US995794A - Floating mine. - Google Patents
Floating mine. Download PDFInfo
- Publication number
- US995794A US995794A US54775010A US1910547750A US995794A US 995794 A US995794 A US 995794A US 54775010 A US54775010 A US 54775010A US 1910547750 A US1910547750 A US 1910547750A US 995794 A US995794 A US 995794A
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- mine
- water
- coupling
- pressure
- hydrostatic
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 37
- 230000008878 coupling Effects 0.000 description 32
- 238000010168 coupling process Methods 0.000 description 32
- 238000005859 coupling reaction Methods 0.000 description 32
- 230000002706 hydrostatic effect Effects 0.000 description 27
- 238000004804 winding Methods 0.000 description 18
- 230000000694 effects Effects 0.000 description 2
- 238000004880 explosion Methods 0.000 description 2
- 241001474374 Blennius Species 0.000 description 1
- 230000001133 acceleration Effects 0.000 description 1
- 230000006835 compression Effects 0.000 description 1
- 238000007906 compression Methods 0.000 description 1
- 210000005069 ears Anatomy 0.000 description 1
- 239000002360 explosive Substances 0.000 description 1
- 239000004744 fabric Substances 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000002040 relaxant effect Effects 0.000 description 1
Images
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F03—MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
- F03B—MACHINES OR ENGINES FOR LIQUIDS
- F03B13/00—Adaptations of machines or engines for special use; Combinations of machines or engines with driving or driven apparatus; Power stations or aggregates
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F03—MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
- F03B—MACHINES OR ENGINES FOR LIQUIDS
- F03B17/00—Other machines or engines
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F42—AMMUNITION; BLASTING
- F42B—EXPLOSIVE CHARGES, e.g. FOR BLASTING, FIREWORKS, AMMUNITION
- F42B22/00—Marine mines, e.g. launched by surface vessels or submarines
- F42B22/10—Moored mines
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/20—Hydro energy
Definitions
- This invention relates to improvements in floating mines for seas or rivers which are anchored so as to float at a predetermined level below the surface of the water.
- the principal object of this invention is to insure that the mine shall be maintained within a certain allowable deviation from the normal level.
- one hydrostatic device is employed for controlling the supply of energy for winding up the cable and a second independent hydrolstatic device for coupling and uncoupling the cable-drum.
- I employ for example a plurality of water motors with a coupling to each motor adapted to operate in one direction of rotation only, so that in case one or more motors are stopped by floating objects the remaining motors may be serviceable.
- a further object is to accelerate the second half of the movement of the controlling element of the hydrostatic device in one direction by energy stored up by the first half of said movement.
- Another object is to prevent the entrance of refuse into the water chamber of the hydrostatic device and to minimize the influence upon the controlling element of sudden changes of pressure due to wave movements or explosions in the neighborhood, while at the same time permitting a rapid exhaust of water from said chamber.
- a still further object is to continually store up energy derived from movement of the water motors, so that this stored energy may be utilized during periods of slack tides or temporary diminution in the flow of water, to wind up the cable.
- Figure 1 is a partial vertical longitudinal section of a mine constructed in accordance with the present invention
- Fig. 2 is a broken longitudinal section taken at right angles to Fig. 1
- Fig. 3 is an end view
- Fig. t a section to an enlarged scale of one of the Specification of Letters Patent.
- Fig. 5 a broken longitudinal section showing a modification of the driving gear
- Fig. 6 a section, to a still further enlarged scale, of the inlet plug in the outer Wall of the hydrostatic chamber.
- the mine constructed in accordance with the present invention is preferably given the form of a torpedo and provided at the stern with rigid rudders j and a plurality of propellers a symmetrically arranged with respect to their longitudinal axes around the axis of the mine and adapted to be impelled by the motion of the water.
- the movement of each of the propellers a is transmitted through a shaft b provided with a coupling c adapted to operate in one direction of rotation only and a pinion d gearing with a spur wheel e mounted on a main shaft f which passes through the chamber for the explosive charge a.
- the object of the coupling c on each shaft l) is to insure the continuous movement of the remaining shafts in case one of the propellers may be stopped by sea-weed or other floating objects.
- the movement of the main shaft f is transmitted to a counter shaft z' by bevel or miter-gear wheels g, 7L.
