US1877048A

US1877048A - Adjustable vane hydraulic turbine

Info

Publication number: US1877048A
Application number: US290433A
Authority: US
Inventors: Harry E Popp
Original assignee: Individual
Current assignee: Individual
Priority date: 1928-07-05
Filing date: 1928-07-05
Publication date: 1932-09-13
Anticipated expiration: 1949-09-13

Description

Sept. 13, 1932. H E; POPP 1,877,048

ADJUSTABLE VANE HYDRAULIC TURBINE original Filed July 5, 1928 2 sheets-sheer' 1 INVEN-ron l www MMM/ ATTonN EYS sept 13, 1,932 H. E. PoPP ADJUSTABLE VANE HYDRAULIC TURBINE original Filed July 5, 1928' 2 sheets-sheen 2 ATTORNEYS.

Z/ y -5/ l '5,6

Patented Sept. '13; 1932 UNITED STATES HARRY E. rorr, or Yo'nx, PENNSYLVANIA ADJUSTABLE VANE HYDRAULIC TURBINE v Application led July 5, 1928, Serial No. 290,433. Renewed January 1,3, 1932.

This invention relates to improvements in adjustable vane hydraulic turbines and particularly to electrically operated adjustment l means, the control for the same being'situv."3 ated wherever convenient.

One of the objects of the invention is the.

provision of simple and effective means for securing any deslred adjustment of the run- A ner vanes while the turbine is in motion. 10 Another object-is the provision of vane adjusting means in V"which electrical energy .serves as the motive power. f

Another object is the rovision of adjusting means that is self loc ing in all positions,

that is to say, one which is not reversible by the action of the load imposed upony the runner.

A further object is the provision of mechanism of the character stated, .embodying re- 930 duction gearing between the electric motorI and the vane adjusting elements, the gearing being carried by the shaft and being symmetrically arranged about the axis of the shaft 'so as to prevent any appreciable un- 25, balance during operation. V

Another object is the provision of adjustment control means, readily adapted to remote manual control or to automatic con-' nected up for movement simultaneously with,

some other control mechanism, asA for instance, a wicket gate control.

Other objects and features of novelty will appear as I proceed with the description of that embodiment of the invention which, forl the purposes of the present application, I

have illustrated in the accompanying drawings, in which:

Figure 1 is a view partially in elevation and partially in' central, -vertical section showing a hydraulic turbine embodying my invention.

Fig.'2 is a vertical, central section of the upper portion of the runner shaft showing a portion of the vane adjusting mechanism, and illustrating diagrammatically remote control mechanism for thev electric motor which drives the adjusting mechanism. i

Fig. 3 is a-horizontal sectional view, taken substantially on 'the line 3-3, of Fig. l2.

Fig. 4 is a horizontal sectional view taken substantially on the line 4.-4, Fig. 2.

In the drawings the cylindrical wall of la 60 pit is indicated at 10. The water as it leaves the runner is discharged through a draft tube 9. The generator to be driven by the hydraulic turbine is not shown in the drawings, but the lower end of its shaft appears 35 in Fig. 1 at 11. On this lower end there is a flange 12which is bolted to a flange 13 on the upper end of the shaft 14 which constitutes the upper portion of the turbine shaft.

vUpper and lower speed rings are repre- 70 sented at 15, and 16, and are joined by a series of fixed guide vanes 17 which not only direct. the course of the incoming water but .l

also act as-istructural members, tying the

tworings

15 and 16 together. The crown 75 plate which directs the incoming water downwardly is shown at 18, being supported k at its periphery by a iiange on the ring 15. The lower end of shaft 14 merges into a cover 19 for a cylindrical housing 20 to so which it is secured by screws 21 or the like. The housing 20 constitutes the upper end portion of the hollow shaft 22 which, in effect, is a continuation of the shaft 14. The lower end of shaft 22 is enlarged and has 85 suspended therefrom a hub 23 which is hollow and has an outer surface that is spherical throughout a considerable portion of its extent. Somewhat above its lower end the shaft 22 is journaled in bearing strips 24 90 mounted in a bearing support 25, the latter being carried in any convenient manner upon the crown plate 18. Above the bearing strips 24; I mount a packing gland 8.

