US759622A - Sighting-tube for vessels. - Google Patents

Sighting-tube for vessels. Download PDF

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US759622A
US759622A US18083603A US1903180836A US759622A US 759622 A US759622 A US 759622A US 18083603 A US18083603 A US 18083603A US 1903180836 A US1903180836 A US 1903180836A US 759622 A US759622 A US 759622A
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tube
sighting
reflector
exposed
vessels
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Simon Lake
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60RVEHICLES, VEHICLE FITTINGS, OR VEHICLE PARTS, NOT OTHERWISE PROVIDED FOR
    • B60R1/00Optical viewing arrangements; Real-time viewing arrangements for drivers or passengers using optical image capturing systems, e.g. cameras or video systems specially adapted for use in or on vehicles
    • B60R1/02Rear-view mirror arrangements
    • B60R1/06Rear-view mirror arrangements mounted on vehicle exterior
    • B60R1/0602Rear-view mirror arrangements mounted on vehicle exterior comprising means for cleaning or deicing

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  • This invention relates to an improvement in that class of sighting-tubes for use particularly in connection with submarine boats forming the subject of the United States Patent No. 725,570, granted to me April lll, 1903; and it has for its object to maintain unclouded by adherence of moisture deposited by contact with the atmosphere or otherwise the surfaces of the one or more reflectors or reflecting members through which images of' external objects are received and directed through the inclosing tube to the observer within the boat.
  • the invention consists, essentially, in the combination with a sighting-tube having in its upper or outer end a reflector for receiving and reflecting through said tube an image of an external object, of means for dispelling from the exposed faces of said reflector, or of preventing accumulations of moisture thereon.
  • Figure 1 is a sectional elevation of a sighting-tube and connected apparatus embodying my present improvement.
  • Fig. 2 is a transverse section on line .fn of Fig. 1 looking upward, and
  • Fig. 3 is a similar sectional View looking downward from the section-plane.
  • the tube 1 is shown projecting outwardly through the upper 'wall or roof t -of the conning-tower of the vessel and provided at its upper end with a hood or cap 2, within which is disposed a series of four prisms 3, having inclined refiecting-faces each directed toward a different point of the compass and above which is a single prism il, directed similarly to one of the prisms of the series and pivotally mounted for adjustment of the inclination of its reflecting-face by means of a rod 5, connected thereto at the upper end and at the lower end with a crank 6 upon a spindle 7, passing through the wall of the tube and provided with suitable means for turning the same to adjust the position of said pivotally-mounted prism.
  • each prism 3 In front of each prism 3 is disposed a planoconcave condensing-lens S for extending the scope of the prism, and in front of such lens, as well as of the prism il, is disposed a plane glass plate 9 to close the opening in the hood for the reception of the image to be viewed by the observer within the boat, and thus exclude water from the tube during submergence.
  • the prisms of the series are designed more particularly as finders for scrutiny of the entire horizon for vessels or other objects of which the occupants are in search while the vessel is submerged, which objects as viewed upon a reduced scale by means of such finders may be seen in their natural size when the upper prism l is trained upon them by rotation of the sighting-tube, it is evident that the field of vision of the prism Ll may also be extende/d to any desired degreerby the addition of a condensing-lens similar to the lenses 8 of the series with a corresponding reduction of the scale upon which the image may be seen by the operator.
  • the term reflector employed in the appended claims is therefore to be understood as covering any or all of the component members of the system of glasses through or by means of which. images' of external objects are received by the observer within the vessel.
  • the closed bottom of the tube 1 is provided with a porous or otherwise pervious bag or envelop 11, containing some hygroscopic substance, preferably carbid of calcium 12.
  • a porous or otherwise pervious bag or envelop 11 containing some hygroscopic substance, preferably carbid of calcium 12.
