US2515511A - Submarine motor-driven toy - Google Patents

Submarine motor-driven toy Download PDF

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US2515511A
US2515511A US621307A US62130745A US2515511A US 2515511 A US2515511 A US 2515511A US 621307 A US621307 A US 621307A US 62130745 A US62130745 A US 62130745A US 2515511 A US2515511 A US 2515511A
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boat
submarine
hull
periscope
motor
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US621307A
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William L Hansen
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Hansen Manufacturing Co Inc
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Hansen Manufacturing Co Inc
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    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63HTOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
    • A63H23/00Toy boats; Floating toys; Other aquatic toy devices
    • A63H23/02Boats; Sailing boats
    • A63H23/04Self-propelled boats, ships or submarines

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  • This invention pertains to improvements in power driven mobile toys and is particularly related to a submarine motor driven toy boat.
  • 'Oneof the objects of this invention is to provide a submarine toy boat which may be readily operated in either a normal surface cruising position or in a submerged position.
  • Another object is to provide a submarine toy boat having a simplified ballast changing arrangement adapted to vary the buoyancy of the submarine for surface or submerged operation.
  • Figure 1 is an elevational view of the starboard side of a submarine power driven toy incorporating the features of this invention.
  • Figure 2 is a plan View of the submarine toy shownin Figure 1.
  • Figure 3 is a horizontal section through the hold of the submarine toy on the line '3--3 of Figure l.
  • Figure '4 isa vertical section on the line 4-4 of Figure 2.
  • Figure 5 is a fragmentary hor'izontalsectional view of the steering link on the line-5 5 of Figure 4.
  • Figure 6 is an enlarged fragmentary View showing the-screw propeller for driving the'submarinetoy.
  • Figure 7 is an end view of the propeller shown in Figure 6.
  • Figure 8 is a cross-sectional view on the line 8-8 of Figures '1, 2, 3, and 4.
  • Figure9 is a fragmentary horizontal sectional view showing an alternate construction of an adjustable stern arrangement for steering the submarine toy boat.
  • Figure 10 is "a fragmentary vertical section on the line I'D-1'0 of Figure 9.
  • Figure 11 is a horizontal sectional View, similar to Figure 3, but showing an alternate drivingarrangement for steering the submarine toy boat.
  • Figure 12 is a fragmentary vertical section on the line I 2-l 20f Figure 2.
  • FIG 13 is a wiring diagram of the control circuit applicable to the steering arrangement shown "in Figure 11.
  • This invention is shown applied to a submarinerpower driven toy "having a hull 20 the upper edge of which is provided with a rimmed 5 Claims. (01. 46-94) surface 21 to which the top cover plate 22 'containing the conning tower 23, is securely held by a gasket 24 and the screws 25 to thus provide a water-tight sealed hold 26in the hull 2E1.
  • Novel means is provided for controlling the displacement and buoyancy of the hull 28 so as to vary the depth at which the hull floats in the water.
  • the waterline with respect to the hull is shown at 21, Figure 8, and when itis desired to operate the submarine toy in a submerged position the water line then exists at the position Zia with only the upperportion of the conning tower 23 projecting above the water surface.
  • a pair of ballast tanks 28 are provided on each side of the hull along its waistline as best seen in Figures 1, 2, and 8. These tanks are totally enclosed and are preferably formed integral with the outer sides of-the hull 20 as best seen in Figure 8.
  • the tanks are provided with vertically disposed entrance and discharge passageways or holes 29 which open upwardly through the top surface 28a of theballast tanks 28.
  • the submarine boat floats in the surface cruising position shown in Figure 8.
  • the submarine boat is merely depressed below the surface sufiiciently to allow water to flow into the openings 29 to fill the ballast tanks 28 and thereby decrease the displacement and buoyancy of the hull so as to now-cause it to float with the water line at the position 210:, Figure 8.
  • the novel arrangement of the vertically disposed holes 29 in the ballast tanks 28 permits the submarine to be submerged by normally dipping the bow under water first, as in normal submarine diving operations, so that water enters into the holes 28 toward the bow of the boat while air may rapidly escape through the holes 29 toward the stern of the boat, which at this time are still elevated above the water surface during the initial diving motion. Thus air may rapidly escape from these holes toward the stern to let the water flow in very rapidly to fill the tanks 28.