Within the hollow shaft 22 there is slid 95 ably mounted a rod 26 which is threaded upon its upper end for a purpose which will hereinafter appear. A key 27 mounted 1n the shaft 22 is slidable with respect to a groove 28 in the rod 26, whereby the latter 100 is slidably but non-rotatably connected with y the shaft. At its lower end thev rod 26 carries four radial arms 29 having reduced ends upon which are pivoted the upper extremities of four links 30 that are pivoted at their lower ends to four cranks 31 on the inner ends of trunnions 32 which are mounted in radial bearings in the hub 23. These trunnions are integral with runner vanes 33, also four in number. It is not my intention, however, to limit the invention to a runner having four vanes, as a greater or even a lesser number might be employed, the number of cranks and links 31 and 30 respectively being modified accordingly.

The inner ends of the vanes from their discharge edges to a position slightly in advance of the trunnions 32 are cut on a circle to correspond with the curvature of the spherical surface of the hub 23, just suicient clearance being allowed to prevent undue friction when the trunnions 32 are turned.

At their outer ends the vanes 33 are curved in a circle which is concentric with the curvature of the inner ends of the vanes 4and-z which corresponds to the curvature of a surrounding spherical surface that 1s formed partly upon the ring 16 and partly upon a ring 34 which is removable in order to permit the removal of the vanes 33 upwardly. The usual clearance is maintained between the vanes33 and the adjacent surfaces of the rings 16 and 34, and owing to the fact that these surfaces are spherical this clearance is maintained regardless of the adjusted positions of the vanes. i

At the upper end of the section 22 of the hollow shaft there is'a flange 35 upon which is supported an annular casting 36, these two parts being fastened together by screw 37 or the like. At its upper end casting 36 is secured by screws 38 to an annular flange 39 on the lower extremity of the cylindrical housin 20. Hence the

parts

20, 36 and 22 are rigidly connected and together form the hollow shaft of the turbine.

An electric motor 40 is rigidly mounted, as by screws 41, in the cylindrical housing 20, with its axis coincident with the axis of the cylinder. On the shaft of the motor 40 there is al, pinion 42 which meshes with a pair of planet gears 43, the latter gears running upon an internal gear 44 cut into 4the wall of the casting 36. The gears 43 turn upon spindles 45 which have constricted end portions threaded into a ring 46 that is keyed onto an elongated nut 47, the latter being threaded to receive the threaded vend of rod ,26. The nut 47 may have an integral col- `lar 48 adapted to take thrust in either direction through two thrust bearings 49 and Below its threadedupper end the rod 26 carries a pair of axially aligned pins 51 which extend through vertical slots 52 in the shaft 22. Ontheir outer ends these pins carry a ring 53 which slides vertically upon the shaft 22 whenever the rod 26 moves with respect to the shaft. This ring 53 is proposition outside the turbine. Whilefor lthe v sake of simplicity I have illustrated herein a single link 58, it will be understood that in practice I may substitute any mechanical connection capable of transmitting slidin motion to the slide 59 from the swing arm 57 of the bell crank lever. This mechanical connection in practice ma embody a number of parts, such as links and levers, in order that the control mechanism of which the slide 59 is a part may be located at some distance from the turbine. In carrying out my invention it is entirely feasible, for instance, to mount the control mechanisms for a series of turbines upon a single control board.

Upon the control board or other suitable support I mount a pair of bearing blocks 60 in which is journaled a shaft 61 which is adapted to be rotated to bring about the adjustment of the runner vanes. The rotation of the shaft may be accomplished in various ways, but in the resent instance I have shown it rovided w1th a wheel 62 and a crank 63. he shaft 61 is threaded and has mounted thereon a nut 64 having a pointed portion constituting an indicator 65 cooperating with a scale 66 for indicating the degree of opening of the runner vanes, the scale illustrated herein having ten divisions covering various ositions of the vanes from fully closed to fu ly opened position.

Ri idly attached to the nut 64 there is a bar 6 upon which are mounted two electrical contacts 68 and 69 insulated from each other and from the rod. In the ends of the slide 59k there are slidably mounted two rods 70 and 71v which are headed upon their outer ends to limit the inward movement of the rods.. On its inner end each of these

rods

70 and 71 carries a cross bar 72 and 73 respectively, against which bear coil springs 74 and 75 respectively tending to hold the rods 7 01 and 71 in the positions illustrated with respect/to the slide 59. The cross bar 72 has mounted thereon and insulated therefrom a contact 76 positioned opposite the contact 68 and a contact 77 positioned opposite the contact 69. The cross bar 73 carries a similar pair of contacts 78 and 79 arranged opposite the contacts 68 and 69 res ct-ively.

herein a control mechanism in which all of the moving parts have a rectilinear motion, it is obvious that they could as wellbe so mounted as to move in arcs of circles vabout a common center without departing from the spirit of the invention.

