US1643574A - Automatic governor for marine engines - Google Patents

Automatic governor for marine engines Download PDF

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US1643574A
US1643574A US9350126A US1643574A US 1643574 A US1643574 A US 1643574A US 9350126 A US9350126 A US 9350126A US 1643574 A US1643574 A US 1643574A
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Prior art keywords
pressure
engine
bell
propeller
water
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Breland Eugene Francois Joseph
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63HMARINE PROPULSION OR STEERING
    • B63H21/00Use of propulsion power plant or units on vessels
    • B63H21/21Control means for engine or transmission, specially adapted for use on marine vessels
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63HMARINE PROPULSION OR STEERING
    • B63H1/00Propulsive elements directly acting on water
    • B63H1/02Propulsive elements directly acting on water of rotary type
    • B63H1/12Propulsive elements directly acting on water of rotary type with rotation axis substantially in propulsive direction
    • B63H1/14Propellers
    • B63H1/28Other means for improving propeller efficiency
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/0753Control by change of position or inertia of system
    • Y10T137/0801Position relative body of water [e.g., marine governors]
    • Y10T137/085Pressure or head controlled

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  • My invention relates to an arrangement whereby'this result can be automaticall obtained in an instantaneous and re iable manner.
  • Fig. 1 is a diagrammatic vertical section of the device and Fig. 2 is an elevation of a ship provided with the said device andshowing diagrammatically how the various parts thereof are disposed relatively to the engine.
  • Fig. 1, 1 represents a portion of the vessels hull, situated near the propeller which is to be placed under control, and somewhat below and in front of the axis o propeller shaft.
  • a receiving and amplifying device consisting of a doubletapered sleeve 3 having the shape of a venturi which is open at both ends, the total cross-sections of the upper and lower openings having like or unlikeareas, but these areas will in all cases exceed the area of the restricted middle part 1; at the level of this latter part,'andcoaxially with the same, is disposed the mouth of a pressure gauge tube 5 which extends through the hullthrougha tight sleeve 6, and ends in a manometric receiver 7 which'is placed in the tunnel containing the shafting, as close as possible to the rear stuffing box and preferably somewhat above the axis of the propeller shaft.
  • the manometric tube 5 will serve during calm weather to transmit to the receiver 7 the actual immersion pressure, and during rough weather to transmit this pressure with the addition or subtraction of the auxiliary corrective pressure set up by the displacement of the sleeve or venturi 3 relatively to the sur medium.
  • the receiver. 7 consists essentially of a ber 18 one of whose walls is the di 8 which receives on its opposite .aphragm face the pressures transmitted through thetube 5.
  • the said chamber 18 which may suitable shape and has the minimum size
  • liquidtor instance waterand isprovided at 9 with a device for regulating the total volume, consisting for in stance of a diaphragm or a piston, and at 10 with a filling cock.
  • pressure in the tube 5 is given by sure gauge M mounted on the said A constant indication of the the prestube.
  • the chamber 18 isconnected with a cur ⁇ rent distributor 12 by the tube 11; tributor is made of insulating mat said diserial and is shown in the horizontal position in the ngure, but 1t may have any suitable inclination.
  • tributor is made of insulating mat said diserial and is shown in the horizontal position in the ngure, but 1t may have any suitable inclination.
  • At 18 is a recipient whose at least equals that of the tube 12 capacity at 14 is another recipient closed or opening into the atmosphere-whose volume can be regulated for instance by the regulator 17 analogous to the regulator 9; at 15 18 a leading-in terminal for the current, and at 16 16 leading-out terminals for the same current.
  • the recipient 13 and a part of 12 contain mercury, as shown in black part; the remainder of the the tube the full said recipientJthe tube 11 and the capacity 18 are entirely filled with water, all the air having been removed.
