US985179A - Gun-carriage. - Google Patents

Gun-carriage. Download PDF

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Publication number
US985179A
US985179A US53972510A US1910539725A US985179A US 985179 A US985179 A US 985179A US 53972510 A US53972510 A US 53972510A US 1910539725 A US1910539725 A US 1910539725A US 985179 A US985179 A US 985179A
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wheel
wheels
carriage
bevel
gun
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US53972510A
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Norbert Koch
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Krupp Stahl AG
Fried Krupp AG
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Krupp Stahl AG
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F41WEAPONS
    • F41AFUNCTIONAL FEATURES OR DETAILS COMMON TO BOTH SMALLARMS AND ORDNANCE, e.g. CANNONS; MOUNTINGS FOR SMALLARMS OR ORDNANCE
    • F41A23/00Gun mountings, e.g. on vehicles; Disposition of guns on vehicles
    • F41A23/28Wheeled-gun mountings; Endless-track gun mountings

Definitions

  • the present invention relates to gun carriages and is an improvement on the gun carriage forming the subject matter of my U. 6. Letters Patent No. 912,135 of par v 9, 1909.
  • Figure l is a side view partly in section, of a gun carriage, one wheel being broken away. and the other wheel being in the position for travel;
  • Fig. 2 is a top view of F 1;
  • Fig. 3 is a view corresponding to Fig. 2, but partly in section and showing the wheels in the training position;
  • Fig. l is a section on line et-eh Fig. l, on an enlarged scale and looking from above, and
  • Fig. 5 is a section on line 55, Fig. i, on an enlarged scale.
  • A indicates the carriage-body which has its trail provided with a spade B, which can rotate about a vertical axis.
  • the hollow wheel-axle C is secured in the other end of the carriagebody A.
  • the ends of the axle terminate in bifurcated pieces C between which the journals D are mounted to swing in a horizontal plane through the medium of trunnions D (see especially Fig. 5).
  • the trunnions D of the journals are retained in position by means of covers C which are inserted over the pieces C and secured in position by means of screws C
  • the carriage-wheels E and E are journaled. in the journals D, by means of trunnions E To the lower trunnion D of each journal D is rigidly secured an arm F.
  • the arms F are connected with each other by means of a cross-bar F 1 which is jointed to the arms.
  • the cross-bar F is provided with two bores f" and 7' (Figs. 2- and 3).
  • a guide bracket (4 for the cross-bar F is provided on that wall of the carriage-body A which is toward the wheel E
  • the bracket a is provided with bores for a key-bolt G, which bores correspond to the bores f f. hen the bores in the bracket a register with the bore f in-the cross-bar F the carriage-wheels E Specification of Letters Patent.
  • the hollow axle C is enlarged at its ends. On that end of the axle C which is toward the wheel E is mounted a housing C (Figs. 1 to in which is journaled a worm H (Fig. This worm, which can be turned by means of a hand-wheel 72?, engages with a hollow worn'i-wheel. J (Fig. i) which is journaled in a member C secured in the axle.
  • a sleeve M which is rotatably mounted in the axle and which can be coupled to the worm-wheel J by means of a bolt- N, engages in the hollow space of the worm-wheel J.
  • a bevel-wheel gear (ditferential gear) which serves for transmitting rotation of the worm-wheel J and the sleeve M to the two carriage-wheels E and E when the latter are in the training position.
  • the bevel-wheel gear consists of three bevel-wheels J J and J
  • the bevel-wheel J 1 is rotatably mounted on the bolt X and meshes with both of the bevelwheels J and J".
  • a shaft J on which the bevelwheel J is non-rotatably secured is integral with a bevel-wheel J which meshes with a bevel-wheel P journaled in the member C
  • the bevel-wheel P is nonrotatably mounted on one end of a shaft P which carries on its other end a sprocket wheel P which is slidably but non-rotatably mounted on the shaft P
  • the sprocketwheel projects through an opening provided in the axle (l and is adapted to cooperate with a toothed crown E? (Figs. 3 and 4:) on the Qarriagewheel E when the latter is in the training position.
  • the shaft P of the wheels P and l? is inclined relative to the longitudinal axis of the axle C.
  • a helical spring P tends to hold the s n'ocket-wheel P in the position shown in Fig. at (the working position), in which position the sprocket-wheel abuts against a nut 72" screwed on the threaded end of the shaft P