The positive and negative wires of an electric service line are indicated at 80 and 81. From the 'wire 80 a conductor 82 leads to the contact 68. The contact 69 is similarly connectedby a conductor 83 with the negative wire 81 of the line. The conductors 82 and 83 lcontain flexible portions permitting the movement of the contacts 68 and 69. Contacts 76 and 79 are connected through flexible wires with a conductor 84 leading to a brush 85. The

contacts

77 and 78 are connected through flexible wires with a conductor 86 leading Ito a brush 87.

Brushes

85 and 87 bear upon continuous contact rings' 88Aand 89 respectively mounted upon a'n insulating collar 90 carrled upon the exterior of thecylindrical housing 20. In the latter there is an opening 91 through which the motor wires 92'and 93 extend, the motor being connected by these wires with the

rings

88 and 89.

A turbine having adjustable vanes so shaped, proportioned and mounted as to close the turbine entirely against the flow of water,

or to vtake any position of adjustment intermediate the closed position and the fully opened position of the vanes, is disclosed in my copending application Serial No. 216,514, iiled August 31, 1927. In that case, asin the presentcase, the surface of the hub and of the enclosing casing are spherical so that the small clearance between these surfaces and the ends of the vanes remains constant regardless -of the adjustment of the latter. The present invention is directed to a dilferent means for accomplishing the said adjustment during the operation of the turbine.

0 eratiom-When'adiferent adjustment of t e vanes 67 isdesied the shaft 61 -is rotated,"moving the nut 64 until the indicator 65 points to the position on scale 66 y which 'corresponds to the adjustment of the vanes that is desired. In the present case assume that the indicator is caused to travel from one position illustrated to a position opposite the point 6 on the scale, that is from a substantiall full open position to one about open. he nut 64 1s thus traveling toward the right carries with it the rod 67 and the contacts 68, 69 which engage thel contacts 78, 79 and move them also to the right, compressing spring and causing rod 71 to slide in its bearing in the slide 59. As

soon as the contacts 68 and 69 engage with contacts 78 and 79, an electric circuit is completed from the positive-line wire 82 through

contacts

68 and 78, through conductor 86 to brush 87, ring 89 and wire 93 to the motor 40 thence back through wire -92, ring 88,' brush 85 and conductor 84 to vIf a still further closing of the vanes is decontacts V79 and 69 and through conductor 83 to line wire 81. The motor is thereby driven in a direction which causes it to function through pinion 42 land planet gears 43 t, to turn ring 46 and nut 47in a clockwise 3 direction as viewed from above, whereby the rod 26 'is raised, also raising the links 30 and swinging cranks 31 to shift the vanes 33. toward closed position.

As the rod 26 moves upwardly, the pins 51, of course, move upwardly with it, sliding the ring 53 upwardly. Upward motion is thus transmitted to the free end of the arm 55 of the bell crank, and thearm 57 thereof moves toward the right, as viewed in Fig. 2, U0 thereby pushing the slide 59 toward the right. This movement of the slide at first merely reduces the compression of spring 75, but presently the slide engages the head on the outer end of rod 71, and through thatrod and the cross bar 73 thereon pulls the contacts 78 and 79 away from the contacts 68 and 69, thereby breaking the motor circuit and terminating the movement of the vanes. sired a similar movement of the nut 64- is brought about, so that the indicator 65 rests for example opposite the point 4 on the scale 66. -A similar`operation. of the motor is then produced causing a similar following movement of the slide 59. l

An adjustment toward open position is produced by turning the shaft 61 in the opposite direction, causing contacts 68 and 69 to push

contacts

76 and 77 to the left, whereim by an electric, circuit is completed from line wire 80` through

contacts

68 and 76, conductor 84, brush 85, ring 88, Wire 92, motor 40, wire 93, ring 89, brush 87, conductor 86, contacts 77 and -69 and conductor 83 back to 105 negative line wire 81. The motor then turns in the opposite directionV and the rod 28 is lowered, carrying with it ringV 53 and swinging'the bell crank

lever

55, 57 in a counterclockwise direction. This-'pulls on link 58 110 and moves slide 59 toward the left. The latter movement continues until the head on rod/70 is engaged and caused to pull the contacts 76 'and 77 away from the contacts 68 and 69, when the motor circuit is broken 115 and the movement of the 'adjusting inechanism terminated thereby. j

