DE345220C - Water toys - Google Patents

Description

Water toys. This registration is in accordance with the Union Treaty dated June 2 igii priority based on filing in the United States claimed by America from March 16 igi8. The invention relates to a water toy, in which the actuation and effect of a mine or a torpedo on completely harmless way is deceptively imitated.

The toy has a permanently attached or freely floating, tightly lockable hollow body in which a pressure medium, such as compressed Air or other gases or chemicals that generate gas pressure can be filled in can. The pressure vessel can be triggered from the outside with a light touch Provided closure device, when actuated, the pressure medium suddenly emerges and adjacent amounts of water are thrown away explosively. During training of the toy as a torpedo can in the hollow body in addition to the pressure medium certain Amounts of liquid are filled in, their-adjustable outlet for locomotion of the hollow body is used.

. Various exemplary embodiments are shown in the drawing of the subject matter of the invention, namely Fig. i shows a central cross-section by a water toy designed as a mine, Fig. 2 and 3 cross-sections more similar Devices with modified locking devices, Fig. 4 is a view of a modified Form in its operative position; Fig. 5 and 6 partial views similar to that of Fig. Q., Fig. 7 is a cross-section of a different shape, Fig. 8 is a cross-section of a bell-shaped mine, Fig. 9 is a partial view of an automatic trigger according to Fig. 8, Fig. = o a different shape using an air compression piston; Fig. = I a cross-section through a basin with a more precisely defined form of the arrangement, Fig. 12 a longitudinal section through a water toy designed as a torpedo, Fig. 13 is a cross-section through a mine, similar to the one shown in Fig. I, with means to be released by hand, Fig. 14, a vertical longitudinal section a torpedo, similar to that of Fig. 12, Fig. 15 the front view belonging to Fig. 14 and FIG. 16 shows a part of the top view corresponding to FIG.

Fig. I shows the mine = o in the form of a hollow sphere, which is provided with compressed air or a similar pressure medium by a valve = i. In order to keep the mine sunk below the surface of the water 14, weights 12 are attached to it by means of chains 13. In order to be able to close the neck 16 of the mine airtight, a cover 15 is provided. A seal 17 is arranged between the cover 15 and the neck 16. The cover 15 is held closed by a lever 18, which is pivotably mounted on an arm = g attached to the mine = o, the lever being secured by a pawl 2o reaching behind a nose 21. The lever 18 is connected to a piston 22 resiliently mounted within the cover. The free leg 23 of the pawl 2o is provided with a guide 24 for the rod 25 attached on the other hand to the arm 19. A weight 26 having a conical bore 27 is slidable along the rod 25. A U-shaped hook 28 attached to the weight 26 sits with its free end on the tapered end 29 of the rod 25. A disc-shaped raft 30 is on placed the hook 28 in such a way that its surface is just below the surface of the water 14. As is easy to see, when an object floating in the water, for example by the boat Fig. Ir, touches the raft 3o, this will bring the hook 28 out of its rest position and thus cause the weight 26 to fall down along the rod 25. As a result, the free leg 23 of the locking peg 2o is pressed down and the latter is triggered, so that the cover is released.

The hollow mine io 'according to Fig. 2 also has an inlet valve ii' and anchoring chains 13 ', inside the mine io' is a locking disc 3z arranged. This is due to the overpressure inside the mine against the face of the neck 33 pressed and thereby closes the mine airtight. A pole 34, which carries a weight 35 that can slide on it, is connected to the disk 32. The weight 35 is provided with a conical bore 36 and rests with the free one End of its U-shaped hook 37 on the upper pointed end 38 of the rod 34 on. Somewhat above the mine io 'is a collecting disk 39 for the weight 35 intended. If the weight 35 is now touched from any right, then the end of the hook 37 resting on the pointed end 38 of the rod 34 from its Brought location. In this way, however, the weight 35 becomes able to slide down on the rod 34 until it hits the collecting disk 39. When the Weight on the collecting disk 39 opens the locking disk 32 and gives the enclosed pressure medium free. This flows out through the neck 33.

Fig. 3 shows a similar device. Type of round hollow mine io " a rod 34 'is attached by means of an arm 4o. A weight 35 'is again provided with a conical bore 36 'and has a hook 37', the free End on the tapered upper end 38 'of the rod 34' rests. Will the weight 35 'moved out of position, the hook 37' slides off the top of the rod 34 ' from, whereby rs on the rod 34 'down to the contact with the sleeve 4 = emotional. This sleeve goes at its deepest end into a cap 32 ', which is pressed against the neck 33 'by the overpressure inside the mine. A spring 42 connects the rod 34 'to the closure cap 32'. The mode of action the described device after releasing the weight from its rest position is the same as described with reference to Figs.

