US1806377A

US1806377A - Friction switch mechanism

Info

Publication number: US1806377A
Application number: US447317A
Authority: US
Inventors: George H Whittingham
Original assignee: Individual
Current assignee: Individual
Priority date: 1930-04-25
Filing date: 1930-04-25
Publication date: 1931-05-19
Anticipated expiration: 1948-05-19

Description

May 19, 1931. G. H. WHITTINGHAM 1,805,377

FRICTION SWITCH MECHANISM Filed April 25, 1930 2 Sheets-Shed 1 May 19, 1931. G. H. WHITTINGHAM FRICTION SWITCH MECHANISM Filed April 25. 1930 2 Sheets-Sheet 2 gwwntoc Patented May 19, 1931 UNITED STATES GEORGE H. WHITTINGHAM, 0F BALTIMORE, MARYLAND FRICTION SWITCH MECHANISM Application filed April 25,

This invention relates to switching mechanism designed to close circuits in predetermined times and in predetermined order after the performance of an initialoperation which starts the switch closing mechanism into operation. In the control of electric motors, where it is desired to close relays or contactors in predetermined times and order, delay in the closure of the switches controlling the contactors or relays may be obtained in various ways, as b the use of thermostats, but practical diflicu ties arise in the use of such devices where long periods of delay are required in the actuation of the switches. The purpose of the present invention is to provide a switch closing mechanism in which a plurality of switches may be closed in any desired order and open simultaneously, and in which a very long delay in closing the switches is readily obtained.

In carrying out the invention, I provide a shaft which isrotated at a very slow and constant speed; a series of stationary switch members, a plurality of switch members 25 loosely journaled on the shaft and having contacts adapted to engage the stationary members, each movable member being biased away from the stationary members and adapted to rock freely on the shaft into engagement with a fixed stop; friction disks of conducting materialrotatable with the shaft and arranged on opposite sides of the movable switch, members, and means for clamping said disks against the movable switch members to cause the latter to move with the shaft in the direction to close the switches. Each movable member has a contact arm which is adjustable toward and from the opposing stationary switch member, to vary the order in which the several switches will close and the time of closure. The shaft rotates very slowly and at a known speed, so that by adjusting the contact on the movable member the time of closure may be accurately pre-set. As each movable switch member closes against a stationary member the movable member stops, while the friction disks which engage it continue in operation holding the switch closed. When it 5 is desired to open the switches, the friction PATENT OFFlCE disks are released from the movable switch members and the latter then rock on the shaft to their initial positions against a fixed stop.

In the accompanying drawings, Fig. 1 is a front elevation of the mechanism;

Fig. 2 is a section on the line 22 of Fig. 3; Fig. 3 is a front elevation of the appa- 1930. Serial No. 447,317.

ratus, theshaft which operates the switches are secured forwardly projecting

metal bars

2 and 3, spaced apart from one another and forming supports for the working parts of the apparatus. A. tubular shaft 4 extends horizontally through these bars and is journaled therein, d upon this shaft is mounted a wormv w 7. which is geared to a small electric motor 6 by reduction gearing which causes the worm wheel and shaft t to turn at a very low speed when the motor is in operation. The motor is preferably a shuntwound motor which operates at con- 1/ speed. A number of friction disks a, a, a and a are mounted upon the shaft 4, so

to turn with it, but these disks are movable relatively to oneanother longitudinally of the shaft. The friction disks are composed of electrically conductive material, preferably carbon-graphite composition, molded into the desired shape. The shaft is provided with a longitudinal slot 7, which serves as a keyway into which keys 8, in the friction di ks, extend. The key 8, in the disk a, ex tends completely through the slot and proects slightly into the bore of the shaft, while the keys on the other disks are shorter and do not extend into the bore. The webs 9 of the friction disks are formed with central openshaft and to rock laterally-to a slight extent,

ing the disk. 1o

Between the friction disks are mounted contactmembers-b, b and 6 each contact member comprisii'ig a ietal plate 11, having a central opening 12, through which the tubular shaft extends. The plates are in the form of disks which, for about one-half of their circumferential lengths, project radially beyondthe peripheries of the friction disks, and the projecting portion of each plate has a flange 13 which projects at opposite sides of the plate- This flange, on each plate,

