US1343643A - Hydroplane or horizontal rudder of submarine vessels - Google Patents

Hydroplane or horizontal rudder of submarine vessels Download PDF

Info

Publication number
US1343643A
US1343643A US258045A US25804518A US1343643A US 1343643 A US1343643 A US 1343643A US 258045 A US258045 A US 258045A US 25804518 A US25804518 A US 25804518A US 1343643 A US1343643 A US 1343643A
Authority
US
United States
Prior art keywords
shaft
rudders
planes
rudder
hydroplane
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US258045A
Inventor
Reavell William
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US258045A priority Critical patent/US1343643A/en
Application granted granted Critical
Publication of US1343643A publication Critical patent/US1343643A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63GOFFENSIVE OR DEFENSIVE ARRANGEMENTS ON VESSELS; MINE-LAYING; MINE-SWEEPING; SUBMARINES; AIRCRAFT CARRIERS
    • B63G8/00Underwater vessels, e.g. submarines; Equipment specially adapted therefor
    • B63G8/14Control of attitude or depth
    • B63G8/18Control of attitude or depth by hydrofoils

Definitions

  • rfhe main object is to provide comparatively inexpensive and simple mechanism adapted to quickly move the planes or rudders from the one position t0 the other.
  • the planes or rudders are connected at their inner edges by pivots, which are parallel with the planes or rudders to the ends of a transverse rock shaft mounted in bearings on the upper part of the hull of the vessel and are linked to nuts through which extend lthe oppositely threaded end portions of a shaft that is held in bearings parallel to the plane or rudder carrying shaft, the said threaded shaft being rotatable so as to draw the nuts together or move them apart and thus fold the planes or rudders or turn them into their working positions, when the shaft by which they are carried can be rocked and the rudders tilted in the required direction without interferingl with the folding gear.
  • Figure l is a section partly in elevation illustrat-ing the gear.
  • Fig. 2 is a part plan view the lower half being in section, of the connections of the gear with one of the rudders..
  • Fig. 3 is a transverse section on the line A, A, Fig. l; and Fig. 4lis a transverse sectional elevation on the line B B Fig. l.
  • a is the hull of the vessel, b the transverse plane or rudder carrying rock shaft formed with enlarged ends h1 through which entend the pins c by which the rudders (Z are pivoted to the shaft 7),' e c are the bearings secured to the hull a in which the shaft Zi is mounted and f f are housings fixed to the shaft L by keys g/ and formed with hearings ,f1 in which is mounted a shaft '2l that coningsthe planes or rudders veniently may beactuated through gearingv comprising a spur wheel y' freely mounted on'the shaft b and engaging a spur wheel ic keyed on the shaft z'. llhe spur wheel y' may be rotated through hevel ⁇ gear Z and a shaft m as shown, or by worm gear. @n the oppositely threaded end portions of the shaft i are nuts n contained within the housing.;
  • 'fhe shaft can be rodked by any suitable mechanism when it is required to tilt the planes or rudders; for instance a worm sector on the shaft and a worm actuated from within the hull of the vessel.
  • a lever g there is keyed to the shaft Z) a lever g through an eye in which the threaded shaft e' passes freely, and the extremity of this lever is engaged by rod which passes into the hull of the vessel and is there actuated by any suitable mechanism to give the required tilting motion to the planes.
  • 'lhe planes or rudders may be arrange-d to be folded upward into recesses in the superstructure, or they may he arranged to fold downward against the hull7 the parallel shafts and the link connections being ar ranged accordingly.
  • Hydroplanes or horizontal rudders for submarine vessels connected at their inner edges by pivots, which are parallel with the planes or rudders to the ends of a common transverse rock shaft mounted in bearings on the upper part of the hull of the vessel, in combination. with means for rocking said shaft and means for turning the planes or rudders about their inner edge pivots into and out of their working positions, substantially as described.
  • the planel or rudder carrying shaft being rotatable so asV to draw the nuts together or nieve them apart and thus turn the planes orrudders about their pivots" out of or into their Working positions substantially as described.