According to FIGS. 4, 5 and 6, the hollow mine 43 consists of two hemispheres 4 -, which are held together by a hinge 45. To keep the mine sunk under the surface of the water 48, a weight 46 is attached to the mine by means of a chain 47. In Fig. 4, an arm 49 for the pawl 50 is provided on one of the hemispheres 44. This engages behind the ring flanges 5i of the hemispheres. The rod 52 is articulated to the pawl 5o and carries at its upper end a ball 53 which is located somewhat below the surface of the water 48 in the position of use. In the mine 43, a pressure medium stretched above atmospheric pressure is enclosed. If the ball 53 is touched by an object crossing the water in the direction of the arrow, the pawl is released and the pressure medium flows out through the water.

The mine illustrated in Fig. 5 is of the same design as that shown in Fig. 4. On the L-arm 55 attached to a hemisphere of the mine a pawl 54 is pivotably mounted, while on its upper free leg 58 a rod 56 is articulated by means of a ball joint 57. At her lower one At the end of the rod 56 carries a U-piece 59, which is on the free end 6o of the pawl 54 rests. A ball 61 is arranged at the upper end of the rod 56. Will this touches an object floating in water and thus the rod 56 moves, the arm 6o is pressed down, whereby the pawl the ring flange 63 releases and the pressure medium flows out of the mine.

In Fig. 6, the mine 43 is also with a pawl, as just above described, provided. This is rotatable about an arm 63 of the mine 43, while the Rod 64 is pivotable about a pivot point 65. The bullet gets hit by one in the water floating object touches in the direction of the indicated arrow, so is the rod 64 to fall about the pivot point 65 around. The side hammer 67 of the rod 64 hits the anvil 68 of the free end 6o of the pawl 54. This will thus released from its closed position and the pressure medium flows out through the Water.

FIG. 7 shows a hollow mine 69 which has an open bottom at the bottom and a neck 71 at the top. The neck 7.1 is held closed by a rod 74 by means of a cover 7z which has an opening spring 73. It is easy to see that when the mine, which is closed at the top, is sunk, the air in it is compressed by the counterpressure of the water. In this submerged state, the mine 69 is held by weights 75 which are articulated by means of chains 76. If the rod 74 is touched, the cover 72 is released. With the cooperation of the spring 73, the cover 72 is opened and the enclosed air flows out.

Fig. 8 shows a similar device. An inverted bell-shaped mine 77 has an axially continuous rod 78. When the mine is sunk, the air in it is in turn compressed by the counterpressure of the water. The lower end of the rod 78 located inside the mine carries a disk 8o to which a weight 81, which rests on the bottom 82 of the basin, is fastened by means of cords 79. A stop piece 84 is provided at the upper free end of the rod 78. A displaceable weight 85 acting as a regulating device holds the mine in its operative position. If the stop 84 is touched in any direction, the equilibrium of the mine 77 is disturbed, as a result of which part of the air compressed in the mine escapes. If the deflection of the rod 78 is greater, the mine 77 is overturned completely and all air flows out.

Fig. G shows the applicability of further means for overturning the mine 77. A round weight 86 is slidably arranged on the rod 87 formed in a double curve. The free end of the hook 88 of the weight 86 rests on the upper pointed end 89 of the rod 87. If the weight on the rod 87 is brought out of its position, it slides down to the lower curve part go of the rod 87. The blow applied to this point (go) overturns the mine and the air escapes through the water.

The lead according to Fig. Io consists of a tubular barrel g =, a tightly fitting piston 92 and a piston rod 93. A spring 94 comprises the rod 93. The spring is tensioned when the piston 97, in the vicinity of the cylinder base 95 is located. A pawl 96 fastened to the bottom 95 of the cylinder g = engages in a recess 97 of the rod 93 when the spring 94 is tensioned. At the upper end of the cylinder gi, a swingable cover 98 is provided for closing the neck 9g. A pawl, which can also swing, is articulated on the cover 98 and holds it closed by engaging behind a nose. The mine is on chains = o2 under the surface of the water, as previously described, under anchor. When the rod 93 is released by retracting the pawl 96 , the spring 94 will drive the piston 92 upward and compress the air in the cylinder. An L-iron 103 is attached to the upper side of the piston 92. If the piston is driven upward so far that one leg of the L-iron 103 touches the free end 104 of the pawl, the pawl is released from engagement with the nose, and the trapped air is forcefully the cover 98 to open. This allows the air to escape through the water. The pawl 96 is provided with a pull cord = o5 which can be operated from any point. The pawl 96 can be triggered by a device of the type previously described.