, forms a support and guide for an adjustable contact arm. A U-shaped clamp or yoke 14 fits around the flange of the member 6 and a contact arm 15 has a short right-angled portion :0, which is clamped against the periphery of the flange by a set screw 16 at the center of the clamp or yoke. The contact arm 15 extends in an approximately radial direction from the flange and is adaptedto engage a stationary contact member 0, which is mounted upon the switchboard. Similarly, contact

arms

15 and 15 are adjustably secured to the flanges of-the members 6 and b by

clamps

14 and 14 respectively, and these members 15 and15 are adapted to engage stationary contacts 0" and 0?, respectively. A weight'17 project's radially from the member bat one end of its flange, and similarly arranged

weights

17 and 17 project from the members b"and 6 These weights tend to rockthe plates to which they are attached so as to hold the contact arms out of engagement with the stationary contact members, and normally these weights rest against a strip of insulating material 18 whichis supported by a bracket 19 connected to the insulating base 1. p The edge of the strip 18, which the weights rest against, is parallel with the axis of the shaft 4.

A rod 20 extends longitudinally through the shaft ,4 and is provided with a head 20 at one end, and between said head and the friction disk a is a metal clamping disk 21 of the same diameter as the disk a The rod 20fits freely in the bore of the shaft 4 and is movable longitudinally therein so that if the rod 20 is moved to the right in Fig. 1, it

will cause the clamping disk 21 to bear against the friction disks a and the several friction.

ing bars2 and .3 by an iron plate 22, which is secured to said bars, and has a downwardly turned part 22 in which an armature 23 shown in Figs. 1 and 3. :normally held in this position by a spring 25 is pivotally mounted. This armature has an arm 24' which projects upwardly and has an opening through. which the right hand end portion of the shaft 20 extends. The shaft 20 has a shoulder 20 and when the magnet rod in position to release the friction disks, as

which is coiled upon a stud 26, the latter'projecting horizontally from the arm 22 on the.

support 22 through an opening in the arm 24. The arm 24 constitutes a lever for moving the shaft 20. On this lever, midway between the shaft 20 and the spring 25,;a projection 27 isv provided and this forms afulcrum for another lever 28, the lower end of which is interposed between the spring 25 The armature is so i and the lever 24. The upper end of the lever 28 has an opening through which the shaft 20 extends and this end of the lever ears a ainst a washer 29 which is held in placeby a cotter pin 30, passing through the shaft 20.

When the armature 23 is lifted by the magnet, the lever 24 swings away from the shoulder 20 and pressure is applied to the central part of the lever 28 at the fulcrum 27. As the spring 25 bears against the lower end of the lever 28, the upper end of said lever applies a yielding pressure to the rod 20, tending to force it to the right to. clamp the fries tion disks against the plates or themova'ble switch members. WVhen the armature '23 drops, the lever 24 swings to the left, releasing the pressure atthe' center of the lever 28, and the lever 24, bearing against the shoulder 21, moves the rod 20 tothe left, releasing the pressure of the friction disks figainst theplates of the movable switch memers.

V In order to avoid any adhesion of thefrice tion disks to the plates when the rod is moved to unelamp the disks, I provide a collar 20 on the rod 20 which strikes the longtooth or key 8 in the friction disk a, when the rod 20 is moved to the left by the lever 24, and the jar given to. the disk at is imparted to the other disks and the plates, insuring their immediate separation.

A conductor 31 is shown connected to the supporting bar 3 and all of the movable parts of thev apparatus are electr'cally connected to this support and wire 31. Conductors 32,

33' and 34 are shown connected to the stationary contact members 0, 0', and 0 ,respective1y. The coil of the magnet may be connected to the; current source in any desired way, according to the use which is to be made of the apparatus.

The shaft 4 turns the clockwise direction when viewed from its right hand end, while the weights on the movable switch.

members tend to rock said members on the shaft away from the stationary switch members. Normally, the movable members are held out of engagement with the stationary members by the weights on the former, which rest against the stop 18. The motor may run constantly, or it may be switched into and out of circuit, as desired, according to the purpose for which the apparatus is used.