  • the recipient 14 are in communication with the atmosphere or contaln a volume of air which can be regulated tor instance by the said :device 17.
  • any variation in the lmmersion pressure will be accurately transmitte d by the tube 5 to the diaphragm 8 and will result in a variation in the volume of the chamber 18. This variation will be integrallytransmitted into the tub-e 12, so that the will be displaced therem.
  • the end of the mercury column will thus have in the tube 12 a series of determined positions corresponding to the different pressures transmitted through the tube 5, and the current brought by the terminal 15 will be broken or will pass successively or simultaneously through the terminals according to the position of the mercury in the tube 12. Due to this motion of the mercury, 1 may use one or more currents corresponding to various selected values of the actual immersion of the propeller. Such currents, transmitted by lines 19 (Fig.
  • an automatic governor comprising a bell adapted to be immersed into the water in close vicinity to said propeller, said bell being open at both ends and having substantially the shape of a Venturi nozzle, means for registering the water pressure in the restricted part of said bell and means for regulating the speed of said engine and adapted to be controlled by said )ressure registering means.
  • a ship the combination with a propeller and the engine, of an automatic governor comprising a bell adapted to be immersed into the water in close vicinity to said propeller, said bell being open at both ends and having substantially the shape of a Venturi nozzle, pressure registering means, a pipe coaxial with said bell and normally full of water, said pipe opening at one end substantially into the restricted part of said bell and at the other end into said pressure registering means and means for regulating the speed of said engine and adapted to be controlled by said pressure registering means.
  • a ship the combination with a propeller and the engine, of an automatic gov ernor comprising a bell. adapted to-be immersed into the water in close vicinity to said propeller, said bell being open at both ends and having substantially the shape of a Venturi nozzle, pressure registering means, a pipe coaxial with said bell and normally full of Water, said pipe opening at one end substantially into the restricted part of said bell and at the other end into said pressure registering means, a movable mercury column the motion whereof is controlled by said pressure registering means, and a plurality of electric circuits adapted to be successively closed by said mercury column and to control the speed of said engine in accordance with the motion of said mercury column.
  • an automatic governor comprising a bell adapted to be immersed into the water in close vicinity to said propeller, said bell being open at both ends and having substantially the shape of a Venturi nozzle, pressure registering means, a pipe coaxial with said bell and normally full of water, said pipe opening at one end substantially into the restricted part of said bell and at the other end into said pressure registering means, a movable mercurycolumn, a liquid columninterposed between said pressure registering means and said mercury column and whereby the motion of the latter is controlled by the former, a regulating chamber of an adjustable capacity,
  • said chamber being in communication With said liquid column and constantly filled With the same liquid and a plurality of electric circuits adapted to be successively closed by said mercury column and to control the speed of said engine in accordance With the motion of said mercury column.
  • the combination With a propeller and the engine of an automatic governor comprising a bell adapted to be immersed into the Water in close vicinity to said propeller said bell being open at both ends and having substantially the shape of a Venturi nozzle pressure registering means a pipe coaxial With said bell and normally full of Water said pipe opening at one end substantially into the restricted part of said bell and at the other end into said pressure registering means, a movable mercury column one end of which is adapted to be acted upon by said pressure registering means, means for varying the pressure upon the other end of said mercury column and a plurality of electric circuits adapted to be successively closed by said mercury column and to control the speed of said engine in accordance with the motion of said mercury column.