  • the air confined within the tube 1 contains any moisture this becomes absorbed by the calcium carbid, which at once generates a volume of acetylene gas, which, being lighter than air, rises to the top of the tube and displaces the air surrounding the reflectors. Being in a dry state, this gas further operates to absorb any moisture deposited in the upper end of the tube and upon the inwardly-exposed surfaces of the reflectors or their component members, by which any fog caused by such previous deposit will be removed and the surfaces cleansed.
  • the small particles of powder separated from the mass of the carbid are not permitted to float upward and to lodge upon the surfaces which are to be, kept clean, but are confined in the lower portion of the tube, where their presence is not detrimental to the operation of the apparatus.
  • a cock 13 is provided in the lower portion of thektube 1 to permit the escape of the air displaced by the acetylene gas thus generated.
  • a longitudinally-extending pipe 14 is shown arranged within the tube 1 and having at its upper end branches 15, passing through the walls of the cap 2 and terminating in the nozzles16, each directed toward oneof the plates 9.
  • a flexible pipe 17 which is connected in turn with an outlet-pipe 18, having a faucet 19 and communicating with the lower portion of a tank or reservoir 20, containing' some fluid, such as alcohol, having a greater aiiinity for glass than water.
  • This reservoir is connected at its upper end with a pipe 21, having a faucet 22,communicating with some suitable source of compressed-air supply, which may, however, be replaced by a suitable forcepump.
  • a hole 23 is formed in the top of the cap 2, surrounded upon the exterior with a raised boss, forming a seat for a fiat spring -valve 24, pressed to the same by means of a screw 25, passing through a hole therein and entering a suitably-threaded hole in the cap 2.
  • the relief-valve thus formed permits the escape of any superfiuous acetylene gas outwardly, so as not to foul the atmosphere within the vessel while preventing any abnormal rise of pressure within the sighting-tube.
  • the present invention is not limited to the specific means herein shown and described for maintaining the inner and outer operative faces of the reflector or reiiectors free from fogging by adherence of iine particles of water deposited by contact of the external atmosphere or otherwise, but that it is susceptible of wide variation without departure therefrom.
  • the spray may be employed for the internal as well as external exposed surfaces of the reflector or reflectors, or the nozzles 15 may be employed to direct thereon jets of dry air or of acetylene or other gas.
  • the function of the calcium carbid employed as herein described is to produce a dry gaseous substance surrounding the surfaces to be cleansed, whether air or acetylene gas, in suiicient quantity to displace the same, of such character that its contact with the exposed surfaces of the reflector or reilectors will not only prevent a deposit of moisture thereon, but will remove any such deposit by absorption, so as to in- IOO IIO
  • a sighting-tube for vessels provided in its upper end with a device having faces exposed both to the interior and exterior of said tube for receiving and reflecting through said tube an image of an external object, and means disposed within and external to said tube outside of the range of reiiection of said device for maintaining free from adherence of moisture thereto the internally and externally exposed faces of said device.
  • a sighting-tube for vessels provided in its upper end with a reflector for receiving and reflecting through said tube an image of an external object,and containing also a substance adapted to absorb any moisture held in suspension in the confined air and to thereby generate a dry gas to displace said air and absorb any moisture upon the exposed faces of said reiiector.
  • a sighting-tube for vessels provided in itsupper end with a refiector for receiving and re'liecti ng through said tube an image of an external object, and containing also asmall quantity of calcium carbid adapted to absorb any moisture contained in the confined air and to generate acetylene gas for displacing the air around said reflector and absorbing any moisture adhering to the exposed faces of the latter.
  • a sighting-tube for vessels provided in its upper end with a refiector for receiving and reflecting through said tube an image of an external object, and having therein alsoa pervious envelop containing carbid of calcium for absorbing any moisture in the confined air and displacing the latter around said reflector with acetylene gas thus generated.
  • a sighting-tube for vessels provided in its upper end with a reflector having faces exposed both to the interior and exterior of said tube for receiving and reiiecting through said tube an image of an external object, a pervious envelop Within said tube containinga hygroscopic substance, and means exterior to said tube for spraying the externally-exposed face of said refiector.
