US1758080A - Governor - Google Patents

Description

t May 13, 1930. E, R, KLEMMy JR 1,758,080

GOVERNOR Filed Sept. lO, 1928 Patented May 13, 1930 UNITED' STATES mm. n. xLEim, Jn., or cnicaeo, ILLiNoIs GOVERNOR.

' applicati@ inea septembegio; 192s. serial im. 305,070.

This invention pertains generally togovernors and particularly to a-governor adapted for use with a iiuid engine, and'is a modication of the structure disclosed in my coending application Serial No. 271,492, led pi'il An object of applicants invention is the production of a governor for a fluid engine whereby the fluid passing into the engine is regulated to control the speed of the engine.

Another object of the invention is the production of a governor which is adjustable so that the maximum speed of the engine may4 be increased or diminished as desired.

, A further object of the invention. is the production of a device wherein the controlhingi mechanism is actuated by the moving provision of an auxiliary valve to'v relieve the drop 'across vthe device under certain conditions.

A further object of the invention is the production ofL a device of this kind which is simple in construction, of a small number of parts, easy to. manufacture, durable, reliable and highly satisfactory for its intended purpose.

Many other objects and advantages ofthe construction herein shown and described will be obvious to those skilled in the art from the disclosure herein given.

To this end lmy invention consists in the novel construction, arrangement and combination of parts herein shown and described and more 'particularly pointed out in the claims. f7

Applicants device includes a plate or disk having a plurality .of radially extending spokes and a second plate axially aligned with and movable relative to said irst-ingentionedv plate, and also having a plurality of projecting spokes preferably the same in .number as the spokes of the first disk. The spokes are made of substantially the same width as the open spaces therebetween, and means is provided for rotating the rst disk so as to` brin the spokes and intervening spaces into an out lof alignment with the corresponding spokes and intervening'spaces of the second- Still another object of the invention is the mentioned plate. The maximum speed of the engine is regulated by bringing the spaces between the spokes of the two disks or plates into and out of complete register. The disks are either in contact or in close proximity at the greatest speed of the engine, and the registering spaces between the spokes of the rel v spective disks provide passageways for the iow of uid past the disks. An auxiliary valve is provided to relieve the drop in the 6o pressure across the governor at certain speeds of the engine.

In the drawings, wherein like reference chzla'acters indicate like or corresponding pa s:

1 is a top view of the governor;

F1 2 is a sectional elevation of the same showing the governor connected to passages leading from the carburetor and to the engine Fig. 3 is a section on line 3-3 of Fig. 1;

Fig. 4 is a section online 4--4 of Fig. 2;

Fig. 5 is a view of the immovable disk or plate; and

Fig. 6 is a view of the` movable disk or plate. l 75 Referring no'w to the drawings, thenumeral 1 indicates a overnor which includes acasing 2 mounted tween atubular member 3 leading from the carbureter and a tubular member. 4 leading to the engine. The casing 80 2 is attached to thetubular members 3 and`4 by means of bolts 7 extending throughflanges 5 and 6. A support 9 extends across the passage 8 of the cas1ng2 and is provided with anenlargement 10 at its mid portion. A bore 85 11 extends through theenlargement 10 for the accommodation of astem 12 which is attached to a movable disk orplate 13. Aresilient member 14 is positioned between thedisk 13 and theenlargement 10. Astop 15 90 comprises a burr which threadedly engages thestem 12 and is normally in contact with theenlargement 10, thereby limiting the movement of thedisk 13 under the force of theresilient member 14. The casing 2is pro- 95 vided with a shoulder 16 which is engaged by adisk 17, said disk being held in position by a sleeve 18 disposed between the disk and a face of thecasing 2. Thestem 12andspring 14 pass through an aperture 33 atthecenter 10 of thedisk 17. The sleeve 18 is held in position by the flange of thetubular member 3 and is preferably provided with oppositely disposedrecessed projections 19. Theprojections 19 are each provided with arecess 20 which form guides forprojections 21 which are oppositely disposed on themovable disk 13. Therecesses 20 form runways for the projections 21which permit thedisk 13 to move in the direction of the longitudinal axis3f 1its stem 12 but prevents rotation of the Thecasing 2 is provided with ahollow projection 22, thehollow portion 23 of which accommodates aprojection 24 from thedisk 17 Thedisk 17 is adjustable circumferentially by means ofscrews 25 and 26 which threadedly engage opposite sides of theprojection 22 and abut opposite sides of theproection 24 on the disk 17.\

Thedisk 13 is providedwith arecess 27 into which open a plurality ofconverging channels 28 which have openings spaced about thestem 12. A recess 29 within thestem 12 accommodates the stem of a valve 30.A Thevalve 30 is provided with aspring 31 where, by the head of the valve normally engages a valve set at the end of a tubular member 32 which is positioned within theaperture 27.

30 When thevalve 30 is opened,'thechannels 28 establish communication between the carburetor side and the engine side of the governor forming a vacuum release opening.