  • it may readily be adjusted from surfacecruising position to submerged operating position.
  • the ballast tanks may be emptied for again bringing the boat back to the surface cruising position by elevating the bow to a surface position to let air fiow in rapidly through the holes 29 toward the bow of the submarine boat to in this way allow the water to rapidly drain out through the openings 29 toward the stern which are now lower than the holes toward the bow as a normal surfacing manipulation of the submarine boat is performed.
  • the tanks may be rapidly drained by merely picking up the submarine boat and holding it in a vertical position while the water rapidly runs out of the holes 29 in the ballast tanks 28.
  • This novel submarine power propelled toy boat is driven by suitable electric motor 30, Figures 3 and 4, which has a flange 3
  • This motor 30 has a shaft 33 which is connected through a suitable coupling 34 to the propeller shaft 35 journaled in a bearing 36 fixed to the hull 20 by a suitable plate 31 and journaled at its outer end in a water-tight sealed bearing 38 held in the stem end of the hull 20.
  • On the outer end of the propeller shaft 35 is mounted a suitable propeller 39 as best seen in Figure 6.
  • Power for operating the motor 30 may be derived from a series of suitable batteries B held rigidly in clips 40 attached to the hull 20 so as to rigidly hold these batteries to the hull under all operating conditions. These batteries are preferably serially connected electrically with the positive terminal 4
  • a suitable jumper clip 44 mounted by suitable insulated support 45 on the motor 30 serves to interconnect two of the batteries B so as to complete the serial connection from the ground terminal 43 to the negative terminal 46 which in turn is connected through a lead 41 to the contact 48 of the stop and. start control switch 49, Figure 4, which is actuated by the stop and start control button 50 carried in a suitable water-tight bearing in the top of the conning tower 23.
  • the switch contact 49 engages the contact 48 so as to complete a circuit through the lead 52 to the motor terminal 53 of the motor 30, the other terminal 54 of the motor being connected through a lead 55 which is grounded to the hull 20 by a suitable screw 56 so as to cause the motor to be energized from the batteries B.
  • Raising the stop and start button 50 on the conning tower disconnects the contact 49 from terminal 48 to stop operation of the motor 30.
  • the steering of the submarine boat is accomplished by turning the periscope 51 with its observation window 510, in the direction it is desired to have the submarineboat travel.
  • This periscope 57 is rotatably mounted in a suitable watertight bearing 58 carried in the conning tower 23 and has fixed on its lower end, Figure 5, a crank arm 59 which is connected through a suitable; link '60 to a similar crank arm 6
  • a rudder 64 fixed on the rudder shaft 62 is positioned in proper relationship to the propeller 39 so that turning Of the periscope 51 will similarly adjust the rudder 64 to cause the boat to travel in the desired direction indicated by the periscope window 510.. l
  • the motor 30 in this instance has a motor shaft 33a which passes through'a clearance hole 331) in the stern portion 20a and is connected to'a flexible coupling 69 to which is also connected in driving relationship the propeller shaft 10.
  • This shaft 10 is supported at its outer end in a suitable water-tight bearing H in the stern portion 20a and has a suitable propeller 39 fixed on its outer end.
  • the propellershaft 10 may be swung in a horizontal plane to angularly related positions relative to the longitudinal axis of the hull of the submarine boat to thereby change the direction of thrust imparted by the propeller to the hull and thereby effect a steering of the boat.
  • FIG. 4 v I Still another method of steering the boatby electrical control means is contemplated which is best shown in Figures ll, 12, and 1,3.
  • a pair of driving motors 39a and 3019 are provided, each mounted rigidly ona suitable partition 12 fixed to the hull i ll and having suitable propeller drive shafts 13 which are journaled at their outer ends in water-tight bearings 14 and are provided with suitablepropellers 39 fixed on their outer ends.
  • the motors 30a In this arrangement, the motors 30a.
  • each of the propellers 39, Figure 11 is to one side ofuthe central axis of the hull so that a difierence in speed between them will effect a steering action onthe boat.
  • the batteries B are connected as in the case of Figure 3 with their positive terminal 4
  • Both motors 30a and 30b have their terminals 15 connected through leads 16 to a common ground terminal 11 on the hull.
