US1875858A

US1875858A - Power transmitting mechanism

Info

Publication number: US1875858A
Application number: US432734A
Authority: US
Inventors: Max B A Doring
Original assignee: DORING Co Inc
Current assignee: DORING Co Inc; DORING COMPANY Inc
Priority date: 1930-03-03
Filing date: 1930-03-03
Publication date: 1932-09-06
Anticipated expiration: 1949-09-06

Description

Sept. 6, 1932. M. B. A. DORING POWER TRANSMITTING MECHANISM Filed March 3, 1930 Patented Sept. 6, 1932 UNETED sra'rss rem orr cs MAX B. A. nonrne, or BROOKLYN, NEW YORK, nssreivon TO :ooanveoonrnny, INQ,

on NEW YORK, n. Y., A oonroRALIoN' or new YORK POWER TRANSMITTING MECHANISM Application filed March 3, 1930. Serial No. 432,734.

This invention relatesto improvements in mechanical movements and more particularly to power transmitting mechanism, and the particular object thereof is the provision of 1 an .efiicient means of transmitting power to a driven shaft, whereby the shaft may be driven in either direction without requiring the 'medium of a clutch or other similar device. All gears are dispensed with, and the control of the direction of rotation of the driven shaft is accurate and complete in each direction.

A further obj ect of this invention is the provision of means for transmitting power to the Wheels of a self-propelled vehicle without utilizing a differential.

A further object of this invention is the provision of means for lockingthe deviceand preventing rotation of the shaft when the parts are in an intermediate position.

Further objects of this invention include improvements in details of constructionand arrangement, whereby an efficient and simple mechanism of this character is provided.

To the accomplishment of the foregoing and such other objects as may hereinafter appear, this invention consists in the construction, combination, and arrangement of parts hereinafter described and then sought to be defined in the appended claims, reference being had to the accompanying drawing forming a part hereof,-and which shows merely for the purpose of illustrative disclosure, a preferred embodiment of my invention, it being expressly understood, however, that various changes may be made in practice within the scope of the claims without digressing from my inventive idea.

In the drawing: 7

Figure 1 represents a sideelevation showing the parts in position to transmit rotary motion to the driven shaft in one direction.

Figure 2 is a top plan view with parts shown in section to facilitate the disclosure.

Figure 3 is a vertical cross section taken substantially on line 3-3 of Figure 1.

Figure 4 is a fragmentary sectional view taken on line 44 of Figure?) showing the parts in locking position; and

Figure 5 is a fragmentary sectional view similar to Figure 4, but showing the parts in position totransmit rotary motion to jthe I driven shaft in a direction opposite to that in Figure 1. t

Figure 6 is a plan view of the locking memher; and j Figure 7 is a partial cross sectional view taken on line 7 7 ofFigure 6. j

Referring now to thedrawing, the numeral 1 designates a support in which the driven shaft 2 is rotatablymounted. A cylindrical rotary member or rotor 3jis keyed, or otherwise secured, to the driven shaft 1, the rotary member or rotor being'provided on its circumference with a plurality of spaced notches or cut-away parts 4: extending the full width of the rotor 3. Each notch or cut-away portion% is formed with a fiat bottom portion perpendicular-to a diameter of the rotor, and with the sides of the notch perpendicular to thefflat bottom portion.

If the parts are reversed it is to be noted that the notches 4 will be accordingly changed and may or may not be provided onthe pcriphery of the rotor. They are'symmetrical- I 1y arranged, however.

Mounted within each notch or cut-away portion 4 is a pair of-cylindrical rollers 5. It is to be expressly understood, however, that elements other than rollers may be employed, such as ball bearings, for instance. These rollers 5 have a diameter smaller than the maximum depth of the notches or cutaway portions. Spaced bands or

rings

6 and 7 are slightly larger in diameter than the rotor .3, and form housing means for rollers 5. These rings (Sand 7 are loosely mounted on the rotor 3, and co-operate with rollers 5 to cause the'rollers to become wedged be! tween the rings and'the rotor and cause rotation of the shafts. By having rollers 5 of M,

smaller diameter than the" depth of the notches, it is possible to hold the rollers out of wedging contact with the rings 6 and '7 whenever it is desired. Lug 8 provided on the top of ring 6, and lug 9,:provided on the bottom of ring 7 are adapted for attach- ,ment to links 10 and 11, which links, in turn, are pivoted to a reciprocating member 12. Other means for actuating the rings Band 7 may be used. It is to be ekpresslyjunder- 1 a tures l8. lihe position given to the

side plates

15 and 16 by this movement, places the spindles 20 so that the rollers 5 are free to drop downward on theleft side of the rotor to be wedged between the rotor 3 and

rings

6 and 7, and the rotation of the rotor and shaft must follow in the direction indicated in Figure 1. It is to be noted that the rollers 5 on the ri ht side of the rotor are held up out of wedging relation between the

rings

6 and 7 and the rotor 3.

In Figure 4 pins or rods 19 are shown intermediate the ends of openings 17 and apertures 18. The pins or rods 19 have been moved to this position by the interengaging of one of the rods 19 shown at the extreme right in Figure 1 with the eccentric grooves 33 of the locking arms 23 and 2t.