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • Ocean & Marine Engineering (AREA)
  • Fire-Extinguishing By Fire Departments, And Fire-Extinguishing Equipment And Control Thereof (AREA)

Description

Sept. 27, 9 JQBRELAND AUTOMATIC GOVERNOR FOR MARINE ENGINES Filed March 9, 1926 FZW Patented Sept. 27, 1927.
UNITED STATES PATENT OFFICE.
EUGENE FRANgoIs .rosnrrr BR LAND, or rARIs, FRANCE.
AUTOMATIC GOVERNOR FOR MARINE ENGINES.
Application filed March 9, 1926, Serial No. 93,501, and in France November 5, 1925.
This application, which is a continuation in part of my copending application 537,802 of Feb. 17, 1922 for Controlling devices for marine engines, relates to an improved automatic governor for marine engines. Marine engines are subject to racing or overspeeding which is a source of serious accidents, and this takes-place'when the propeller, usually a screw, isnot sufficiently immersed to take up the whole-power of the engine. To obviate the racing effects, the engine power should be limited according to the actual immersion of the propeller.
My invention relates to an arrangement whereby'this result can be automaticall obtained in an instantaneous and re iable manner. g
' In the accompanying drawing showing by way of example an embodiment of the invention:
Fig. 1 is a diagrammatic vertical section of the device and Fig. 2 is an elevation of a ship provided with the said device andshowing diagrammatically how the various parts thereof are disposed relatively to the engine.
In Fig. 1, 1 represents a portion of the vessels hull, situated near the propeller which is to be placed under control, and somewhat below and in front of the axis o propeller shaft.
To the hull 1 is secured at the exterior, by any suitable support 2, a receiving and amplifying device consisting of a doubletapered sleeve 3 having the shape of a venturi which is open at both ends, the total cross-sections of the upper and lower openings having like or unlikeareas, but these areas will in all cases exceed the area of the restricted middle part 1; at the level of this latter part,'andcoaxially with the same, is disposed the mouth of a pressure gauge tube 5 which extends through the hullthrougha tight sleeve 6, and ends in a manometric receiver 7 which'is placed in the tunnel containing the shafting, as close as possible to the rear stuffing box and preferably somewhat above the axis of the propeller shaft. I
In these conditions, the manometric tube 5 will serve during calm weather to transmit to the receiver 7 the actual immersion pressure, and during rough weather to transmit this pressure with the addition or subtraction of the auxiliary corrective pressure set up by the displacement of the sleeve or venturi 3 relatively to the sur medium.
rounding The speed of this relative displacement,
in the planes of the cross section 4:, being multiplied by the ratios of the inlet section and-the middle or restricted section, the
corrective pressure will be increased accordmg to the square root of the said ratio.
The receiver. 7 consists essentially of a ber 18 one of whose walls is the di 8 which receives on its opposite .aphragm face the pressures transmitted through thetube 5.
The said chamber 18 which may suitable shape and has the minimum size,
have any contains a liquidtor instance waterand isprovided at 9 with a device for regulating the total volume, consisting for in stance of a diaphragm or a piston, and at 10 with a filling cock. pressure in the tube 5 is given by sure gauge M mounted on the said A constant indication of the the prestube.
The chamber 18 isconnected with a cur} rent distributor 12 by the tube 11; tributor is made of insulating mat said diserial and is shown in the horizontal position in the ngure, but 1t may have any suitable inclination. At 18 is a recipient whose at least equals that of the tube 12 capacity at 14 is another recipient closed or opening into the atmosphere-whose volume can be regulated for instance by the regulator 17 analogous to the regulator 9; at 15 18 a leading-in terminal for the current, and at 16 16 leading-out terminals for the same current.
The recipient 13 and a part of 12 contain mercury, as shown in black part; the remainder of the the tube the full said recipientJthe tube 11 and the capacity 18 are entirely filled with water, all the air having been removed. The rest of the tub e 12, and
the recipient 14:, are in communication with the atmosphere or contaln a volume of air which can be regulated tor instance by the said :device 17.
' The apparatus being in operative conditions, any variation in the lmmersion pressure will be accurately transmitte d by the tube 5 to the diaphragm 8 and will result in a variation in the volume of the chamber 18. This variation will be integrallytransmitted into the tub-e 12, so that the will be displaced therem.
mercury The end of the mercury column will thus have in the tube 12 a series of determined positions corresponding to the different pressures transmitted through the tube 5, and the current brought by the terminal 15 will be broken or will pass successively or simultaneously through the terminals according to the position of the mercury in the tube 12. Due to this motion of the mercury, 1 may use one or more currents corresponding to various selected values of the actual immersion of the propeller. Such currents, transmitted by lines 19 (Fig. 2), may be employed to control-either directly or by relays, or by servo-motor 20- the steam throttle valve 21 or a device adapted to vary the power oi a steam or an internal combustion engine 22, or an electric motor, and I thus vary the power of the engine or motor according to the amount of the actual immersion of the propeller, whereby all racing of the engine or motor will be obviated.
By means of my said receiving and amplifying device 3, I am further enabled to obtain an advance in time upon the recording oi the actual pressure by the diaphragm 8, this advance depending upon the rapidity of the movement of immersion or emersion ot the device 3.