  • the negative terminal 45 of the serially connected batteries B is connected through lead 4"! to thet'erminal 48 of the stop and start switch 49, Figure 12, while the lead 52from this switch is connected 'to 'the' central arms 18 of the differential control rheostat 19.
  • this rheostat comprises two windings 80 and 8
  • the motor on the side to which the periscope is turned will be connected through resistance 80 or 8! to thereby decrease the speed of that motor while allowing the other motor to continue at normal full speed, thereby turning the boat in the direction desired.
  • complete electrical control means is provided for steering the boat by manipulation of the periscope on the conning tower.
  • a submarine toy boat having a totally enclosed water-tight hull, ballast tanks extending along the sides of said hull and open at the top for permitting selective surface and submerged operation of said boat, power means in said hull for propelling said boat, a conning tower on said hull, a rotatable periscope mounted in and projecting above said conning tower having a periscope window, and steering means connected to said periscope so that exterior manipulation of said periscope in rotary movement controls the course of said boat in the direction indicated by said periscope window when said boat is operating in either surface or submerged operation.
  • a steering device for a toy submarine boat having a hull, means to cause said hull to float in surface or submerged positions, a periscope including a periscope window rotatably mounted to project exteriorly from said hull, a propelling device in said hull, a propeller driven by said device, a rudder, and means interconnecting said periscope and said rudder so that external manual rotation of said periscope steers said boat in a direction indicated by the direction of facing of said periscope window when said boat is in either surface or submerged condition.
  • a steering control for a submarine toy boat including means to effect surface or submerged operation of said boat, a rudder, a periscope, a periscope window in said periscope, and means interconnecting said rudder and periscope operable by the exterior manual turning of said periscope and its window to effect a steering action of said boat in the direction indicated by the direction of facing of said window.
  • a pair of driving devices including a pair of propellers located one on each side of the keel axis of said submarine, and control means for differentially varying the speed of said driving devices including a periscope rotatably mounted in said hull for exterior manipulation having a periscope window adapted to point in the direction of the course of travel effected in said boat by the differential speed control of said driving devices in accordance with rotation of said periscope.
  • a periscope including a periscope window J'ournaled for outside manipulation in said conning tower, a pair of electric driving motors each connected to a propeller located each side of the keel axis of said hull, a source of electric power for operating said motors, and electric control means for differentially varying the speed of rotation of said motors including a pair of rheostats interconnected between said source of power and said motors and connected for simultaneous operation by the rotation of said periscope, so that said periscope window when positioned for straightaway operation causes simultaneous full speed operation of both of said motors, and when positioned to either side of said strightaway position will decrease the speed of the motor on the side to which said periscope window is turned.

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  • Engineering & Computer Science (AREA)
  • Ocean & Marine Engineering (AREA)
  • Toys (AREA)

Description

W. L. HANSEN SUBMARINE MOTOR-DRIVEN TOY July 18, 1950 3 Sheets-Sheet 1 Filed Oct. 9, 1945 INVENTOR. WILLIAM LJ-IANSEN HTTDRNEE S July 18, 1950 w. 1.. HANSEN SUBMARINE MOTOR-DRIVEN TUY 5 Sheets-Sheet 2 Filed Oct. 9, 1945 INVENTOR WxLUAM LHANSEN 1.7m L4; 8; (AM
ATTORN EYS July 18, 1950 w. HANSEN SUBMARINE MOTOR-DRIVEN TOY 3 Sheets-Sheet 3 Filed 001:. 9, 1945 INVENTOR WILLIAM L. HANSEN ATTO R N EYS Patented July 18, 1950 UNITED STATES P T NT OFFICE SUBMARINE Moron-naively TOY I William L. Hansen, Princeton, Ind., assignor to Hansen -Manufacturing Company, Inc.,' Princeton, Ind.,-a corporation of Indiana Application October 9, 1945, Serial No.' 621,307
This invention pertains to improvements in power driven mobile toys and is particularly related to a submarine motor driven toy boat.
'Oneof the objects of this invention is to providea submarine toy boat which may be readily operated in either a normal surface cruising position or in a submerged position.
Another object is to provide a submarine toy boat having a simplified ballast changing arrangement adapted to vary the buoyancy of the submarine for surface or submerged operation.
And still another object'is toprovide improved steering control and direction indicating mechanism for a submarine power driven toy boat.