- a pinion L' which can be connected to the shaft z' by a sliding coupling 00.
- the pinion 7c is adapted to gear with a wheel Z and upon the spindle of this wheel is mounted a pinion adapted to gear with a wheel m mounted on a spindle a of a drum 0 upon which the anchor-cable is wound after passing over an idle pulley g.
- the spindle a is suitably mounted in watertight bearings in an appropriate water chamber formed by a shield p.
- the main shaft f is provided with a' locking device, which, as shown, consists of a notched wheel y mounted on said shaft, and a pivoted locking lever o adapted to engage in the notches of the wheel y.
- the setting at the normal depth of the mine, which is anchored in the usual way to the seaor river-bed, is attained by means of two independent hydrostatic devices, r, s.
- the moving element or diaphragm t of the device r is adapted to operate the locking lever o, while the diaphragm u of the device s operates the coupling by means of a double-armed lever fw.
- the function of the arrangement is as follows :-The diaphragms t and a are so arranged, that the locking lever o and the coupling are thrown into gear when the mine is at the normal depth and since all movement of the winding drum f is thereby stopped, the mine is maintained at this level within a certain allowable deviation. lVhen however a fall in the level of Water takes place, so that the mine is too high, then the locking lever o is withdrawn as a result of the dilninished hydrostatic pressure upon the diaphragm t, thereby unlocking the winding and propeller gear.
- the diaphragm u will be influenced by the increased hydrostatic pressure in such a manner, that the coupling will be moved out of gear with the pinion 7c thus breaking the connection between the main shaft f and the drum shaft u so that the winding drum is free to revolve, so as to slack out the cable and thus permit the mine to rise.
- the coupling :c is again closed by the diaphragm u owing to the diminution in the pressure of the water so that, since the main shaft f is held locked by the diaphragm t, the mine is again secured at the normal depth.
- the diaphragms each operate in conjunction with snap-springs.
- the snap-springs are arranged or operated in such a manner, that when one of the diaphragms under the influence of the increaseordecrease in the pressure of the water has been moved through approximately half of its stroke and the full amount of energy has been stored up in the snap-springs, any slight further movement of the diaphragm in the same direction will permit the snap-springs to extend themselves rapidly and accelerate the movement of the diaphragm to complete the stroke.
- Fig. 4 of the accompanying drawing such an arrangement appropriate for use with both the diaphragms is shown diagrammatically as applied to the hydrostaticdevice s.
- the pressure of a spiral spring 7 threaded over a spindle 6 connected by an adjusting screw 5 to the plate u is arranged to oppose the hydrostatic pressure the resistance of the spring to compression being equal, or almost equal, to the hydrostatic pressure when the mine is within the allowable deviation, and the lever w of the coupling a being connected to the spindle 6 so as to normally hold the coupling a' in engagement.
- the spring 7 abuts at one end against the end wall 9 of the casing and at the other end against a plate 8 secured on the spindle 6.
- the plate S is provided with side ears 12 in which are pivoted rods 13, 14 provided with shoulders 17, 18 and sliding in cylinders 15, 16 provided at their outer ends with caps which, are connected by side-straps to fixed pivots 19, 20 on a transverse bracket 21 secured to the casing.
- Springs 10, 11 are threaded over the cylinders 15, 16 so that they abut at one end against the caps and at the other end against the shoulders 17, 18.
- the increased pressure on the diaphragm 'a overcomes the resistance of the spring 7 and the spindle 6 is raised, thus operating the coupling lever fw and raising the'pivots of the rods 13, 14 and therefore compressing the springs 10, 11 until the centers of the three pivots are in line.
- the resistance of its spring 7 being'of course somewhatless than the hydrostatic pressure when the mine is at normal depth, so that at this depth its resistance is overcome and t-he locking lever v thereby put in engagement with the wheel y, the spring relaxing and withdrawing the lever /U when the mine lies above the normal depth and thereby putting the propellers into gear with the winding drum, so as to cause the cable to be taken up until the mine is again at the normal depth.
- the inlet for the waterto this chamber is provided in a plug 23 screwed into the outer wall 22 of the mine.
- the outer end of the passage in the plug' is 'protected by a finely perforated plate 24, while the inner end opens into an 102A AMMUNITION AND lr EXWLSIVE DEVICES enlarged chamber protected by two layers of filter cloth 25 with an intermediate plate 26 permitting the passage of water.