Description

' W. REAVELL. HYDROPLANE OR HORIZONTAL RUDDER 0F SUBMARINE VESSELS.
APPLICATION FiLED OCT. I4, 1918.
Patented June 15, 1920.
Unirse stares PATENT OFFICE.
WILLIAM REAVELL, OF IPSWICH, ENGLAND.
HYnnorLANn on rionizcirriit nonnen or sunifinniirn vnssnts.`
israele.
Specification of Letters Patent.
Patented June 15,1920.
Application filed Gctober 14.1918. Serial No. 258,045.
ments in means for folding the hydroplanes" or horizontal rudders of submarine vessels into such positions against the superstructure or hull of the vessel as to reduce the resistance they offer to the progress of the vessel when running on the suiface, and for` restoring themv to Ytheir working positions when about to dive. rfhe main object is to provide comparatively inexpensive and simple mechanism adapted to quickly move the planes or rudders from the one position t0 the other.
According to the present invention, the planes or rudders are connected at their inner edges by pivots, which are parallel with the planes or rudders to the ends of a transverse rock shaft mounted in bearings on the upper part of the hull of the vessel and are linked to nuts through which extend lthe oppositely threaded end portions of a shaft that is held in bearings parallel to the plane or rudder carrying shaft, the said threaded shaft being rotatable so as to draw the nuts together or move them apart and thus fold the planes or rudders or turn them into their working positions, when the shaft by which they are carried can be rocked and the rudders tilted in the required direction without interferingl with the folding gear.
Referring to the accompanying drawings, Figure l is a section partly in elevation illustrat-ing the gear. l
Fig. 2 is a part plan view the lower half being in section, of the connections of the gear with one of the rudders..
Fig. 3 is a transverse section on the line A, A, Fig. l; and Fig. 4lis a transverse sectional elevation on the line B B Fig. l.
a is the hull of the vessel, b the transverse plane or rudder carrying rock shaft formed with enlarged ends h1 through which entend the pins c by which the rudders (Z are pivoted to the shaft 7),' e c are the bearings secured to the hull a in which the shaft Zi is mounted and f f are housings fixed to the shaft L by keys g/ and formed with hearings ,f1 in which is mounted a shaft '2l that coningsthe planes or rudders veniently may beactuated through gearingv comprising a spur wheel y' freely mounted on'the shaft b and engaging a spur wheel ic keyed on the shaft z'. llhe spur wheel y' may be rotated through hevel `gear Z and a shaft m as shown, or by worm gear. @n the oppositely threaded end portions of the shaft i are nuts n contained within the housing.;
reach nut is formed with trunnions al entending through slots in innervfalls ,f2 in the housings l, and pairs of links o ccnnectthe trunnions of each nut to a pin j) on the cor.- i
responding plane or rudder. ln the draware shown as fold,- ing upward or turning upwardly about their inner edges into` theposition shown at the right hand side of Fig. l, and. although for 'the purposes of illustration, the plane or rudder at the left hand side of tig. l is shown in the working position it will be understood that the two planes inove together into the working or stowed'positions; when in the working position a flat on the plane or rudder ahuts against a flat on the enlarge/d end of the shaft Z) as shown at ai, Fig. l. Y
'fhe shaft can be rodked by any suitable mechanism when it is required to tilt the planes or rudders; for instance a worm sector on the shaft and a worm actuated from within the hull of the vessel. Preferably however, there is keyed to the shaft Z) a lever g through an eye in which the threaded shaft e' passes freely, and the extremity of this lever is engaged by rod which passes into the hull of the vessel and is there actuated by any suitable mechanism to give the required tilting motion to the planes.
'lhe planes or rudders may be arrange-d to be folded upward into recesses in the superstructure, or they may he arranged to fold downward against the hull7 the parallel shafts and the link connections being ar ranged accordingly.
YWhat l claim is l. Hydroplanes or horizontal rudders for submarine vessels connected at their inner edges by pivots, which are parallel with the planes or rudders to the ends of a common transverse rock shaft mounted in bearings on the upper part of the hull of the vessel, in combination. with means for rocking said shaft and means for turning the planes or rudders about their inner edge pivots into and out of their working positions, substantially as described.
2. Hydroplanes or horizontalrudders of submarine Vessels connected by pivots Which are parallel With the planes or rudders to the ends of atransverse rock shaft mounted Y in bearings on the upper part of the hull of the vessel and'linked to nuts through which extend the oppositely threaded end portions of'a shaft that is'held in bearings parallel to.
the planel or rudder carrying shaft, the said threaded shaft being rotatable so asV to draw the nuts together or nieve them apart and thus turn the planes orrudders about their pivots" out of or into their Working positions substantially as described.
3.. l'lydroplanes or horizontal rudders of submarinevessels pivoted to the ends of a transverse rock shaft mounted in bearings on the upper part of the hull ofthe-vessel and linked to'nuts through which extend the oppositely threaded end portions of a shaft that is held` in bearings parallel'to the plane or rudder "carrying shaft, the said threaded shaft being rotatable so as to dran7 the nuts together or Vmove them apart and thus foldY the planesor ruddersor turn them into their Y Working positions by means of gearing coniprising intermeshing spur gears, the one freely mounted on'the plane or rudder carrying shaft and V-adaptedfto be actuated through suitable gears and the other fixed to the threaded shaft, substantially as described.
4. The combination of hydroplanes or horizontal rudders of a submarine vessel with a'transverse rock shaft to the ends of which said hydroplanes or rudders are pivoted, bearings on the upper part of thehull of the vessel in which said shaft is mounted,
nuts to Which the planes or rudders arev Y for rockingV the transverse rock shaft, sub-V stantially as deseribed,V
Signed at Ipswich, Suffolk, England, this 19th day 'of Sept., 1,918,
' WILLIAM REAVELL.
US258045A 1918-10-14 1918-10-14 Hydroplane or horizontal rudder of submarine vessels Expired - Lifetime US1343643A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US258045A US1343643A (en) 1918-10-14 1918-10-14 Hydroplane or horizontal rudder of submarine vessels