Further features and advantages of this in vention will appear 'from 'a detailed description of the drawings inwhich:
Figure 1 is an elevational view of the starboard side of a submarine power driven toy incorporating the features of this invention.
Figure 2 is a plan View of the submarine toy showninFigure 1.
Figure 3 is a horizontal section through the hold of the submarine toy on the line '3--3 of Figure l.
Figure '4 isa vertical section on the line 4-4 of Figure 2.
Figure 5 is a fragmentary hor'izontalsectional view of the steering link on the line-5 5 of Figure 4. c
Figure 6 is an enlarged fragmentary View showing the-screw propeller for driving the'submarinetoy.
Figure 7 is an end view of the propeller shown in Figure 6.
' Figure 8 is a cross-sectional view on the line 8-8 of Figures '1, 2, 3, and 4.
Figure9 is a fragmentary horizontal sectional view showing an alternate construction of an adjustable stern arrangement for steering the submarine toy boat.
Figure 10 is "a fragmentary vertical section on the line I'D-1'0 of Figure 9.
Figure 11 is a horizontal sectional View, similar to Figure 3, but showing an alternate drivingarrangement for steering the submarine toy boat.
Figure 12 is a fragmentary vertical section on the line I 2-l 20f Figure 2. I
Figure 13 is a wiring diagram of the control circuit applicable to the steering arrangement shown "in Figure 11.
This invention is shown applied to a submarinerpower driven toy "having a hull 20 the upper edge of which is provided with a rimmed 5 Claims. (01. 46-94) surface 21 to which the top cover plate 22 'containing the conning tower 23, is securely held by a gasket 24 and the screws 25 to thus provide a water-tight sealed hold 26in the hull 2E1.
Novel means is provided for controlling the displacement and buoyancy of the hull 28 so as to vary the depth at which the hull floats in the water. During the normal surface cruising position of the submarine toy the waterline with respect to the hull is shown at 21, Figure 8, and when itis desired to operate the submarine toy in a submerged position the water line then exists at the position Zia with only the upperportion of the conning tower 23 projecting above the water surface. In order to rapidly and easily effect this change of displacement and buoyancy to adjust the submarine boat to either of these conditions of operation, a pair of ballast tanks 28 are provided on each side of the hull along its waistline as best seen in Figures 1, 2, and 8. These tanks are totally enclosed and are preferably formed integral with the outer sides of-the hull 20 as best seen in Figure 8. The tanks are provided with vertically disposed entrance and discharge passageways or holes 29 which open upwardly through the top surface 28a of theballast tanks 28.
Normally, withno water in the tanks 28, the submarine boat floats in the surface cruising position shown in Figure 8. When it is desired to submerge the submarine boat for operation in submerged condition, the submarine boat is merely depressed below the surface sufiiciently to allow water to flow into the openings 29 to fill the ballast tanks 28 and thereby decrease the displacement and buoyancy of the hull so as to now-cause it to float with the water line at the position 210:, Figure 8.
The novel arrangement of the vertically disposed holes 29 in the ballast tanks 28 permits the submarine to be submerged by normally dipping the bow under water first, as in normal submarine diving operations, so that water enters into the holes 28 toward the bow of the boat while air may rapidly escape through the holes 29 toward the stern of the boat, which at this time are still elevated above the water surface during the initial diving motion. Thus air may rapidly escape from these holes toward the stern to let the water flow in very rapidly to fill the tanks 28. Thus by normal diving manipulation of the submarine, it may readily be adjusted from surfacecruising position to submerged operating position.
In -'a "similar Way the ballast tanks may be emptied for again bringing the boat back to the surface cruising position by elevating the bow to a surface position to let air fiow in rapidly through the holes 29 toward the bow of the submarine boat to in this way allow the water to rapidly drain out through the openings 29 toward the stern which are now lower than the holes toward the bow as a normal surfacing manipulation of the submarine boat is performed.
It is also to be noted that the tanks may be rapidly drained by merely picking up the submarine boat and holding it in a vertical position while the water rapidly runs out of the holes 29 in the ballast tanks 28.
It is to be further noted with this particular arrangement of the holes 29 in the ballast tanks 28 that they do not allow water to flow into the ballast tanks from wave action as the submarine operates in surfare cruising position since the horizontal movement of the waves over these openings precludes normal fiow of water into the ballast tanks, the holes being positioned substantially perpendicular to the horizontal movement of the boat through the waves.