  • a sighting-tube for vessels provided in its upper end with a reflector having a face exposed up to the exterior of said tube for receiving and reflecting through said tube an image of an external object, and means applied to and operated from the exteriorof said tube for spraying the exposed face of said refleetor.
  • a sighting-tube for vessels provided in its upper end with a reiiector having a face exposed tothe exterior of said tube and adapted for receiving' and reiiecting through said tube an image of an external object, a pipe extendinglongitudinally of said tube and terminating in a nozzle directed toward the externally-exposed face of said reflector, a reservoir containing a liquid more adhesive to the material of' said reflector than water with which said pipe is connected, and means .for forcing said liquid through said pipe and its nozzle against the externally-exposed face of said reflector for displacing the moisture adhering thereto.
  • a sighting-tube for vessels provided in its upper end with a reflector having a face exposed to the exterior of said tube and adapted for receiving and reiiecting through said tube an image of an external object, a pipe extending longitudinally of said tube and terminating in a nozzle directed toward the externally-exposed face of said refiector, a reservoir containing alcohol with which said'pipe is connected, and means for forcing such alcohol through said pipe and its nozzle against the externally-exposed face of said reflector for displacing thc moisture adhering thereto.
  • a sighting-tube for vessels provided in its upper end with a reflector having faces exposed both tothe interior and exterior of said tube for receiving and reflecting through said tube an image of an external object, a pervious envelop containing a hygroscopic substance disposed in the lower'portion of said tube, a pipe extending longitudinally of said tube and terminating atits upper end in a nozzle directed toward the externally-exposed face of said refiector and connected at the other end with a reservoir containing alcohol, and means for admitting compressed air to said reservoir and thereby forcing such alcohol through said pipe and its nozzle against the externally-exposed face of said reflector in a spray, when desired.

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Description

No. 759,622. v PATENTED MAY 10, 1904.
S. LAKE. I
SIGHTING TUBE POR VESSBLS. APPLIGATIDN FILED Nov. 12, 190s.
N0 MODEL.
33:13 @Whom/WWI@ Wc' Nol-ams Pntns cc. Nom-Umb.. wAshmGToN, n c,
Patented May 10, 1904i UNITED STATES PATENT OEEICE.
SIMON LAKE, OF BRIDGEPORT, CONNECTICUT.
SIGHTING-TUBE FOR VESSELS.
SPECIFICATION forming part of Letters Patent No. 759,622, dated May 10, 1904.
Application filed November 12,1903. Serial No. 180,836. (No model.)
To all '1071101111 it ntftj/ con/cern:
Be it known that I, SIMON LAKE, a citizen of the United States, residing at Bridgeport, in the county of Fairfield and State of Connecticut, have invented certain new and useful Improvements in Sighting-lubes for Vessels, of which the following is a specification, reference being had therein to the accompanying' drawings.
This invention relates to an improvement in that class of sighting-tubes for use particularly in connection with submarine boats forming the subject of the United States Patent No. 725,570, granted to me April lll, 1903; and it has for its object to maintain unclouded by adherence of moisture deposited by contact with the atmosphere or otherwise the surfaces of the one or more reflectors or reflecting members through which images of' external objects are received and directed through the inclosing tube to the observer within the boat.
The invention consists, essentially, in the combination with a sighting-tube having in its upper or outer end a reflector for receiving and reflecting through said tube an image of an external object, of means for dispelling from the exposed faces of said reflector, or of preventing accumulations of moisture thereon.
1t also consists in certain specific means to this end, substantially as hereinafter set forth and described.
The invention will be understood by reference to the annexed drawings, in which-4 Figure 1 is a sectional elevation of a sighting-tube and connected apparatus embodying my present improvement. Fig. 2 is a transverse section on line .fn of Fig. 1 looking upward, and Fig. 3 is a similar sectional View looking downward from the section-plane.
