)
등록번호
US-9450227
(2016-09-20)
우선권정보
IT-TO2014A0927 (2014-11-07)
발명자
/ 주소
Lo Presti, Francesco
출원인 / 주소
Whitehead Sistemi Subacqueri S.P.A.
대리인 / 주소
Dorsey & Whitney LLP
인용정보
피인용 횟수 :
0인용 특허 :
8
초록▼
A thermostatic valve, coupled to an electrochemical power source and having: a valve body; a first fluid inlet for a hot electrolytic fluid; a second fluid inlet for a cold electrolytic fluid; an outlet supplying a mixed electrolytic fluid; and regulating means for adjusting the mixing. The valve bo
A thermostatic valve, coupled to an electrochemical power source and having: a valve body; a first fluid inlet for a hot electrolytic fluid; a second fluid inlet for a cold electrolytic fluid; an outlet supplying a mixed electrolytic fluid; and regulating means for adjusting the mixing. The valve body defines a first opening, in communication with the second fluid inlet for the cold electrolytic fluid; and a second opening, in communication with the first fluid inlet for the passage of the hot electrolytic fluid; the regulating means include an adjustment baffle, interposed between the first and second openings and the outlet, and rotatably drivable to vary a useful passage section and adjust the mixing. The first and second openings are designed to mix the electrolytic fluids in different proportions, maintaining the flow rate and introduced load losses unvaried, as the rotation angle of the adjustment baffle varies.
대표청구항▼
1. A thermostatic valve designed to be coupled to an electrochemical power source in a marine environment, the thermostatic valve comprising: a valve body;a first fluid inlet designed to receive an electrolytic fluid at a first temperature;a second fluid inlet designed to receive an electrolytic flu
1. A thermostatic valve designed to be coupled to an electrochemical power source in a marine environment, the thermostatic valve comprising: a valve body;a first fluid inlet designed to receive an electrolytic fluid at a first temperature;a second fluid inlet designed to receive an electrolytic fluid at a second temperature that is lower than the first temperature;an outlet designed to supply a mixed electrolytic fluid, resulting from mixing of the electrolytic fluids at the first and second temperatures; andregulating means controllable to adjust the mixing;wherein the valve body internally defines a first opening, in fluid communication with the second fluid inlet and designed to allow passage of the electrolytic fluid at the second temperature, and a second opening, in fluid communication with the first fluid inlet and designed to allow passage of the electrolytic fluid at the first temperature;wherein the regulating means includes an adjustment baffle, interposed between the first and second openings, and the outlet, and rotatably drivable to vary a respective useful passage section of the first and second openings, thereby adjusting the mixing;wherein the first and second openings are configured to allow mixing of the electrolytic fluids at the first and second temperatures with different flow rates, upon variation of a rotation angle of the adjustment baffle, maintaining the flow rate and introduced load losses substantially unvaried. 2. The thermostatic valve according to claim 1, wherein the regulating means includes an actuator designed to drive the adjustment baffle to rotate about a rotating shaft, so as to cause the opening or the closing of either the first opening or the second opening, and correspondingly the closing or the opening of the other of the first opening or the second opening. 3. The thermostatic valve according to claim 1, wherein a total useful passage section, defined by the set of the first and second openings, has a trend with the variation of the rotation angle of the adjustment baffle, comprised between an upper limit curve, given by the following expression: y=0.2286x2−20.571x+1111.4and a lower limit curve, given by the following expression: y=0.187x2−16.831x+909.32wherein x indicates the rotation angle of the adjustment baffle and y indicates the total useful passage section. 4. The thermostatic valve according to claim 3, wherein the total useful passage section is defined by the following expression: y=0.2078x2−18.701x+1010.4. 5. The thermostatic valve according to claim 1, wherein the useful passage section of the first opening has a trend with the variation of the rotation angle of the adjustment baffle, comprised between a first upper limit curve, given by the following expression: y=0.0017x3−0.1215x2+9.3198x−8.2541and a lower limit curve, given by the following expression: y=0.0014x3−0.0994x2+7.6253x−6.7533wherein x indicates the rotation angle of the adjustment baffle and y indicates the useful passage section of the first opening. 