This novel submarine power propelled toy boat is driven by suitable electric motor 30, Figures 3 and 4, which has a flange 3| securely fixed to brackets 32 formed in the hull 20. This motor 30 has a shaft 33 which is connected through a suitable coupling 34 to the propeller shaft 35 journaled in a bearing 36 fixed to the hull 20 by a suitable plate 31 and journaled at its outer end in a water-tight sealed bearing 38 held in the stem end of the hull 20. On the outer end of the propeller shaft 35 is mounted a suitable propeller 39 as best seen in Figure 6.
Power for operating the motor 30 may be derived from a series of suitable batteries B held rigidly in clips 40 attached to the hull 20 so as to rigidly hold these batteries to the hull under all operating conditions. These batteries are preferably serially connected electrically with the positive terminal 4|, Figure 11, of the series being connected through a, contact 42 to a ground connection 43 with the hull 20. A suitable jumper clip 44 mounted by suitable insulated support 45 on the motor 30 serves to interconnect two of the batteries B so as to complete the serial connection from the ground terminal 43 to the negative terminal 46 which in turn is connected through a lead 41 to the contact 48 of the stop and. start control switch 49, Figure 4, which is actuated by the stop and start control button 50 carried in a suitable water-tight bearing in the top of the conning tower 23. When the button 50 is depressed, the switch contact 49 engages the contact 48 so as to complete a circuit through the lead 52 to the motor terminal 53 of the motor 30, the other terminal 54 of the motor being connected through a lead 55 which is grounded to the hull 20 by a suitable screw 56 so as to cause the motor to be energized from the batteries B. Raising the stop and start button 50 on the conning tower disconnects the contact 49 from terminal 48 to stop operation of the motor 30.
The steering of the submarine boat is accomplished by turning the periscope 51 with its observation window 510, in the direction it is desired to have the submarineboat travel. This periscope 57 is rotatably mounted in a suitable watertight bearing 58 carried in the conning tower 23 and has fixed on its lower end, Figure 5, a crank arm 59 which is connected through a suitable; link '60 to a similar crank arm 6| fixed on 4 the vertical rudder shaft 62 journaled in a suitable water-tight bearing 63 carried in the stern of the hull 20 as best seen in Figure 4. A rudder 64 fixed on the rudder shaft 62 is positioned in proper relationship to the propeller 39 so that turning Of the periscope 51 will similarly adjust the rudder 64 to cause the boat to travel in the desired direction indicated by the periscope window 510.. l
As an alternate structure to efiect the steering of the submarine boat, there is shown the arrangement of Figures 9 and 10 in which the axis of the propeller shaft is varied with respect to the axis of the hull of the boat to effect a change in direction of travel of the boat. In this arrangement the stern portion 20a of the hull is carried on suitable pivots 65 and 66 supported by integral brackets 61 projecting rearwardly from the hull 20 and is controlled in swinging movement about these pivots by the same link 60 utilized to operate the rudder as shown in Figure 4, this link 60 being connected by a suitable jour naled connection 58 with thestern portion 20a so that by rotating the periscope 51 the stern portion of the boat may be swung in a horizontal plane relative to the longitudinal axis of the hull 20. I v
The motor 30 in this instance has a motor shaft 33a which passes through'a clearance hole 331) in the stern portion 20a and is connected to'a flexible coupling 69 to which is also connected in driving relationship the propeller shaft 10. This shaft 10 is supported at its outer end in a suitable water-tight bearing H in the stern portion 20a and has a suitable propeller 39 fixed on its outer end. Thus by swinging the stern portion 29a. by manipulating the periscope 5'! the propellershaft 10 may be swung in a horizontal plane to angularly related positions relative to the longitudinal axis of the hull of the submarine boat to thereby change the direction of thrust imparted by the propeller to the hull and thereby effect a steering of the boat. 4 v I Still another method of steering the boatby electrical control means is contemplated which is best shown in Figures ll, 12, and 1,3. In this structure, a pair of driving motors 39a and 3019 are provided, each mounted rigidly ona suitable partition 12 fixed to the hull i ll and having suitable propeller drive shafts 13 which are journaled at their outer ends in water-tight bearings 14 and are provided with suitablepropellers 39 fixed on their outer ends. In this arrangement, the motors 30a. and 3012 are electrically interconnected for differential speed control, as shown in Figure 13, so that both motors may be runat full speed for normal forward operation or one or the-other of the motorsmay be decreasedin speed to thereby alter the direction of the submarine boat as desired since each of the propellers 39, Figure 11, is to one side ofuthe central axis of the hull so that a difierence in speed between them will effect a steering action onthe boat.