As in my United States patent above mentioned, the tube 1 is shown projecting outwardly through the upper 'wall or roof t -of the conning-tower of the vessel and provided at its upper end with a hood or cap 2, within which is disposed a series of four prisms 3, having inclined refiecting-faces each directed toward a different point of the compass and above which is a single prism il, directed similarly to one of the prisms of the series and pivotally mounted for adjustment of the inclination of its reflecting-face by means of a rod 5, connected thereto at the upper end and at the lower end with a crank 6 upon a spindle 7, passing through the wall of the tube and provided with suitable means for turning the same to adjust the position of said pivotally-mounted prism.
In front of each prism 3 is disposed a planoconcave condensing-lens S for extending the scope of the prism, and in front of such lens, as well as of the prism il, is disposed a plane glass plate 9 to close the opening in the hood for the reception of the image to be viewed by the observer within the boat, and thus exclude water from the tube during submergence. While the prisms of the series are designed more particularly as finders for scrutiny of the entire horizon for vessels or other objects of which the occupants are in search while the vessel is submerged, which objects as viewed upon a reduced scale by means of such finders may be seen in their natural size when the upper prism l is trained upon them by rotation of the sighting-tube, it is evident that the field of vision of the prism Ll may also be extende/d to any desired degreerby the addition of a condensing-lens similar to the lenses 8 of the series with a corresponding reduction of the scale upon which the image may be seen by the operator. In any ease it is to be understood that for the purposes of the present invention the parts 3, S, and 9 and the parts t and 9, combined with a condensing (or even a magnifying) lens, if desired, together constitute a compound member which I term a refiecton which member has operative faces exposed to both the exterior and the interior of the tube l, which faces, together with those of the lower prism or reflector 10, when used it is the object of the present improvement to maintain bright and unclouded when the sighting-tube is in use in order to avoid obscur-ing the image of the external object to be observed through it. The term reflector employed in the appended claims is therefore to be understood as covering any or all of the component members of the system of glasses through or by means of which. images' of external objects are received by the observer within the vessel.
As shown herein, the closed bottom of the tube 1 is provided with a porous or otherwise pervious bag or envelop 11, containing some hygroscopic substance, preferably carbid of calcium 12. ln case the air confined within the tube 1 contains any moisture this becomes absorbed by the calcium carbid, which at once generates a volume of acetylene gas, which, being lighter than air, rises to the top of the tube and displaces the air surrounding the reflectors. Being in a dry state, this gas further operates to absorb any moisture deposited in the upper end of the tube and upon the inwardly-exposed surfaces of the reflectors or their component members, by which any fog caused by such previous deposit will be removed and the surfaces cleansed.
By inclosing the hygroscopic substance in an envelop or otherwise confining it from the body of the tube 1 the small particles of powder separated from the mass of the carbid are not permitted to float upward and to lodge upon the surfaces which are to be, kept clean, but are confined in the lower portion of the tube, where their presence is not detrimental to the operation of the apparatus.
As a means of relieving the internal pressure within the tube, which is raised by the action of the calcium carbid in conjunction with the moisture absorbed from the confined air, a cock 13 is provided in the lower portion of thektube 1 to permit the escape of the air displaced by the acetylene gas thus generated.
In order t0 free or to maintain clear of any adhering moisture the 'externally-exposed surfaces of the reiiector or reiectors or their component members, (as the glass plate 9,) a longitudinally-extending pipe 14 is shown arranged within the tube 1 and having at its upper end branches 15, passing through the walls of the cap 2 and terminating in the nozzles16, each directed toward oneof the plates 9. Connected with the lower end of the pipe 14, passing through the wall of the tube 1 is .shown a flexible pipe 17, which is connected in turn with an outlet-pipe 18, having a faucet 19 and communicating with the lower portion of a tank or reservoir 20, containing' some fluid, such as alcohol, having a greater aiiinity for glass than water. This reservoir is connected at its upper end with a pipe 21, having a faucet 22,communicating with some suitable source of compressed-air supply, which may, however, be replaced by a suitable forcepump.