The contact arms will beset on the movable contact members at any desired distance from the stationary contacts according to the delay desired in closing the switches. Assuming the motor to be running and the contact arms to be set on the contact members as shown in Figs. 1 and 2, if the magnet d is energized, it will attract its armature 23 and the lever 24, connected to the armature, will pressthe lever 28 to the right and this latter lever will move the rod 20 in the direction to draw the metal disk 21 against the adjacent friction disk a and cause the movable contact members b, I) and b to. be clamped between the friction disks a, a, a and a As the friction disks slowly rotate, the

contact arms

15, 15 and 15 will engage the stationary contacts 0, c and 0 respectively, in succession. As each arm engages a stationary contact the metal plate to which the arm is connected stops while the friction disks on either side of the'plate continue to rotate. WVhen it is desired to open the switches the circuit of the magnet cl is broken'and the armature of the magnet drops, causing the lever 24 to be moved by the springs against the shoulder 2O on the rod 20, and the rod is thereby moved to the left. When the rod 20 is moved to the left, the pressure of the clamping disk 21 against the friction disk a is relieved and the collar or tappet 20 ja-rs the disks and plates loose. When this occurs, the weights on the movable contact members immediately rock said members about the shaft until the weights on. said members engage the stop 18. The contact arms on said members are thus returned to their original pre-set positions.

As the friction disks, of carbon-graphite composition, are electrically conductive and mounted upon a metal shaft which is connected through its hearings to the current source, good electrical contact is made through the friction disks to the movable switch members when they are clamped between the friction disks. Friction disks of impregnated wood might be substituted for the carbon-graphite disks, but in that event it would be necessary to provide flexible electrical' connections to the movable switch members, which would not be desirable.

' l/Vhat I claimis:

1. In an electric slip-switch mechanism, a

upon the shaft and having a. contact adapted to engage said stationary contact, said movable member being biased to open position, friction disks on opposite sides of said body, said disks secured to the shaft so as .to rotate therewith and being relatively movable longitudinally of the shaft, and means for clamping said disks frictionally against said body to cause rotation of the movable member to closed position.

2. In an electric slip-switch mechanism, a shaft, means for rotating the shaft, a stationary switch-member, a movable switch member comprising a metal body journaled upon the sh aft and having a contact adapted to engage said stationary contact, said movable mem her being biased to open position, friction disks of carbon-graphite composition on opposite sides of said body, said disks secured to the shaft so as to rotate therewith and being relatively movable longitudinally of the shaft, and means 'for clamping said-disks frictionally against said body tocause rotation of the movable member to closedposition. a

3. In an electric slip-switch mechanism, a shaft, means for rotating the" shaft, a plurality of stationary switch members, a plurality of movable switch members eachv comprising a metal body journaled upon the shaft and having a contact adapted to engage one of said stationary contacts, said movable members being biased to open positions, friction disks on opposite sides of the several bodies, said disks secured to the shaft so as to rotate therewith and being relatively movable longitudinally of the shaft, andmeans for clamping said. disks frictionally against said bodies to cause rotation of the movable members to closed positions. r

4. In an electric slip-switch mechanism,- a

shaft, means for rotating the shaft, 2. plurality of stationary switch members, a plurality of movable switch members each comprising a metal body journaled upon the shaft and having a contact adapted to engage one of said stationary contacts, said movable members being biased to open positions, friction disks of carbon-graphite composition on opposite sides of the several bodies, said disks secured to the shaft so as to rotate therewith and being relatively movable longitudinally of the shaft, and means for clamping said disks frictionally against said bodies to cause rotation of the movable members to closed positions.