  • the slidable arrangement of the sprocket-wheel P is for the purpose of permitting the sprocketwheel to yield in case a tooth on the toothed crown l E" should hit a tooth on the sprocket-wheel ,worm-wheel J to the carriage-wheel E is effected by means of the bevel-wheels J J and a shaft K on one end of which the bevel-wheel J is non-rotatably mounted.
  • the other end of the shaft K which is journaled in a bushing C in the axle, carries a bevelovheel S, which is non-rotatably connccted to the shaft K and which meshes with a hollow bevel-wheel R.
  • the bevelwheel R which corresponds to the bevelwheel P,is j ournaled in a member C secured in the axle.
  • a sprocket-wheel R is slidahly, but non-rotatably connected with a shaft R which is integral with the bevelwheel It.
  • the sprocket-wheel R which corresponds to the sprocketwheel P is under the action of a spring R which tends to hold it in the position shown in the drawings, in which the wheel R abuts against a nut r secured on the threaded end oi the sh at't R
  • the sprocket-wheel R serves for cooperating with a toothed crown E on the carriage-wheel E when the latter is in the training position.
  • the carrigge-wheels E and E assume the position shown. in Figs. 1 and 2, and they are held in this position by means of the arms F rigidly connected with the journals D, the cross-bar F and the key-bolt G inserted in the'bore f in the cross-bar and in the bores in the guide-bracket a
  • the key-bolt G is removed to break the connection between the guide bracket a? and the cross-bar F
  • the operator takes hold of one of the carriage-wheels E and E and swings it about the axis of the trunnion D until it reaches the training position (Fig.
  • the arm F and the cross-bar F cause the other carriage-wheel to partake of this movement.
  • the carriage-wheels are secured in position by the insertion of the key-bolt G in the bore f of the cross-bar and the bores of the guide-bracket a In this position (the training position), the
  • the turning of the worm H is partaken of by the worn'i-wheel J, which carries along the bolt N and the bevel wheel J located on thebolt N.
  • the bevel-wheel J 1 thereby carries out a movement about the common axis of the shafts K and J and imparts rotation to the bevel-wheels J and J which in turn transmit their movement through the parts K S R R and J" J P P of the gear to the sprocketwl1eels P and B so that the latter reach an angular position in which the springs P" and R cause them to snap into the toothed crowns E of the carriagewheels' If one of the sprocket-wheels 1?
  • a gain-carriage having a spade mounted to rotate about a vertical axis, carriagewheels mounted to swing about vertical axes to a training position, and driving mechanism adapted to engage bot-h of said wheels when they are in the training position for imparting rotation to the wheels; said mechanism being provided with a differential gear.
  • a gun-carriage having a spade mounted to rotate about a vertical axis, carriage wheels mounted to swing about vertical axes to a training position, and driving mechanism adapted to engage both of said wheels when they are in the training position for imparting rotation to the wheels; said mechanism being provided with a differential gear; said mechanism having its wheel-engaging parts slidable in such a manner as to permit them to yield when, on the carriage-wheels being swung into the training position, the teeth of the wheelengaging parts are incapable of entering into engagement with the carriage wheels.
  • a gun-carriage having a spade mounted to rotate about a vertical axis, carriagewheels mounted to swing about vertical axes to a training position, and driving mechanism adapted to engage both of said I the journals of said wheels, and a rod conwheels when they are in the training position for imparting rotation to the wheels; said mechanism being provided with a differential gear; said mechanism having its wheel-engaging parts slidable in such a manner as to permit them to yield when, on the carriage-wheels being swung into the training position, the teeth of the Wheelengaging parts are incapable of entering into engagement with the carriage wheels, and springs for subsequently effecting the engagement between the wheel-engaging parts and the carriage wheels.
  • a gun-carriage having a spade mount ed to rotate about a vertical axis, carriagewheels having journals and adapted to be swung about vertical arms from a traveling position to a training position, arms on necting said arms.
  • a gun-carriage having a spade mounted to rotate about a vertical axis, carriagewheels having journals and adapted to be swung about vertical axes from a traveling position to a training position, arms on the journals of said. wheels, and a rod connecting said arms, and means on the carriage for securing said rod in the traveling position and in the training position of the wheels.

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Gear Transmission (AREA)