- the wall of the mine is provided with a return valve 27 opening outward.
- the propeller shafts are utilized to operate an accumulator here shown in the form of a spring drum.
- the spur wheel e is not keyed upon the main shaft f but is secured to the drum 2 so that as the propellers rotate the spring l is wound up and always maintained in a state of tension by the movement periodically imparted to the propellers.
- the shaft f in this arrangement is connected with the normally wound spring l, so that the winding drum is rotated by the spring 1 when the locking lever QJ is thrown out of gear and the coupling m is thrown into gear as already described.
- a second hydrostatic device adapted to close said coupling when the mine is at said normal level and to open said coupling when the mine falls below said normal level.
- a spring opposing said water pressure means for storing up energy developed by the first half of the movement of said element in one direction, means for utilizing said energy to accelerate the second half of said movement of said element, means connecting the element of one of said hydrostatic devices to said locking device so that when the pressure of the corresponding spring predominates said main shaft is unlocked and is locked when the pressure of the water predominates, means for connecting the element of the other of said hydrostatic devices with said coupling so that when the pressure of the spring predominates the main shaft is coupled to the drum, and when the pressure of the water predominates the connection between said main shaft and said drum is severed, a water inlet to said chamber, a filter in said water inlet, and a valve in said chamber adapted to permit of the exhaust only of Water from said chamber.
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- Other Liquid Machine Or Engine Such As Wave Power Use (AREA)
Description
A. LBRNET.
FLOATING MINE. APPLICATION FILED MAR. 7, 1910.
Patented June 20,1911.
r w WEMUNI'IIUN AND EXELOSIVE DEVICES A. LBRNET.
FLOATING MINE.
APPLIGATION FILED MAR. 7, 1910.
rus Nomar: ans co.. wAsmNcroN. 1.1,:4
UNITED STATES PATENT OFFICE.
ALEXANDER LERNET, OF VIENNA, AUSTRIA-HUNGARY.
FLOATING MINE.
To all whom it 'may concern:
Be it known that I, ALEXANDER LERNET, a subject of the Emperorl of Austria-Hungary, and resident of Vienna, in the Empire of Austria-,Hungary have invented certain new and useful Improvements in Floating Mines, of which the following is a specification.
This invention relates to improvements in floating mines for seas or rivers which are anchored so as to float at a predetermined level below the surface of the water.
The principal object of this invention is to insure that the mine shall be maintained within a certain allowable deviation from the normal level. For this purpose one hydrostatic device is employed for controlling the supply of energy for winding up the cable and a second independent hydrolstatic device for coupling and uncoupling the cable-drum.
In carrying my invention into effect I employ for example a plurality of water motors with a coupling to each motor adapted to operate in one direction of rotation only, so that in case one or more motors are stopped by floating objects the remaining motors may be serviceable.
A further object is to accelerate the second half of the movement of the controlling element of the hydrostatic device in one direction by energy stored up by the first half of said movement.
Another object is to prevent the entrance of refuse into the water chamber of the hydrostatic device and to minimize the influence upon the controlling element of sudden changes of pressure due to wave movements or explosions in the neighborhood, while at the same time permitting a rapid exhaust of water from said chamber.
A still further object is to continually store up energy derived from movement of the water motors, so that this stored energy may be utilized during periods of slack tides or temporary diminution in the flow of water, to wind up the cable.
This invention is illustrated by way of example in the accompanying drawings, in which:
Figure 1 is a partial vertical longitudinal section of a mine constructed in accordance with the present invention, Fig. 2 is a broken longitudinal section taken at right angles to Fig. 1, Fig. 3 is an end view, Fig. t a section to an enlarged scale of one of the Specification of Letters Patent.
Application filed. March 7, 1910.
Patented June 20, 1911.
Serial No. 547,750.
hydrostatic devices, Fig. 5 a broken longitudinal section showing a modification of the driving gear, and Fig. 6 a section, to a still further enlarged scale, of the inlet plug in the outer Wall of the hydrostatic chamber.