In fact, when the body 3 of the receiver descends into the water, due to the passage of the water through the throttled part 4, a certain additional oressure p, or dynamic pressure, in addition to the static pressure p, is exerted at once by the water upon the water column contained in the piping 5, so that the diaphragm 8 will be moved and act upon the engine, before the propeller reaches the depth of immersion corresponding to the total pressure god-p. On the contrary, should the propeller, together with the receiver, happen to rise, a depres sion 19 is produced, immediately in the throttled part 4-, so that the resulting pressure upon the diaphragm 8 is p 10, smaller than 79 which latter corresponds to the original immersion of the propeller. Thus, in both cases, the device will control the engine in advance, with respect to the variation in the depth of immersion of the propeller.
By the use of the aforesaid arrangement of apparatus which affords the constant control of the actual immersion of the pro-.
peller and which proportions the engine power to this actual immersion, all racing or dangerous excess of speed of the engine will be prevented in time.
It is evident that the aforesaid construction is given solely by way of example, and the same are susceptible of various modifications or of the use of equivalent parts, without departing from the principle of the invention.
peller and the engine, of an automatic governor comprising a bell adapted to be immersed into the water in close vicinity to said propeller, said bell being open at both ends and having substantially the shape of a Venturi nozzle, means for registering the water pressure in the restricted part of said bell and means for regulating the speed of said engine and adapted to be controlled by said )ressure registering means.
2. n a ship the combination with a propeller and the engine, of an automatic governor comprising a bell adapted to be immersed into the water in close vicinity to said propeller, said bell being open at both ends and having substantially the shape of a Venturi nozzle, pressure registering means, a pipe coaxial with said bell and normally full of water, said pipe opening at one end substantially into the restricted part of said bell and at the other end into said pressure registering means and means for regulating the speed of said engine and adapted to be controlled by said pressure registering means.
3. On, a ship the combination with a propeller and the engine, of an automatic gov ernor comprising a bell. adapted to-be immersed into the water in close vicinity to said propeller, said bell being open at both ends and having substantially the shape of a Venturi nozzle, pressure registering means, a pipe coaxial with said bell and normally full of Water, said pipe opening at one end substantially into the restricted part of said bell and at the other end into said pressure registering means, a movable mercury column the motion whereof is controlled by said pressure registering means, and a plurality of electric circuits adapted to be successively closed by said mercury column and to control the speed of said engine in accordance with the motion of said mercury column.
4:. On a ship the combination with a pro peller and the engine, of an automatic governor comprising a bell adapted to be immersed into the water in close vicinity to said propeller, said bell being open at both ends and having substantially the shape of a Venturi nozzle, pressure registering means, a pipe coaxial with said bell and normally full of water, said pipe opening at one end substantially into the restricted part of said bell and at the other end into said pressure registering means, a movable mercurycolumn, a liquid columninterposed between said pressure registering means and said mercury column and whereby the motion of the latter is controlled by the former, a regulating chamber of an adjustable capacity,
said chamber being in communication With said liquid column and constantly filled With the same liquid and a plurality of electric circuits adapted to be successively closed by said mercury column and to control the speed of said engine in accordance With the motion of said mercury column. v
5. On a ship the combination With a propeller and the engine of an automatic governor comprising a bell adapted to be immersed into the Water in close vicinity to said propeller said bell being open at both ends and having substantially the shape of a Venturi nozzle pressure registering means a pipe coaxial With said bell and normally full of Water said pipe opening at one end substantially into the restricted part of said bell and at the other end into said pressure registering means, a movable mercury column one end of which is adapted to be acted upon by said pressure registering means, means for varying the pressure upon the other end of said mercury column and a plurality of electric circuits adapted to be successively closed by said mercury column and to control the speed of said engine in accordance with the motion of said mercury column.
In testimony whereof I have signed my name to this specification.
EUGENE FRANCOIS JOSEPH BRELAND.
US9350126 1925-11-05 1926-03-09 Automatic governor for marine engines Expired - Lifetime US1643574A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2444254A (en) * 1942-11-28 1948-06-29 Westinghouse Air Brake Co Engine-driven shaft govering apparatus
US3226931A (en) * 1964-01-06 1966-01-04 Sperry Rand Corp Fluid diaphragm isolator
US3395536A (en) * 1964-10-13 1968-08-06 Nat Res Dev Method of and apparatus for transmitting energy by pressure oscillations in a fluid

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2444254A (en) * 1942-11-28 1948-06-29 Westinghouse Air Brake Co Engine-driven shaft govering apparatus
US3226931A (en) * 1964-01-06 1966-01-04 Sperry Rand Corp Fluid diaphragm isolator
US3395536A (en) * 1964-10-13 1968-08-06 Nat Res Dev Method of and apparatus for transmitting energy by pressure oscillations in a fluid

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