Description

N. KOCH.-
GUN GARRIAGE.-
APPLICATION FILED JAN. 24, 1910.
985,179. Patented Feb. 28, 1911.'
' zsnnms-snnm 1.
I N. KOCH.
GUN CARRIAGE.
APPLICATION FILED 11.11.24, 1910.
Patented Feb.28, 1911.
2 SHBETSSHEET 2.
NORBERT KOCH, OF ESSEN-ONTHERUHR, GERMANY, ASSIGNOR T0 FRIED. KRUPP AKTIENGESELLSCHAFT, 0F ESSENON-THE-RUHR, GERMANY.
GUN-CARRIAGE.
To all whom it may concern:
Be it known that I, Nonnnn'r K001i, a subject of the Emperor of Germany, and a resident of Essen-on-the-Ruhr, Germany, have invented certain new and useful Improvements in Grun-Carriages of which the following is a specification.
The present invention relates to gun carriages and is an improvement on the gun carriage forming the subject matter of my U. 6. Letters Patent No. 912,135 of Februar v 9, 1909.
The accompanying drawings show an em bodiment of the invention. by way of example.
Figure l is a side view partly in section, of a gun carriage, one wheel being broken away. and the other wheel being in the position for travel; Fig. 2 is a top view of F 1; Fig. 3 is a view corresponding to Fig. 2, but partly in section and showing the wheels in the training position; Fig. l is a section on line et-eh Fig. l, on an enlarged scale and looking from above, and Fig. 5 is a section on line 55, Fig. i, on an enlarged scale.
A indicates the carriage-body which has its trail provided with a spade B, which can rotate about a vertical axis. The hollow wheel-axle C is secured in the other end of the carriagebody A. The ends of the axle terminate in bifurcated pieces C between which the journals D are mounted to swing in a horizontal plane through the medium of trunnions D (see especially Fig. 5). The trunnions D of the journals are retained in position by means of covers C which are inserted over the pieces C and secured in position by means of screws C The carriage-wheels E and E are journaled. in the journals D, by means of trunnions E To the lower trunnion D of each journal D is rigidly secured an arm F. The arms F are connected with each other by means of a cross-bar F 1 which is jointed to the arms. The cross-bar F is provided with two bores f" and 7' (Figs. 2- and 3). A guide bracket (4 for the cross-bar F is provided on that wall of the carriage-body A which is toward the wheel E The bracket a is provided with bores for a key-bolt G, which bores correspond to the bores f f. hen the bores in the bracket a register with the bore f in-the cross-bar F the carriage-wheels E Specification of Letters Patent.
Application filed January 24, 1910.
Patented Feb. 28, 1911.
Serial No. 539,725.
and E are in the traveling position (Figs. land 2) and when the bores in the bracket a register with the bore f the wheels are in the training position (Fig. The wheels can be secured in both of these positions by means of the key-bolt G.
The hollow axle C is enlarged at its ends. On that end of the axle C which is toward the wheel E is mounted a housing C (Figs. 1 to in which is journaled a worm H (Fig. This worm, which can be turned by means of a hand-wheel 72?, engages with a hollow worn'i-wheel. J (Fig. i) which is journaled in a member C secured in the axle. A sleeve M, which is rotatably mounted in the axle and which can be coupled to the worm-wheel J by means of a bolt- N, engages in the hollow space of the worm-wheel J. In the hollow spaces of the worm-wheel J and the sleeve M is arranged a bevel-wheel gear (ditferential gear) which serves for transmitting rotation of the worm-wheel J and the sleeve M to the two carriage-wheels E and E when the latter are in the training position. The bevel-wheel gear consists of three bevel-wheels J J and J The bevel-wheel J 1 is rotatably mounted on the bolt X and meshes with both of the bevelwheels J and J". A shaft J on which the bevelwheel J is non-rotatably secured is integral with a bevel-wheel J which meshes with a bevel-wheel P journaled in the member C The bevel-wheel P is nonrotatably mounted on one end of a shaft P which carries on its other end a sprocket wheel P which is slidably but non-rotatably mounted on the shaft P The sprocketwheel projects through an opening provided in the axle (l and is adapted to cooperate with a toothed crown E? (Figs. 3 and 4:) on the Qarriagewheel E when the latter is in the training position. For that purpose, the shaft P of the wheels P and l? is inclined relative to the longitudinal axis of the axle C. A helical spring P tends to hold the s n'ocket-wheel P in the position shown in Fig. at (the working position), in which position the sprocket-wheel abuts against a nut 72" screwed on the threaded end of the shaft P The slidable arrangement of the sprocket-wheel P is for the purpose of permitting the sprocketwheel to yield in case a tooth on the toothed crown l E" should hit a tooth on the sprocket-wheel ,worm-wheel J to the carriage-wheel E is effected by means of the bevel-wheels J J and a shaft K on one end of which the bevel-wheel J is non-rotatably mounted. The other end of the shaft K, which is journaled in a bushing C in the axle, carries a bevelovheel S, which is non-rotatably connccted to the shaft K and which meshes with a hollow bevel-wheel R. The bevelwheel R, which corresponds to the bevelwheel P,is j ournaled in a member C secured in the axle. A sprocket-wheel R is slidahly, but non-rotatably connected with a shaft R which is integral with the bevelwheel It. The sprocket-wheel R which corresponds to the sprocketwheel P is under the action of a spring R which tends to hold it in the position shown in the drawings, in which the wheel R abuts against a nut r secured on the threaded end oi the sh at't R The sprocket-wheel Rserves for cooperating with a toothed crown E on the carriage-wheel E when the latter is in the training position.