The mine constructed in accordance with the present invention is preferably given the form of a torpedo and provided at the stern with rigid rudders j and a plurality of propellers a symmetrically arranged with respect to their longitudinal axes around the axis of the mine and adapted to be impelled by the motion of the water. The movement of each of the propellers a is transmitted through a shaft b provided with a coupling c adapted to operate in one direction of rotation only and a pinion d gearing with a spur wheel e mounted on a main shaft f which passes through the chamber for the explosive charge a. The object of the coupling c on each shaft l) is to insure the continuous movement of the remaining shafts in case one of the propellers may be stopped by sea-weed or other floating objects.
The movement of the main shaft f is transmitted to a counter shaft z' by bevel or miter-gear wheels g, 7L. On the shaft z' is freely mounted a pinion L' which can be connected to the shaft z' by a sliding coupling 00. The pinion 7c is adapted to gear with a wheel Z and upon the spindle of this wheel is mounted a pinion adapted to gear with a wheel m mounted on a spindle a of a drum 0 upon which the anchor-cable is wound after passing over an idle pulley g. The spindle a is suitably mounted in watertight bearings in an appropriate water chamber formed by a shield p. The main shaft f is provided with a' locking device, which, as shown, consists of a notched wheel y mounted on said shaft, and a pivoted locking lever o adapted to engage in the notches of the wheel y.
The setting at the normal depth of the mine, which is anchored in the usual way to the seaor river-bed, is attained by means of two independent hydrostatic devices, r, s. The moving element or diaphragm t of the device r is adapted to operate the locking lever o, while the diaphragm u of the device s operates the coupling by means of a double-armed lever fw.
The function of the arrangement is as follows :-The diaphragms t and a are so arranged, that the locking lever o and the coupling are thrown into gear when the mine is at the normal depth and since all movement of the winding drum f is thereby stopped, the mine is maintained at this level within a certain allowable deviation. lVhen however a fall in the level of Water takes place, so that the mine is too high, then the locking lever o is withdrawn as a result of the dilninished hydrostatic pressure upon the diaphragm t, thereby unlocking the winding and propeller gear. Under the influence of the movement of the water the propellers a rotate and the winding drum is caused to revolve, so that the anchorcable is thus wound up and the mine drawn down in consequence. lVhen the mine has arrived at the normal depth, the increased hydrostatic pressure upon the diaphragm t causes the locking arm fu to be again thrown `into gear, so that the winding drum is again stopped and the mine held at the correct depth below the level of the water. Then the level of the water is raised, so that the mine remains at too great a depth, the diaphragm u will be influenced by the increased hydrostatic pressure in such a manner, that the coupling will be moved out of gear with the pinion 7c thus breaking the connection between the main shaft f and the drum shaft u so that the winding drum is free to revolve, so as to slack out the cable and thus permit the mine to rise. Vhen the mine has returned to normal level, the coupling :c is again closed by the diaphragm u owing to the diminution in the pressure of the water so that, since the main shaft f is held locked by the diaphragm t, the mine is again secured at the normal depth.
In order to insure the completion of the reversing movement of the coupling a2 and of the locking lever o by the diaphragms t, u in an ei'licient and rapid manner, when the mine has passed the deviation allowed, the diaphragms each operate in conjunction with snap-springs. The snap-springs are arranged or operated in such a manner, that when one of the diaphragms under the influence of the increaseordecrease in the pressure of the water has been moved through approximately half of its stroke and the full amount of energy has been stored up in the snap-springs, any slight further movement of the diaphragm in the same direction will permit the snap-springs to extend themselves rapidly and accelerate the movement of the diaphragm to complete the stroke.