When itis desired to spray the several outer surfaces of the plates 9 or of the prisms 3 or 4 in case they are set directly in their respective openings in the cap 2, the faucets 22 and 19 are opened, the air forcing the fluid from the reservoir 2O through the pipes 14: and 17, the branches 15, and nozzles 16 upon the sur- It is evi-- surfaces of the reflecting member, whether in y the form of frost, by which they are likely to become coated in cold weather, or in liquid form.
In order to provide a suitable vent for acetylene gas generated within the tube after the air has been displaced through the cock 13, a hole 23 is formed in the top of the cap 2, surrounded upon the exterior with a raised boss, forming a seat for a fiat spring -valve 24, pressed to the same by means of a screw 25, passing through a hole therein and entering a suitably-threaded hole in the cap 2. The relief-valve thus formed permits the escape of any superfiuous acetylene gas outwardly, so as not to foul the atmosphere within the vessel while preventing any abnormal rise of pressure within the sighting-tube.
From the foregoing description it will be understood thatthe present invention is not limited to the specific means herein shown and described for maintaining the inner and outer operative faces of the reflector or reiiectors free from fogging by adherence of iine particles of water deposited by contact of the external atmosphere or otherwise, but that it is susceptible of wide variation without departure therefrom. Thus the spray may be employed for the internal as well as external exposed surfaces of the reflector or reflectors, or the nozzles 15 may be employed to direct thereon jets of dry air or of acetylene or other gas. It is also evident that the present improvement is equally applicable to sightingtubes having only one or a plurality of reilectors or reflecting members in the upper or outer end; but in any installation in this class of instruments it is important that the devices for maintaining clear from fogging the reflectors located inaccessibly to the occupants of the vessel should be disposed permanently out of the range of reflection of the surfaces to be so projected, as shown and described herein.
It will be observed that the function of the calcium carbid employed as herein described is to produce a dry gaseous substance surrounding the surfaces to be cleansed, whether air or acetylene gas, in suiicient quantity to displace the same, of such character that its contact with the exposed surfaces of the reflector or reilectors will not only prevent a deposit of moisture thereon, but will remove any such deposit by absorption, so as to in- IOO IIO
sure a clean transparent surface through which a clear view may be had of the external object to be observed.
Having thus set forth the nature of the vention, what I claim herein is-- l. A sighting-tube for vessels provided in its upper end with a device having faces exposed both to the interior and exterior of said tube for receiving and reflecting through said tube an image of an external object, and means disposed within and external to said tube outside of the range of reiiection of said device for maintaining free from adherence of moisture thereto the internally and externally exposed faces of said device.
2. A sighting-tube for vessels provided in its upper end with a reflector for receiving and reflecting through said tube an image of an external object,and containing also a substance adapted to absorb any moisture held in suspension in the confined air and to thereby generate a dry gas to displace said air and absorb any moisture upon the exposed faces of said reiiector. Y
3. A sighting-tube for vessels provided in itsupper end with a refiector for receiving and re'liecti ng through said tube an image of an external object, and containing also asmall quantity of calcium carbid adapted to absorb any moisture contained in the confined air and to generate acetylene gas for displacing the air around said reflector and absorbing any moisture adhering to the exposed faces of the latter.
A. A sighting-tube for vessels provided in its upper end with a refiector for receiving and reflecting through said tube an image of an external object, and having therein alsoa pervious envelop containing carbid of calcium for absorbing any moisture in the confined air and displacing the latter around said reflector with acetylene gas thus generated.
5. A sighting-tube for vessels provided in its upper end with a reflector having faces exposed both to the interior and exterior of said tube for receiving and reiiecting through said tube an image of an external object, a pervious envelop Within said tube containinga hygroscopic substance, and means exterior to said tube for spraying the externally-exposed face of said refiector.