5. In an electric slip-switch mechanism, a shaft, means for rota-ting the shaft,a plurality of stationaryv switch members, a plurality of movable switch members each comprising. a plate loosely journaledupon the shaft and having a contact surface adapted to engage one of said stationary members, said movable members being biased to open positions, a stop for limiting the'free rotation of the several plates, friction disks on.

opposite sides of theseVer-al plates, said disks of the shaft, and means for clamping said disks frictionally against the plates to cause rotation of the movable members'to closed positions.

e 6. In an electric slip-switch mechanism, a shaft, means for rotating the shaft, a stationary switch member, a movable switch member comprising a metal disk loosely journaled upon theshaft and a contact adjustable on said disk toward and from the stationary switch member, said movable member being biased to open position, friction disks on opposite sides of themetal disk, said friction disks securedto the'shaft so as to rotatetherewith andbeing relatively movable longitudr nally of the shaft, and means for clamping said-friction. disks against the metal disk to cause rotation of the movable member to closedposition. i r 1 7. In an electric slip-switchmechanism, a shaft,'means for rotating the shaft, a stationary switch member,a movableswitch member comprising a metal disk loosely journaled upon the shaft and having a peripheral flange and a contact adjustably mounted on said flange, a stop for limiting thefree rotation of said metal disk, friction disks of carbongraphite composition on opposite sides of the metal disk, said friction disks secured to the shaft so as to rotate therewith and being rela-- tively movable longitudinally of the shaft, andmeansfor clamping said friction disks against the metal disk to-cause rotation of the movable; member to closed position,

8. Inan electric'sli'p-switch mechanism, a"

shaft, means for rotating the shaft, a station ary switch member, a movableswitch member comprising a metal disk loosely journaled upon-the shaft and having a contact and a weighted arm, said arm tending torock the,

movable member to open position, a stop adapted tobe engaged by said arm to limit the free rotation of the metal disk, friction disks of carbon-graphite composition on opposite sides of the metal disk, said friction disks secured to the shaft so as torotate there with. and being relatively movable longitudinally of the shaft, and means for clamping said friction disks against the metal disk to cause rotation of the movable member to closedposition. V I

9. In an electric slip-switch mechanism, a tubular'shaft, means for rotating the shaft, a stationary switch member, a movable switch member comprising a metal plate loosely journaled upon the shaft and having a contact adapted toengage said stationary member, said movable member being biased to open position, a stop for limiting the free rotation of the plate, frictiondisks of carbongraphite composition on opposite sides of the rotate therewith and being relatively movable longitudinally of the shaft, and means for clamping said friction disks against the plate comprising a rod extending through the bore a of saidshaft, a clamping disk mounted on said rod and adapted to engage'one ofthe friction disks, anelectromagnet, and means operated by the magnet for moving said rod endwise to cause the clamping disk topress the friction disks against the metal plate.

10. In an electric slip-switch mechanism,

a shaft, means for rotating the shaft, a stationary switch-member, a movable switch member. comprising ametal body journaled upon theshaft and having a contact adapted to engage saidstationary contact, said movable member beingbiased' to open position, friction disks on opposite sides ofsaid body, said disks secured to the shaft so as to rotate therewith and being relatively movable longis tudinally of the shaft,meansfor clamping said disks against the plate and for releasing the disks, and means for jarring said disks and metal body when they have beenreleased.

11. In an electric slip-switchmechanism, a

tubular shaft, means for rotating the shaft, a

stationary switch-member, a movable'switch member comprising a metal body journaled upon the shaft and having a contact adapted to engage said stationary contact, said movable member being biased to open position,

friction disks on opposite sides of said'body,

said disks secured to the shaft soas' to rotate therewith and being relatively movable longitudinally of the shaft, a rod extending through the bore 'of the shaft, a clamping disk on thejrodadapted to engage one of the friction disks, means for moving said rod to clamp and unclamp the disks, and means on the rod'for arring the disks when the rod is movedflto unclamp the disks; I 7

12. An electric slip-switch mechanism comprising a shaft, means for rotating the shaft, a stationary switchmember, a movable switch member journaled upon the shaftjand biased to open position, friction devices carried. by the shaft on opposite sides of the movable member and positively driven by the shaft, a stop for limiting the opening movement of the latter member,,and means for clamping said devices against the movable member and for releasing said devices, I

, 13. An electric slip-switch m'echanism comprising a shaft, means for "rotating the shaft, a stationary switch member, a movable switch member journaled upon the shaft and biased to open position, a contact adjustableonthe latter'member, and means. for clamping said releasing saiddevices.

movable member toward and from the stationary member, friction devices carried by the shaft on opposite sides'of the movable 7 member and positively drivenby the shaft, a stop for limiting the opening movement of the