In Fig. 4 of the accompanying drawing such an arrangement appropriate for use with both the diaphragms is shown diagrammatically as applied to the hydrostaticdevice s. The pressure of a spiral spring 7 threaded over a spindle 6 connected by an adjusting screw 5 to the plate u is arranged to oppose the hydrostatic pressure the resistance of the spring to compression being equal, or almost equal, to the hydrostatic pressure when the mine is within the allowable deviation, and the lever w of the coupling a being connected to the spindle 6 so as to normally hold the coupling a' in engagement. The spring 7 abuts at one end against the end wall 9 of the casing and at the other end against a plate 8 secured on the spindle 6. The plate S is provided with side ears 12 in which are pivoted rods 13, 14 provided with shoulders 17, 18 and sliding in cylinders 15, 16 provided at their outer ends with caps which, are connected by side-straps to fixed pivots 19, 20 on a transverse bracket 21 secured to the casing. Springs 10, 11 are threaded over the cylinders 15, 16 so that they abut at one end against the caps and at the other end against the shoulders 17, 18. Upon the mine sinking to a greater depth, the increased pressure on the diaphragm 'a overcomes the resistance of the spring 7 and the spindle 6 is raised, thus operating the coupling lever fw and raising the'pivots of the rods 13, 14 and therefore compressing the springs 10, 11 until the centers of the three pivots are in line. After this central position has been reached, a slight increase in the hydrostatic pressure will raise the pivot of the rods 13, 14 above the level of the fixed pivots 19, 20. The two components of the pressures of the springs 10, 11 then lie in the axis ofthe diaphragm spindle, and in a direction to produce a sudden acceleration in the movement of the diaphragm into the extreme reversed position shown in dotted lines in which the lever w is moved sufficiently to completely open the coupling w. Upon a decrease in hydrostatic pressure the movements of the several parts are reversed. A similar device to that shown in F ig. 4 is also preferably provided in connection with the hydrostatic device 1, the resistance of its spring 7 being'of course somewhatless than the hydrostatic pressure when the mine is at normal depth, so that at this depth its resistance is overcome and t-he locking lever v thereby put in engagement with the wheel y, the spring relaxing and withdrawing the lever /U when the mine lies above the normal depth and thereby putting the propellers into gear with the winding drum, so as to cause the cable to be taken up until the mine is again at the normal depth.
In order to minimize the effect upon the diaphragm of sudden changes in pressure due for example to an explosion in the neighborhood or to the movement of waves upon the surface of the water and to prevent entrance of refuse into the water chamber the inlet for the waterto this chamber, as shown in detail in Fig. 6, is provided in a plug 23 screwed into the outer wall 22 of the mine. The outer end of the passage in the plug'is 'protected by a finely perforated plate 24, while the inner end opens into an 102A AMMUNITION AND lr EXWLSIVE DEVICES enlarged chamber protected by two layers of filter cloth 25 with an intermediate plate 26 permitting the passage of water. On the other hand, to permit of the rapid exhaust of the water from the water chamber when the diphragins are rapidly reversed from the position corresponding for example to `an increase in pressure to that corresponding to a diminution in pressure, the wall of the mine is provided with a return valve 27 opening outward.
In the case of both sea-mines and tidal river-inines, which are not constantly, but only periodically exposed to the iniuence of flowing water, provision must be made that the force to which the propellers are periodically subjected shall be correspondingly accumulated so that it can beiutilized in case of need for the movement of the winding drum. In such cases, as shown diagrammatically in F ig. 5, the propeller shafts are utilized to operate an accumulator here shown in the form of a spring drum. In such a case the spur wheel e is not keyed upon the main shaft f but is secured to the drum 2 so that as the propellers rotate the spring l is wound up and always maintained in a state of tension by the movement periodically imparted to the propellers. The shaft f in this arrangement is connected with the normally wound spring l, so that the winding drum is rotated by the spring 1 when the locking lever QJ is thrown out of gear and the coupling m is thrown into gear as already described.
I claim l. In a floating mine, the combination with an anchor, a cable for said anchor, a winding drum for said cable and driving gear operated by the flow of water for driving said drum so as to wind up the cable; of means for locking said gear and drinn when the mine is at the normal depth and means for maintaining the mine Within a certain allowable deviation from said normal depth, comprising a device for operating said locking means to unlock said drum and enable the cable to be wound up when the mine rises, said device being actuated by the decrease in hydrostatic pressure, means for uiicoupling said drum from said driving gear, so as to enable the cable to be paid out, and a second device for operating said uncoupling means, said second device being actuated by the increase in hydrostatic pressure when the mine falls below the normal depth.
2. In a. floating mine, the combination with an anchor, a cable for said anchor and a winding drum for said cable, of a plurality of motors operated by a fiow of water, gearing connecting said motors with said winding drum, a loose coupling in said gearing, a locking device arranged between said motors and said coupling and adapted in lockto move said locking device :into locking position when the mine is approximately at the desired normal level and to move said locking device into open7 position when.
the mine rises above said normal level, and a second hydrostatic device adapted to close said coupling when the mine is at said normal level and to open said coupling when the mine falls below said normal level.