6. A sighting-tube for vessels provided in its upper end with a reflector having a face exposed up to the exterior of said tube for receiving and reflecting through said tube an image of an external object, and means applied to and operated from the exteriorof said tube for spraying the exposed face of said refleetor.
7. A sighting-tube for vessels provided in its upper end with a reiiector having a face exposed tothe exterior of said tube and adapted for receiving' and reiiecting through said tube an image of an external object, a pipe extendinglongitudinally of said tube and terminating in a nozzle directed toward the externally-exposed face of said reflector, a reservoir containing a liquid more adhesive to the material of' said reflector than water with which said pipe is connected, and means .for forcing said liquid through said pipe and its nozzle against the externally-exposed face of said reflector for displacing the moisture adhering thereto.
8. A sighting-tube for vessels provided in its upper end with a reflector having a face exposed to the exterior of said tube and adapted for receiving and reiiecting through said tube an image of an external object, a pipe extending longitudinally of said tube and terminating in a nozzle directed toward the externally-exposed face of said refiector, a reservoir containing alcohol with which said'pipe is connected, and means for forcing such alcohol through said pipe and its nozzle against the externally-exposed face of said reflector for displacing thc moisture adhering thereto.
9. A sighting-tube for vessels provided in its upper end with a reflector having faces exposed both tothe interior and exterior of said tube for receiving and reflecting through said tube an image of an external object, a pervious envelop containing a hygroscopic substance disposed in the lower'portion of said tube, a pipe extending longitudinally of said tube and terminating atits upper end in a nozzle directed toward the externally-exposed face of said refiector and connected at the other end with a reservoir containing alcohol, and means for admitting compressed air to said reservoir and thereby forcing such alcohol through said pipe and its nozzle against the externally-exposed face of said reflector in a spray, when desired.
In testimony whereof l have signed my name to this speification in the presence of two subscribing witnesses.
SIMON LAKE.
Witnesses:
E. Gr. GALLAGHER, HENRY J. MILLER.
IOO
IOS
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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2524208A (en) * 1946-06-29 1950-10-03 William E Piper Method of detecting flaws in solid bodies
US2534884A (en) * 1945-05-12 1950-12-19 Barr & Stroud Ltd Submarine periscope
US2667813A (en) * 1948-12-22 1954-02-02 Barr & Stroud Ltd Extensible optical sighting or observation instrument
US4284326A (en) * 1979-03-29 1981-08-18 Werkzeugmaschinenfabrik Oerlikon-Buhrle Ag Apparatus for eliminating external weather effects from the objective lens system of an aiming periscope installed at an armed vehicle
US20070229954A1 (en) * 2006-04-03 2007-10-04 Pourang Bral Means and method to prevent liquids and flying debris from blocking the viewing pathway of an optical element

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2534884A (en) * 1945-05-12 1950-12-19 Barr & Stroud Ltd Submarine periscope
US2524208A (en) * 1946-06-29 1950-10-03 William E Piper Method of detecting flaws in solid bodies
US2667813A (en) * 1948-12-22 1954-02-02 Barr & Stroud Ltd Extensible optical sighting or observation instrument
US4284326A (en) * 1979-03-29 1981-08-18 Werkzeugmaschinenfabrik Oerlikon-Buhrle Ag Apparatus for eliminating external weather effects from the objective lens system of an aiming periscope installed at an armed vehicle
US20070229954A1 (en) * 2006-04-03 2007-10-04 Pourang Bral Means and method to prevent liquids and flying debris from blocking the viewing pathway of an optical element
WO2008018924A3 (en) * 2006-04-03 2008-07-10 Pourang Bral Device for cleaning an optical element
US7726821B2 (en) * 2006-04-03 2010-06-01 Pourang Bral Means and method to prevent liquids and flying debris from blocking the viewing pathway of an optical element

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