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US258045A US1343643A (en) 1918-10-14 1918-10-14 Hydroplane or horizontal rudder of submarine vessels

Publications (1)

Publication Number Publication Date
US1343643A true US1343643A (en) 1920-06-15

Family

ID=22978865

Family Applications (1)

Application Number Title Priority Date Filing Date
US258045A Expired - Lifetime US1343643A (en) 1918-10-14 1918-10-14 Hydroplane or horizontal rudder of submarine vessels

Country Status (1)

Country Link
US (1) US1343643A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2685858A (en) * 1949-06-01 1954-08-10 Jr William O Harrison Control means for submarine interceptors

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2685858A (en) * 1949-06-01 1954-08-10 Jr William O Harrison Control means for submarine interceptors

Similar Documents

Publication Publication Date Title
US1343643A (en) Hydroplane or horizontal rudder of submarine vessels
US3232261A (en) Watercraft
US2223562A (en) Antirolling device for ships
US3171382A (en) Propeller mechanism for boats
US1034987A (en) Propelling mechanism for boats.
US1352922A (en) Propulsion mechanism
US1180271A (en) Aircraft.
US1475869A (en) Automatic stabilizer for aeroplanes
US1237318A (en) Airship.
US713830A (en) Boat.
US1888443A (en) Water craft
US1175307A (en) Aerial craft.
US1382170A (en) S sheets- sheet
US939344A (en) Craft adapted to travel in a resisting medium.
US493692A (en) Steering apparatus
US1061088A (en) Rudders for the submersion and the navigation of submarine vessels under water.
US1279133A (en) Stabilizer.
US1242788A (en) Air-propeller.
US1237891A (en) Fuel-tank.
US345702A (en) Pbopelling and steering vessels
US1207584A (en) Bow-facing oar.
US1330842A (en) Adjustable power-rudder for small boats
US344623A (en) Steering-gear for vessels
US358425A (en) Mechanism for propelling vessels
US1808991A (en) Steering gear for airships