Fig.i = represents an overall arrangement of the subject matter of the invention. At the bottom log of a basin io7 there is a modified type of mine = o8, which extends raw into the water with its outflow opening. Through the inlet valve iii the mine = o8 is supplied with the pressure medium. The opening means is in shape a rod bearing a ball 113 at its upper end = i2 at the moment as it is triggered by a ship 31. By ascending the Air is stirred up the water, and the ship 31 is violently caused to dangle or even be overthrown.

The application of the invention to a torpedo is shown in FIG. This consists of a bullet-like hollow body 113 with a rudder = i4 at one end. Inside the hollow body 113 there is water = i5 and compressed air. The water is supplied through an inlet connection 116, the air through the inlet valve = i7. The outer end iig of the torpedo is closed by a cover 118 by means of a lever mo. The lever z2o in turn is secured by a pawl izi that engages behind a nose 122. The free end of the pawl i22 merges into an angle arm 123 . If the angle arm z23 finds resistance when the torpedo moves forward through the water, the pawl is released and the compressed air flows out through the water. The drive of the torpedo works as follows: A tube 124 is arranged below the filled water 115 in the interior of the torpedo in such a way that it extends through the wall of the torpedo into the surrounding liquid. At . At its protruding end it has a closing valve. If this is opened after the torpedo has been sunk, the water 115 within the torpedo is expelled from the tube 124 by the overpressure prevailing there. The back pressure of the displaced water, however, will propel the torpedo forward in a straight line. If this self-propelled toy comes with any resistance during its ride through the water, e.g. B. the tub wall, in contact, its automatic triggering means are unlocked and the explosion effect, which has been repeatedly described, generated.

When using compressed air as a pressure medium could the devices for replenishing the air can also be built into the body itself. Such a device is shown in Fig. 13, in which a mine 130 with an air pump r31 is provided. This is stored within the hollow body and known Way to actuate by the piston 132. Anchor chains 133 indicate the arrangement of the Mine below the surface of the washer. A lid 134 holds by means of a Lever 135 closed the mine. The lever 135 is secured by a pawl 136 secured. Any of those previously described could be used to release the shutter or similar automatic means may be used. In the drawing there is a trigger illustrated by hand. This consists of a movable tube 138 Push wire 137, as it is widely used to trigger camera shutters. Triggering could just as well be done pneumatically or electrically let it happen.

Fig. 14 to 16 show a torpedo 139, which is also with an air pump is provided. This is stored at the rear end of the torpedo and is operated by means of a piston. The rear end of the torpedo is at the same time designed as a handle for the piston rod 141. On the outside are in the Located near the front end 144 rudder 143, the torpedo during diving affect the forward movement. The neck 144 is using a seal 146 closed by means of the cover 145. The lid 145 is held by one finger 149 supporting lever 148 held closed. The lever is around one on the neck 144 attached frame 147 pivoted and is vertical in the closed position. If the lever 148 comes in with any object while driving through the water Contact, the cover 145 is released, and the pressure medium within the Torpedoes opens cover 145 and flows out through the water.

The shapes described above and illustrated in the drawing of the subject matter of the invention are only exemplary embodiments and can be varied Changes are subject to without the claimed spirit and purpose of the invention to change.

Claims (4)

PATEN T APPLICATIONS: 1. Water toys with enclosed pressure medium which can be brought to discharge under the water, characterized in that an outflow opening, which is generally kept closed, is released by lightly touching its closure members or the transmission medium connected to them, so that the pressure medium escapes explosively and flinging away adjacent amounts of water. 2. Water toy according to claim 1, characterized in that the Triggering of the locking organs is brought about by relay-like acting means. 3. Water toy according to claim 1 or 2, characterized in that the transmission means the closure member is arranged in an unstable equilibrium. 4. Water toys according to claim 1 or 2, characterized in that the release of the closure members takes place by a lever, the force arm of which is a multiple of the load arm.