During the travel of the gun, the carrigge-wheels E and E assume the position shown. in Figs. 1 and 2, and they are held in this position by means of the arms F rigidly connected with the journals D, the cross-bar F and the key-bolt G inserted in the'bore f in the cross-bar and in the bores in the guide-bracket a After the gun has reached firing position and has been unlimbered, the key-bolt G is removed to break the connection between the guide bracket a? and the cross-bar F The operator then takes hold of one of the carriage-wheels E and E and swings it about the axis of the trunnion D until it reaches the training position (Fig. The arm F and the cross-bar F cause the other carriage-wheel to partake of this movement. Thereupon the carriage-wheels are secured in position by the insertion of the key-bolt G in the bore f of the cross-bar and the bores of the guide-bracket a In this position (the training position), the
axes of rotation of the carr1age-wheels intersect the axis of rotation of the spade B (Fig. 3
If the teeth on the sprocket-wheels P and R do not register with the gaps between the teeth of the toothed crowns E on the carriage-wheels when the wheels E and E are swung into the training position. the sprocket-wheels P and R will'be displaced on'their shafts P and R against the pressure of the springs P R The engagement of the sprocket-wheels P and R with the toothed crowns E might be effected by turning the carriage-wheels. However, this would require great expendi ture of force. The engagement is, therefore, more suitably effected by moving the gear in the wheel-axle by means of the hand-wheel 72. and the worm H. The turning of the worm H is partaken of by the worn'i-wheel J, which carries along the bolt N and the bevel wheel J located on thebolt N. The bevel-wheel J 1 thereby carries out a movement about the common axis of the shafts K and J and imparts rotation to the bevel-wheels J and J which in turn transmit their movement through the parts K S R R and J" J P P of the gear to the sprocketwl1eels P and B so that the latter reach an angular position in which the springs P" and R cause them to snap into the toothed crowns E of the carriagewheels' If one of the sprocket-wheels 1? R for instance P enters int-o engagement with its toothed crown E before the other sprocket-wheel R enters into engagement with its toothed crown E the gear between the bevel-wheel J and the sprocket-wheel 1? remains at rest during the further turning of the worm H, but the bevel-wheel J which is rotatable on the bolt N, rolls on the bevel-wheel J and carries the bevel-wheel J along until the sprocket-wheel R has also entered into engagement with its toothed crown E When this engagement has been effected, the required lateral training can be imparted to the carriage by turning the worm H. It need not be explained how the gear acts in that case.
Having thus described the invention, what is claimed and desired to be secured by Letters Patent is 1. A gain-carriage having a spade mounted to rotate about a vertical axis, carriagewheels mounted to swing about vertical axes to a training position, and driving mechanism adapted to engage bot-h of said wheels when they are in the training position for imparting rotation to the wheels; said mechanism being provided with a differential gear.
2. A gun-carriage having a spade mounted to rotate about a vertical axis, carriage wheels mounted to swing about vertical axes to a training position, and driving mechanism adapted to engage both of said wheels when they are in the training position for imparting rotation to the wheels; said mechanism being provided with a differential gear; said mechanism having its wheel-engaging parts slidable in such a manner as to permit them to yield when, on the carriage-wheels being swung into the training position, the teeth of the wheelengaging parts are incapable of entering into engagement with the carriage wheels.
3. A gun-carriage having a spade mounted to rotate about a vertical axis, carriagewheels mounted to swing about vertical axes to a training position, and driving mechanism adapted to engage both of said I the journals of said wheels, and a rod conwheels when they are in the training position for imparting rotation to the wheels; said mechanism being provided with a differential gear; said mechanism having its wheel-engaging parts slidable in such a manner as to permit them to yield when, on the carriage-wheels being swung into the training position, the teeth of the Wheelengaging parts are incapable of entering into engagement with the carriage wheels, and springs for subsequently effecting the engagement between the wheel-engaging parts and the carriage wheels.
i. A gun-carriage having a spade mount ed to rotate about a vertical axis, carriagewheels having journals and adapted to be swung about vertical arms from a traveling position to a training position, arms on necting said arms.
5. A gun-carriage having a spade mounted to rotate about a vertical axis, carriagewheels having journals and adapted to be swung about vertical axes from a traveling position to a training position, arms on the journals of said. wheels, and a rod connecting said arms, and means on the carriage for securing said rod in the traveling position and in the training position of the wheels.
The foregoing specification signed at- Barmen, Germany, this lth day of January, 1910.
NORBERT KOCH. [L. s] In presence of O'rTo KoNIG, \VILLY KLEIN.
Copies of this patent may be obtained for five cents each, by addressing the Commissioner of Patents, Washington, D. G.
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