In this arrangement, the batteries B are connected as in the case of Figure 3 with their positive terminal 4| connected through a ground clip 42 to the ground terminal of the hu1l 43. Both motors 30a and 30b have their terminals 15 connected through leads 16 to a common ground terminal 11 on the hull. The negative terminal 45 of the serially connected batteries B is connected through lead 4"! to thet'erminal 48 of the stop and start switch 49, Figure 12, while the lead 52from this switch is connected 'to 'the' central arms 18 of the differential control rheostat 19. Noting Figure 13, this rheostat comprises two windings 80 and 8|, each respectively connected through the leads 82 and 83 with the terminals 84 and 85 of the motors 30a and 301) so that when the periscope is positioned for straightaway direction of travel of the submarine boat, the arms 18 will simultaneously effect full power connection at the common terminals 86 of both of the rheostats 80 and 81. When the periscope is turned to either side for changing the course of the submarine boat, the motor on the side to which the periscope is turned will be connected through resistance 80 or 8! to thereby decrease the speed of that motor while allowing the other motor to continue at normal full speed, thereby turning the boat in the direction desired. Thus, in this structure, complete electrical control means is provided for steering the boat by manipulation of the periscope on the conning tower.
While the apparatus herein disclosed and described constitutes a preferred form of the invention, it is to be understood that the apparatus is capable of mechanical alteration without departing from the spirit of the invention and that such mechanical arrangements and commercial adaptations as fall within the scope of the appendant claims are intended to be included herein.
Having thus fully set forth and described this invention, what is claimed as new and desired to be secured by United States Letters Patent is:
1. In a submarine toy boat having a totally enclosed water-tight hull, ballast tanks extending along the sides of said hull and open at the top for permitting selective surface and submerged operation of said boat, power means in said hull for propelling said boat, a conning tower on said hull, a rotatable periscope mounted in and projecting above said conning tower having a periscope window, and steering means connected to said periscope so that exterior manipulation of said periscope in rotary movement controls the course of said boat in the direction indicated by said periscope window when said boat is operating in either surface or submerged operation.
2. In a steering device for a toy submarine boat, having a hull, means to cause said hull to float in surface or submerged positions, a periscope including a periscope window rotatably mounted to project exteriorly from said hull, a propelling device in said hull, a propeller driven by said device, a rudder, and means interconnecting said periscope and said rudder so that external manual rotation of said periscope steers said boat in a direction indicated by the direction of facing of said periscope window when said boat is in either surface or submerged condition.
3. In a steering control for a submarine toy boat including means to effect surface or submerged operation of said boat, a rudder, a periscope, a periscope window in said periscope, and means interconnecting said rudder and periscope operable by the exterior manual turning of said periscope and its window to effect a steering action of said boat in the direction indicated by the direction of facing of said window.
4. In a toy submarine boat having a watertight enclosed hull adapted to operate at surface cruising or in submerged positions, a pair of driving devices including a pair of propellers located one on each side of the keel axis of said submarine, and control means for differentially varying the speed of said driving devices including a periscope rotatably mounted in said hull for exterior manipulation having a periscope window adapted to point in the direction of the course of travel effected in said boat by the differential speed control of said driving devices in accordance with rotation of said periscope.
5. In a toy submarine boat having a totally enclosed water-tight hull including a conning tower, a periscope including a periscope window J'ournaled for outside manipulation in said conning tower, a pair of electric driving motors each connected to a propeller located each side of the keel axis of said hull, a source of electric power for operating said motors, and electric control means for differentially varying the speed of rotation of said motors including a pair of rheostats interconnected between said source of power and said motors and connected for simultaneous operation by the rotation of said periscope, so that said periscope window when positioned for straightaway operation causes simultaneous full speed operation of both of said motors, and when positioned to either side of said strightaway position will decrease the speed of the motor on the side to which said periscope window is turned.
WILLIAM L. HANSEN.
REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS Number Name Date 741,581 Humphrey Oct. 13, 1903 885,754 Hubbard Apr. 28, 1908 1,127,707 Whitney Feb. 9, 1915 1,282,743 Brenkert Oct. 29, 1918 1,287,832 Battey Dec. 17, 1918 1,318,623 Wall Oct. 14, 1919 1,620,709 Young Mar. 15, 1927 2,405,715 Sabini Aug. 13, 1946 FOREIGN PATENTS Number Country Date 316,277 Italy Mar. 31, 1934 830,268 France July 26, 1938
US621307A 1945-10-09 1945-10-09 Submarine motor-driven toy Expired - Lifetime US2515511A (en)

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Cited By (9)

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US2693047A (en) * 1950-07-15 1954-11-02 Lumsden Angus Fishing line towing device
US2804712A (en) * 1955-05-27 1957-09-03 Bernard O Jackson Electric controlled troller
US2814146A (en) * 1954-08-13 1957-11-26 Melvin G Propp Mechanical duck
US3010255A (en) * 1958-08-15 1961-11-28 Stanley H Gordon Submarine toy
US3036403A (en) * 1960-04-01 1962-05-29 Frank G Presnell Predetermined depth-maintaining, selfpropelled model submarine
DE1173371B (en) * 1959-06-11 1964-07-02 Hans Hoernlein Toy diving boat with a diving chamber
US3229420A (en) * 1962-11-27 1966-01-18 Richard E Dias Remotely controlled, electrically operated, model submarine
US3292304A (en) * 1964-04-17 1966-12-20 Robert A Wolfe Remotely controlled toy space ship
US3501863A (en) * 1967-04-06 1970-03-24 William L Hayes Driving mechanism for running toys

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US885754A (en) * 1903-01-19 1908-04-28 Gould Storage Battery Co System of electrical distribution.
US1127707A (en) * 1913-12-24 1915-02-09 Fred Brown Whitney Shallow-draft submarine boat.
US1282743A (en) * 1918-01-21 1918-10-29 Joseph W Brenkert Light-dissolving device.
US1287832A (en) * 1918-05-04 1918-12-17 Richard Battey Toy submarine boat.
US1318623A (en) * 1919-10-14 Toy boat
US1620709A (en) * 1926-08-26 1927-03-15 Acushnet Process Company Toy motor boat
FR830268A (en) * 1937-12-02 1938-07-25 Underwater toy
US2405715A (en) * 1943-10-15 1946-08-13 Sabini Frederick Toy submarine

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US885754A (en) * 1903-01-19 1908-04-28 Gould Storage Battery Co System of electrical distribution.
US741581A (en) * 1903-01-23 1903-10-13 Charles R Buchheit Miniature or toy submarine boat.
US1127707A (en) * 1913-12-24 1915-02-09 Fred Brown Whitney Shallow-draft submarine boat.
US1282743A (en) * 1918-01-21 1918-10-29 Joseph W Brenkert Light-dissolving device.
US1287832A (en) * 1918-05-04 1918-12-17 Richard Battey Toy submarine boat.
US1620709A (en) * 1926-08-26 1927-03-15 Acushnet Process Company Toy motor boat
FR830268A (en) * 1937-12-02 1938-07-25 Underwater toy
US2405715A (en) * 1943-10-15 1946-08-13 Sabini Frederick Toy submarine

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2693047A (en) * 1950-07-15 1954-11-02 Lumsden Angus Fishing line towing device
US2814146A (en) * 1954-08-13 1957-11-26 Melvin G Propp Mechanical duck
US2804712A (en) * 1955-05-27 1957-09-03 Bernard O Jackson Electric controlled troller
US3010255A (en) * 1958-08-15 1961-11-28 Stanley H Gordon Submarine toy
DE1173371B (en) * 1959-06-11 1964-07-02 Hans Hoernlein Toy diving boat with a diving chamber
US3036403A (en) * 1960-04-01 1962-05-29 Frank G Presnell Predetermined depth-maintaining, selfpropelled model submarine
US3229420A (en) * 1962-11-27 1966-01-18 Richard E Dias Remotely controlled, electrically operated, model submarine
US3292304A (en) * 1964-04-17 1966-12-20 Robert A Wolfe Remotely controlled toy space ship
US3501863A (en) * 1967-04-06 1970-03-24 William L Hayes Driving mechanism for running toys

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