3. In a floating mine, the combination with an anchor, a cable for said anchor, and a winding drum for said cable, of a plurality of motors operated by a flow of water, gearing connecting said motors with said winding drum, a loose coupling in said gearing adapted to operate in one direction of rotation only, a locking device arranged between said motors and said coupling and adapted in locking7 position to lock said gearing and 'in open7 position to permit the rotation of said gearing, a one-way coupling between each of said motors and said locking device adapted to operate in one direction of rotation only, a hydrostatic device adapted to move said locking device into locking position when the mine is approximately at the desired normal level, and to move said locking device into open7 position when the mine rises above said normal level, and a second hydrostatic device adapted to close said loose coupling when the mine is at said normal level and to open said loose coupling when the mine falls below said normal level.
4L. In a floating mine, the combination with an anchor, a cable for said anchor and a winding drum for said cable,` of a plurality of motors operated by a How of water, gearing connecting said motors with said winding drum, a loose coupling in said gearing adapted to operate in one direction of rotation only, a locking device arranged between said motors and said coupling, and adapted in locking position to lock said gearing and in open position to permit the rotation of said gearing, a hydrostatic device adapted to move said locking device into locking position when the mine is approximately at the desired normal level and to move said locking device into open position when the mine rises above said normal level, a second hydrostatic device adapted to close said coupling when the mine is at said normal level and to open said coupling when the line falls below said normal level, an accumulator for storing up the energy developed by said motors and means for connecting said accumulator to said gearing on the motor side of said locking device.
5. In a floating mine, the combination with an anchor, a cable for said anchor and a Winding drum for said cable, ofa plurality of motors operated by a flow of water, a driving shaft for each of said motors, a main shaft, gearing connecting each of said driving shafts to said main shaft, a coupling adapted to operate in one direction of rotation only in each of said driving shafts, a locking device for said main shaft, gearing between said drum and said main shaft, a loose coupling between said main shaft and said drum, two independent hydrostatic devices each comprising a moving element eX- posed on one side to the pressure of the water, a spring opposing said water pressure, means for storing up energy developed by the first half of the movement of said element in one direction, and means for utilizing said energy to accelerate the second half of said movement of said element, means connecting the element of one of said hydrostatic devices to said locking device so that when the pressure of the corresponding spring predominates said main shaft is unlocked and is locked when the pressure of the water predominates, and means for connecting the element of the other of said hydrostatic devices with said coupling, so that when the pressure of the spring predominates the main shaft is coupled to the drum, and When the pressure of the water predominates the connection between said main shaft and said drum is severed.
6. In a floating mine, the combination with an anchor, a cable for said anchor and a winding drum for said cable, of a plurality of motors operated by a flow of water, a driving shaft for each of said motors, a
. to the pressure of the water in said chamber,
a spring opposing said water pressure, means for storing up energy developed by the first half of the movement of said element in one direction, means for utilizing said energy to accelerate the second half of said movement of said element, means connecting the element of one of said hydrostatic devices to said locking device so that when the pressure of the corresponding spring predominates said main shaft is unlocked and is locked when the pressure of the water predominates, means for connecting the element of the other of said hydrostatic devices with said coupling so that when the pressure of the spring predominates the main shaft is coupled to the drum, and when the pressure of the water predominates the connection between said main shaft and said drum is severed, a water inlet to said chamber, a filter in said water inlet, and a valve in said chamber adapted to permit of the exhaust only of Water from said chamber.
In witness whereof I have hereunto set my hand in the presence of two witnesses.
ALEXANDER LERNET.
Witnesses AUGUST FUGGER, FRANZ VOGLER.
Copies of this patent may be obtained for ve cents each, by addressing the Commissioner of Patents, Washington, D. C.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US54775010A US995794A (en) | 1910-03-07 | 1910-03-07 | Floating mine. |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US54775010A US995794A (en) | 1910-03-07 | 1910-03-07 | Floating mine. |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| US995794A true US995794A (en) | 1911-06-20 |
Family
ID=3064126
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| US54775010A Expired - Lifetime US995794A (en) | 1910-03-07 | 1910-03-07 | Floating mine. |
Country Status (1)
| Country | Link |
|---|---|
| US (1) | US995794A (en) |
-
1910
- 1910-03-07 US US54775010A patent/US995794A/en not_active Expired - Lifetime
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