Thedisk 13 comprises a centralsolid hub 35 portion to which thestem 12 is connected. A plurality of spokes 3rradiate from the hub portion ofdisk 13. hespaces 36 between thespokes 35 are preferably of substantially the same width as the corresponding por- 40 tions of the spokes. Thedisk 17 comprises an outer rim portion from which a plurality ofspokes 37 radiate inwardly. Thespokes 37 terminate short of the center and form the boundary of the aperture 33. Thespaces 38 between thespokes 37 `are substantially the same width as that of the adjacent portions of thespokes 37. Thedisks 13 and 17 each have the same number -of spokes and thespokes 35 of thedisk 13 are substantially of tle same width as thespokes 37 of the disk Eachspace 36 of thedisk 13 is in alignment with acorresponding space 38 of thedisk 17 to form a passageway through the disks for the fluid, said passageways having their maximum capacity when the spaces and spokes are in exact alignment. The fiow` of the fiuid through thespaces 36 and-38 operates to force thedisk 13 toward thedisk 17 aqgainst the resistance of the. spring 14.y Thedisks 13 and 17 are broughtinto contact or into close proximity by the flow of fluid when the fmotor reaches its maximum speed. The

Aspokes 36 and 38 being in alignment andthev 6disks 13 and 17 in contact provides the condition by which the maximum flow of fluid is attained. By turning thescrews 25 and 26, thedisk 17 may be rotated so that thespaces 36 and 38 are only partially in register thereby restricting the size of the passageways and the possible flow of fluid therethrough. It is obvious that by thus narrowing` the registering portions of thespaces 36 and 38, the flow of fiuid through the engine can be controlled at will and is made adjustable over a very large range. At low speeds of the engine the flow of the fluid through the device is not substantially affected by an adjustment of thedisk 17. The effect of adjustment of thedisk 17 becomes more pronounced, for speeds near to the maximiun which is the casevwhen thedisk 13 is in close proximity to thedisk 17. In canse the load on the motor is increased when operating at maximum capacity, the speed of the motor tends to reduce and demand more power for the motor to maintain the maximum speed under the increased load. Thevalve 30 opens and instantaneously reduces the drop across the governor by releasingdisk 13 fromdisk 17, thereby permitting a larger flow of fluid to the engine. Without thevalve 30 the speed would have to be substantially reduced before thedisks 13 and 17 would be sufficiently separated to reduce the efi'ect of the restricted passageway.

Having thus described my invention, it is obvious that various immaterial modifications may be made in the same without departing from the spirit of my invention; hence I do not wish to be understood as limiting myself to the exact form, construction, arrangement and combination of parts herein shown and described or uses mentioned.

wWhat I claim as new and desire to secure by Letters Patent is:

1. A device of the kind described comprising a casing, a passage therethrough, a pair' of disk shaped members within said passage for controlling the flow of fluid throughsame, said members each having an equal number of` radiating spokes having open spaces therebetween, means yieldingly holding said members apart, one of said members being movable toward the other member by the flow of fluid to control said flow, and a valve in said movable member operable by the drop in pressure of fluid flowing through "said member to provide a vacuum release opening.

2. A device of the kind described. comprising a casing having a passage therethrough, a pair of disk shaped members positioned transversely of said passage for controlling the flow of fluid therethrough, said members having an equal number of radiating spokes, the spaces between said spokes providing passageways for the flow of fluid, means yieldingly holdin j the members apart, one of said members ieingmovable relative to the other to vary the distance between said passageways to control said flow, said movement being caused by a low of fluid through said passage, means to vary the relative alignment of said passageways in said members, and a spring-pressed valve in said movable member opening in the direction of the flow of fluid to provide a vacuum release conduit.

3. A device of the kind described comprising a casing having a passage therethrough, a supporting member across said passage, a disk positioned transversely of said passage, said disk having a plurality 'of outwardly radiating spokes separated by spaces forming passageways, a stem projecting from said disk through an aperture in said support, a stop on the end of said stem, a resilient member between said support and said disk yieldingly holding the disk away from the supp-ort, a second disk-shaped member positioned transversely lof 'said passage between said first-mentioned disk and said support, said disk having an outer rim portion and a plurality of spokes radiating inwardly'from said rim portion, said spokes stopping short of the center ot the disk to provide an aperture through which said stem and resilient member projects, the spokes of said second disk being equal in number to the, spokes of said firstmentioned disk, and means for adjusting said second-mentioned disk circumferentially.

4. A device of the'kind described comprising a casing having a passage therethrough, a supporting member across said passage, a disk positioned transversely of said passage, said disk having a plurality' of outwardly radiating spokes separated by spaces forming passageways, a stem projecting from said disk through an aperture in said support, a stop on the end of said stem, a resilient member between said support and said disk yieldingly holding the disk away from the support, a. second disk-shaped member positioned transversely `of said passage between said iirst-mentioned disk and/said support,.said disk having an outer rim portion and a plurality lof spokes radiating inwardly from said rim portion, said spokes stopping short of the center of the disk to provide an aperture through which said stem and resilient member projects, the spokes of said second disk being separated 'by passageways and equal in number' to the spokes of said first-mentioned disk, means for adjusting said second-mentioned disk circumferentially, and a springpressed valve in said first-mentioned disk opening towards said support to provide a vacuum release conduit.

In testimony whereof, I have hereunto signed my name.

EMIL R. KLEMM, JR.

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