While in the disclosure herein the oper.;- tion of the threaded shaft. 61 is manually effected, it will be understood that its automatic operation as heretofore mentioned, may bereadily accomplished, but for the sake of avoiding complications such automatiecontrol is not hereinV illustrated or described. l

Having thus described my invention, I claim: 1

1. In a hydraulic turbine, a rotatingshaft, runner vanes carried thereby and adjustable.. upon their axes, an electric motor carriedby l" the shaft, operative connections between said motor and said vanes for turning the latter upon their axes, and means operable durin the rotation of the shaft for starting sai motor in either direction and automatically stopping the same upon the completion of a predetermined change in runner vane` adjustment.

2. In a hydraulic turbine, a rotating shaft, runner vanes carried thereby and adjustable upon their axes, a motor fixed to the shaft above the runner, operative connections between said motor and said vanes comprising a threaded rod arranged parallel to the axis of said shaft and adapted to move longitudinally with respect thereto, and a nut mounted upon said threaded rod and connected with said motor for rotation thereby, said l nut being mounted against Vmovement longitudinally of the shaft, and means for controlling the direction and extent of rotation of said motor.

3. In a hydraulic turbine, a rotating shaft, runner vanes carired thereby and adjustable upon their axes, a motor carried by the shaft above the runner, operative connections between said motor and said vanes comprising va threaded rod arranged parallel to the axis of said shaft and adapted to move longitudinally with respect thereto, a nut mounted upon said threaded rod, reduction gearing operatively connecting said motor and said nut, said nut being mounted against movement longitudinally of the shaft, and means for controlling the direction and extent of rotation of said motor.

4. In a hydraulic turbine, a rotating shaft, runner vanes carried thereby and adjustable upon their axes, a motor axially mounted in a fixed position in'y said shaft, operative connections between said motor and said vanes comprising a threaded rod axially arranged in said s haft and adapted to move longitudi nally with respect thereto, a nut mounted upon said threaded rod, said nut being mounted against movement longitudinally of the shaft, reduction gearing symmetrically arranged in the shaft for operatively connecting vsaid motor and said nut, and means for controlling the direction and extent of rotation of said motor.

5. In a hydraulic turbine, a rotating shaft, runner vanes carried thereby and adjustable upon their axes, an electric motor carried by the shaft, operative connections between said motor and said vanes for turning the vto latter upon their axes, a power circuit for said motor extending to a position outside the shaft, means outside the shaft for, perfecting said circuit with a flow of current in a given direction, and mechanical means movable with the said connections for interrupting the flow of current in said circuit when an adjustment of the vanes has been accomplished.

6. In a hydraulic turbine, a rotating shaft, runner vanes carried thereby and adjustable upon their axes, an electricmotor carried by the shaft, operative connections between said motor and said vanes for tux-nin the latter upon their axes, a power circult for said motor extending to a position outside the shaft, an indicator outside the shaft movable to various positions corresponding to adjustments of the runner vanes, means associated with said indicator for perfecting said c ircuit with a flow of current in a given d1- rection, and means movable with the said connections for interrupting the flow of current in said circuit when the vanes reach the position of adjustment corresponding to the settin of said indicator.

lll a hydraulic turbine, a rotating shaft, runner vanes carried thereby and adjustable upon their axes, an electric motor carried by the shaft, operative connections between said motor and said vanes for turning the latter upon their axes, a power circuit for said motor extending to a position outside the shaft, an indicator outside the shaft movable to various positions corresponding to adjustments of the runner vanes, a switch element for said circuit carried by said indicator, a slide operatively connected with said vane moving` connections, a second switch element for said circuit carried by said slide, whereby the movement of the indicator in a given direction brings the said switch elements into contact to start the motor, and whereby the movement of the slide through the connections stated serves to break the contact between the switch elements when the desired adjustment has been accomplished. 4 8. In a hydraulic turbine, a rotating shaft, runner vanes carried thereby and adjustable upon their-axes, an electric motor carried by the shaft, operative connections between said motor and said vanes for turning t-he latter upony their axes, a gauge outside the shaft bearing indications of different runner vane adjustments, a control member adapted to be manually positioned at various points along said gauge, and means set in motion by the movement of said control member for starting said motor and stopping the same after the vanes reach a position of adjustment corresponding to the setting of said control member.

In testimony whereof I hereunto affix my signature.

HARRY E. POPP.