Side plates

15 and 16 have also been turned a certain angle, and hence spindles 20 have been moved so that a wedging action between

rings

6 and 7 and rotor 3 is obtained by positioning rollers 5 between the rotor 3 and the

rings

6 and 7 on the left and right sides of the rotor. In this position, the device is locked and no movement is obtained.

In Figure 5 pins or rods 19 have been moved to the outer ends of openings 17 and apertures 18 and

side plates

15 and 16 have been given an additional movement. Spindles 20, due to their connection with said

plates

15 and 16 by means of

openings

21 and 22, have been placed in a position to allow rollers 5 on the right side of the rotor to drop down and be wedged between rotor 3 and

rings

6 and 7 so as to cause rotation of the rotor and driven shaft in a direction opposite to that shown in Figure 1. It is to be noted that the rollers 5 on the left side of the rotor are held up out of wedging contact, and that the position of the parts shown in Figure 1 is exactly opposite to that shown in Figure 5, and rotation of the driven shaft is obtained in the opposite direction.

When the device is used to transmit power in a self-propelled vehicle, no differential is required. A split axle isused and when one part of theaxle moves faster than the other, as when the vehicle is turning a corner, a running-ahead is permitted by the vehicle.

' The fact that the device allows the axle to run-ahead of the engine speed, gives the further advantage that whatever momentum the car may gain will be added to the engine speed, with the result that the car speed may be greater than the engine speed. In the cars now in use, with the engine in gear, the car cannot travel faster than the engine, and the momentum of the car is, therefore, lost.

It will be apparent that-I have provided a relatively simple device which will function to transmit power and rotate a shaft in either direction without using a clutch or similar device, and which can be used to propel 2. ve-

hide without the use of adifie'rential or simrotor, and. a control memberprovided with an eccentric groove for receiving the end of said rod.

2. In a'device of the character described,

a rotor providedwith a plurality of notches,

said rotor also being provided with a plurality of radial openings, a plurality of rings loosely associated with said rotor, bearing members in said notches, said bearing members being less in thickness than the depth of thenotch, side plates provided with apertures and adapted to hold the ringsron the. rotor, rods passing through the apertures in the side plates and openings in the rotor, and a plurality of connected control members provided with an eccentric means for guiding the ends of one of said rods, said control members when moved being adapted to actuate the rods and cause relative movement between the rotor and the side plates so as to position the bearing members. i

3. In a device of the character described, a rotor having radial openings, rings mounted on said rotor, bearing members positioned between the rings and the rotor, apertured plates for holding the rings on said rotor, rods passing through apertures in the plates and the openings in the rotor. and a control member provided with means adapted to co-operate with said rods to position the plates in a plurality of positions.

4. In a device of the character described, a rotor having radial openings near its center, rings mounted on said rotor, bearing members positioned between the rings and the rotor, apertured plates for holding the rings on said rotor,rods passing through the apertures in said plates. and the openings in the rotor, and control members provided with eccentric grooves forreceiving the ends of one of the. rods.

5. In a device of the character described, a shaft, a rotor thereon provided with a plurality of radial openings, side-plates provided with a plurality of angular apertures to cooperate in pairs with the radial openings in the rotor, and pins passing through said openings in said rotorand said apertures in said plates, and means for moving said pins so as to turn the side plates with respect to the rotor.

6. In a device of the character described, a rotor having openings therefor, side-plates provided with angular apertures to pair with, the openings of the rotor, pins passing through said openings and apertu-resto'force V the side plates to turn with the rotor, the pins extending beyond the side'-plates,' caneccentrically grooved control plate adjustably 5 mounted on one side of the rotor to receive the ends of said pins and r'neans formoving said control plate relatively to the vcenter of the rotor. a I 7 Ina device of the ,character+described,

" a rotor havingradial openings, side-plates provided with apertures to turn ;with vthe rotor, control. plates providedwith eccentric grooves and mounted adjacent the'sides. of the rotor, pins passing through said apertures in the side plates and through the radial open- ,ings' in the rotor. and extending beyond the side plates tocpass successively through eccentric grooves in said control plates, means for moving the control plates relatively to the center of the rotor/to change the position of the side'plates'relatively to the rotor- :18. Ina device of the character described, a notched rotor having radialopenings, apertured side plates, 1a grooved control plate 7 adjacent said rotor, pins passing through said apertures in said sideplates and-saidopenings in said rotor and extending beyond the side plates to pass successively through said groovein said control plate, spindles mounted in the side plates and passing-through the notches ofthe rotor, bearing members located in .the notches of the rotor, and means for moving the control plate to and from the center of the rotor-so that the spindles position the bearing members. I 1

I -9. Ina device of the character described, 'a .rotor provided with notches and radial openings, bearing members in said notches, side-plates "having angular apertures to 'aline 'Withsaid openings in the rotor, pins passing s through alined openings and apertures "in said rotor and said plates, spindles mounted in the side plates and passing. through the notches of the rotor, control plates adj ustably 'mounted on the sides of "the rotor and provided with eccentrically shaped grooves to successively receive the .ends of the pins pass- :ing-throughthe openings inthe rotor and apertures in the side-plates, means to laterallyshift the control plates to change the position of theside plates relatively to the rotor to :llaterally shift thespindles in the notches ofsthe rotorvand so changing theposition of the bearing members in the notches of vthe rotor. V v

Intestimonythat I claim the :foregoing, I

have hereunto set my hand this 12th .day of February, 1930. V. a

, MAX BORING.