6. The thermostatic valve according to claim 5, wherein the useful passage section of the first opening is defined by the following expression: y=0.016x3−0.1104x2+8.4726x−7.5037. 7. The thermostatic valve according to claim 1, wherein the useful passage section of the second opening has a trend with the variation of the rotation angle of the adjustment baffle, comprised between an upper limit curve, given by the following expression: y=−0.0017x3+0.35x2−29.891x+1119.6 and a lower limit curve, given by the following expression: y=−0.0014x3+0.2864x2−24.456x+916.07wherein x indicates the rotation angle of the adjustment baffle and y indicates the useful passage section of the second opening. 8. The thermostatic valve according to claim 7, wherein the useful passage section of the second opening is defined by the following expression: y=−0.0016x3+0.3182x2−27.173x+1017.9. 9. The thermostatic valve according to claim 1, wherein: the valve body has a cylindrical conformation with a longitudinal axis;the first and second openings have, in a section generally orthogonal to the longitudinal axis, respective whole passage sections generally symmetrical with respect to a diametrical axis of the valve body; andeach of the whole passage sections is defined by a perimeter including, an arc of a circle, having a first radius and angular extension of substantially 90°;a first radial segment, which extends starting from a first end of the arc of a circle, for a first extension;a second radial segment, which extends starting from a second end of the arc of a circle, for a second extension, greater than the first extension, substantially up to an internal wall of the valve body; anda connecting arc, which connects ends of the first and of the second radial segments that are not coupled to the arc of a circle. 10. The thermostatic valve according to claim 9, wherein the adjustment baffle has, in the section generally transverse to the longitudinal axis, a shape defined by a respective perimeter including, a first arc of a circle, with a second radius, less than the first radius of the arc of a circle of the whole passage section, and with an angular extension comprised between about 90° and about 180°;a respective first radial segment, which extends starting from a first end of the first arc of a circle, substantially up to the internal wall of the valve body;a second radial segment, which extends starting from a second end of the arc of a circle, substantially up to the internal wall of the valve body; anda second arc of a circle, which connects the ends of the respective first and second radial segments that are not coupled to the first arc of a circle. 11. An electrochemical power source for use in a marine environment, the electrochemical power source comprising: a thermostatic valve according to claim 1; andan electrochemical block operatively coupled to the thermostatic valve. 12. The electrochemical power source according to claim 11, further comprising: a supply duct for supplying electrolytic fluid at the first temperature, from the electrochemical block towards the first fluid inlet of the thermostatic valve; anda supply duct for supplying electrolytic fluid at the second temperature towards the second fluid inlet of the thermostatic valve;wherein the outlet of the thermostatic valve is coupled to a fluid inlet of the electrochemical block by an outlet duct. 13. The electrochemical power source according to claim 11, further comprising: a control unit configured to, receive a reference temperature signal;receive a temperature measurement signal from a temperature sensor coupled to the outlet of the thermostatic valve; andexecute a control algorithm for the regulating means, so as to reduce an error between the temperature measurement signal and the reference temperature signal. 14. An underwater vehicle comprising the electrochemical power source according to claim 11. 15. The underwater vehicle according to claim 14, further comprising: a tubular body having a longitudinal extension axis, including a central section inside which a chamber is defined, the chamber housing the electrochemical block and designed to be filled with sea water, operating as electrolytic fluid;wherein the central section also defines a first tank and a second tank, designed to contain electrolytic fluid at the first and, respectively, at the second temperature; andwherein the first fluid inlet of the thermostatic valve is fluidically coupled to the first tank;wherein the second fluid inlet of the thermostatic valve is fluidically coupled to the second tank; andwherein the outlet of the thermostatic valve is fluidically coupled to a fluid inlet of the electrolytic block.
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