Centrifugal actuator for controlling a switch unit particularly a start winding switch unit for an electric motor

A centrifugal actuator for operating a motor start winding switch includes a base fixed to the shaft as a bearing shoulder and a hub slidably mounted to the base by a groove mating projection and grooves. The hub has a flange which actuates the switch. The hub and base include stops which limit the hub travel. Diametrically opposite hinge units on the base receive offset pivot arms including a pivot rod held in the unit by weight connected coil springs. The weights are L-shaped having heavy plate and offset levers having a hinge or pivot plate therebetween. The pivot plate is offset from the plane of the levers and includes an opening forming the pivot rod having a coined pivot edge. The base hinge units have hook members within which the rod pivots. The outer tab of the hook enters the pivot plate opening in the run position to lock the weight in place. The base is secured to the shaft with an end surface to function as a shoulder for a bearing. The base is mounted with loaded portions to prevent base creeping or deflection. The base and hub are weight balanced for vertical motors. The pivot rod is located to place the pivot point of the weight at substantially the center of the mass of the weight, giving due consideration to the hub.

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We claim:

1. A centrifugal actuator configured for mounting on a shaft rotatable between a rest position and a run position and actuating a switch, comprising a base member including a basetubular body configured for securement to the shaft and rotating therewith, a hub member having a hub tubular body slidably mounted on said base tubular body and having a switch control member to actuate said switch, first and second weight units locatedon diametric opposite sides of said tubular bodies and each having spaced levers coupled to said hub member for positioning said hub member on said base member, a weight pivot assembly including first and second pivot supports secured to said base memberfor supporting said first and second weight units and including complementing first and second pivot members, each one secured to said first and second weight units between said levers with said levers coupled to said hub, each said pivot memberincluding a pivotal connector to the corresponding pivot support and pivoting thereon and moving said hub in response to the pivoting of the weight units, and said pivot supports and said corresponding pivot members including releasably engageable latchelements to mechanically secure said weight units to said pivot supports in the run position of shaft.

2. The actuator of claim 1 wherein said levers are located in a common plane on each said weight unit, each said pivot member is located in a plane offset from said common plane of said levers and establishes a reset moment on said levers withthe weight unit in the run position.

3. The actuator of claim 2 wherein each pivot member includes a plate arm fixed between said levers, said plate arm having an opening and defining said pivot member on the outer end of said plate arm, each said pivot support includes a hookmember having an opening receiving said pivot member and including an outer hook wall located within said opening and overlying said pivot member and locking said pivot member within the pivot support in the run position.

4. The actuator of claim 1 wherein said base tubular body includes a plurality of internal ribs circumferentially spaced within the body and defining the body opening, said opening constructed and configured to establish a tight engagement withthe shaft to substantially provide relative rotation with respect to the shaft.

5. The actuator of claim 1 wherein said base tubular body is configured to firmly engage the shaft, said base tubular body having an end wall including a plurality of face tabs, a locating lock ring configured to be secured to the shaft andincluding tabs projecting into mating engagement with said face tabs to prevent rotation of the body relative to the shaft.

6. The actuator of claim 5 wherein said base tubular body includes internal ribs configured to firmly grip said shaft and extending throughout substantially one half of the tubular body and having the balance of the tubular body spaced from theshaft, said hub tubular body having an internal diameter greater than the outer diameter of the base, and the opposed walls of the base and hub having at least two complementary spaced and engaged sets of grooves and ribs on the opposed surfaces of thebodies to slidably support the hub tubular body on said base tubular body.

7. The actuator of claim 6 wherein the slidable support is limited to two sets of grooved ribs diametrically spaced and substantially located between the pivot supports and the lever coupling to said hub.

8. The actuator of claim 1 wherein said base member includes a stop member beneath the pivot support and an axially spaced stop member spaced in accordance with the movement of said hub between the rest position and run position, said hubtubular body having a stop wall at the axially inner end, said stop members and pivot support being arranged and constructed for entry of the stop wall between the base stop members and locating said stop wall between said stop members and therebyestablishing the limits of hub movement.

9. The actuator of claim 1 wherein said weight members are located with a return moment in the run position.

10. The actuator of claim 1 wherein said hub includes pivot supports located on opposite sides of the hub with the lever ends located therein, each of said pivot supports including a flange and a first pair of spaced members on the flange inupwardly spaced relation to the hub tubular body and forming a generally V-shaped opening, a second pair of spaced members secured to the hub in spaced relation with the flange in accordance with the first spaced members and joined by a connecting wallto form with said first spaced members, a guide for the outer sides of the levers.

11. The actuator of claim 1 wherein said each weight unit includes a pivot point located substantially at the center of the mass of the weight unit.

12. The actuator of claim 1 wherein the shaft is a motor shaft with a bearing adjacent the actuator, said base tubular body having a flat end configured to engage said bearing and form a bearing shoulder, said shaft having means to secure thebase abutting said bearing.

13. The actuator assembly of claim 1 for a motor having a motor bearing located in spaced relation to the switch, and wherein said tubular body of said base member has a head at one end and an outer end face opposite said head, said face beingperpendicular to the axis of said tubular body, and said head being located at a fixed predetermined distance from said end face and configured to correspond to the location of the switch unit in the rest position relative to the motor bearing, andlocating means for precisely securing said base member to said shaft with the end face secured in precise alignment with and configured to form a supporting shoulder for the motor bearing.

14. A centrifugal actuator for controlling the start switch of an electric motor having a shaft, comprising a base member including a base tubular body configured and constructed for securement to the motor shaft and rotating therewith, a hubmember having a hub tubular body slidably mounted to a front portion of said base member and having a switch portion located to actuate the start switch, a weight assembly pivotally mounted to said base member and having lever means coupled to said hubtubular body for positioning said switch portion, means to releasable lock said weight assembly in the run position, and wherein said base tubular body includes a plurality of internal ribs extended from the back end to the front portion forapproximately one-half thereof and constructed to firmly grasp the shaft.

15. The actuator of claim 14 wherein the head end of said base member includes location tabs, a locking member secured to said shaft and engaging said tabs to prevent creeping or deflecting of the base member in response to the switch force onthe actuator.

16. A centrifugal actuator for controlling the start switch of an electric motor having a shaft, comprising a base member including a base tubular body configured and constructed for securement to the motor shaft and rotating therewith, a hubmember having a hub tubular body slidably mounted to the front portion of said base member and having a switch portion located to actuate the start switch, a weight assembly pivotally mounted to said base member and having lever means coupled to said hubtubular body for positioning said switch portion, means to releasable lock said weight assembly in the run position, said base member having an opposite end surface perpendicular to the axis of said tubular body, and base securement means configured andconstructed to be attached to said shaft and forming a locating support for the outer end of said base member, said securement means located relative to a motor bearing, whereby mounting of the actuator establishes a shoulder for said bearing.

17. A centrifugal actuator for controlling the start switch of an electric motor having a shaft, comprising a base member including a base tubular body configured and constructed for securement to the motor shaft and rotating therewith, a hubmember having a hub tubular body slidably mounted to the front portion of said base member and having a switch portion located to actuate the start switch, a weight assembly pivotally mounted to said base member and having lever means coupled to said hubtubular body for positioning said switch portion, means to releasable lock said weight assembly in the run position, and said weight assembly is pivoted substantially at the center of the mass of the weight assembly.

18. The centrifugal actuator of claim 17 wherein said hub tubular body has an internal diameter greater than the outer diameter of said base member, and wherein said hub member is coupled to said base member by mating grooves and projections onthe opposed surfaces therein.