Claims
- 1. Electromagnetic switching apparatus comprising:
- an electromagnet having an armature biased to an open position and movable to a closed position upon energization of said electromagnet;
- spaced pairs of stationary contacts; movable contacts disposed to bridge respective pairs of said stationary contacts;
- contact carrier means reciprocally movable in said apparatus and coupled to said armature, said movable contacts being resiliently affixed to said contact carrier means and movable therewith into and out of bridging engagement with said stationary contacts as said armature moves between closed and open positions, respectively, said movable contacts being biased with respect to said carrier means in a contact closing direction;
- rotary latch means symmetrical about an axis of rotation thereof comprising:
- an axially movable latch member having angularly relieved latching surfaces;
- a spring biasing said latch member for axial movement;
- a ball cage disposed around said latch member positioning a plurality of balls in engagement with said latch member, said balls individually being axially aligned with a respective one of said latching surfaces;
- a latch release member disposed around said ball cage, said latch release member having an axially concentric internal cylindrical surface engaging said balls and holding said balls in engagement with said latching surfaces to restrain said latch member axially displaced against said spring bias in a latched position, said latch release member further having recesses in said internal cylindrical surface circumferentially aligned with said balls, said latch release member being rotatable about said axis to a release position wherein said recesses are aligned with said balls, permitting said balls to move into said recesses, releasing said latch member for axial movement by said spring; and
- means responsive to said latch member axial movement driving said movable contacts out of bridging engagement with said stationary contacts against said bias with respect to said carrier means.
- 2. The apparatus defined in claim 1 wherein said latch release member comprises a rotor of a partial revolution electric motor formed symmetrical about said axis of rotation, said motor effecting electrically controlled release of said latch means.
- 3. The apparatus defined in claim 2 wherein said motor comprises:
- a stator defining a continuous exterior housing wall of said motor held between a pair of end plates, said stator having a plurality of inwardly extending poles having pole faces formed on the distal ends thereof;
- electric coils disposed over said poles adapted to be series connected to a controlled source of electric power;
- a cylindrical sleeve bearing axially held between said end plates coaxially with said axis of rotation, said sleeve bearing having a plurality of equally spaced holes therein and comprising said ball cage; and
- said rotor internal cylindrical surface is rotatably journaled on said sleeve bearing, said rotor having a plurality of outwardly extending poles equal in number to said inwardly extending poles of said stator equally spaced around an outer surface of said rotor, the distal ends of said rotor poles having pole faces formed thereon to be in close radial proximity to said stator pole faces as said rotor rotates, said rotor having an initial position wherein said rotor pole faces are rotationally displaced from said stator pole faces and said balls are held in latching engagement with said latching surfaces, and wherein energization of said coils effects rotation of said rotor to said release position wherein respective rotor pole faces align with said stator pole faces.
- 4. The apparatus defined in claim 3 wherein one of said end plates has a pair of apertures and said rotor has a pair of pins projecting from an end surface thereof into said apertures, abutment of said pins against internal edges of said apertures limiting said rotor to movement between said initial position and said release position.
- 5. The apparatus defined in claim 4 further comprising a handle operator mounted on said one end plate and rotatable about said latch means axis of rotation and having means engagable with said pins, said handle being manually operable to drive said rotor to said release position.
- 6. The apparatus defined in claim 5 wherein said means engagable with said pins comprises openings in said handle operator, said openings being juxtaposed said apertures in said end plate and concentric therewith about said axis of rotation, and said pins project through said apertures into said openings.
- 7. The apparatus defined in claim 6 wherein said means engagable with said pins further comprises springs disposed in said openings abutting said pins, said springs biasing said rotor to said initial position thereof.
- 8. The apparatus defined in claim 7 further comprising cam means coaxially rotatable with said handle operator, said cam means driving said latch member axially against said spring bias to a latched position, wherein said balls engage said latching surfaces, wherein said handle operator is rotated in a direction to permit movement of said rotor to said initial position, thereby to hold said balls in engagement with said latching surfaces.
- 9. The apparatus defined in claim 8 wherein said handle operator is rotational relative to said cam means in a direction to effect movement of said rotor to said release position.
- 10. The apparatus defined in claim 9 wherein said handle operator moves said cam means to a non-interfering position with respect to spring biased axial movement of said latch member after said latch member becomes latched.
- 11. The apparatus defined in claim 10 wherein said latch member blocks reverse rotational movement of said cam means when said latch member is in said latched position, thereby to prevent said cam means from moving to an interfering position with respect to spring biased axial movement of said latch member.
- 12. The apparatus defined in claim 11 wherein said cam means further comprises a ratchet cam track and said handle operator comprises a spring biased pin follower engaged with said ratchet cam track to drive said cam means only in a direction that effects movement of said latch member to said latched position.
- 13. The apparatus defined in claim 12 wherein said ratchet cam track comprises a plurality of positive drive shoulders engagable by said pin follower to drive said cam means, said shoulders being equally spaced at intervals wherein movement of said handle operator between extreme positions thereof indexes said cam means from a non-interfering position through a latch member relatching drive increment to a subsequent non-interfering position.
- 14. The apparatus defined in claim 13 wherein said ratchet cam track further comprises a recess adjacent each positive drive shoulder, said pin follower being biased into said recess when engaging a respective shoulder to provide a detent restraining said handle operator in a position at which said latch member has been latched and resisting movement of said handle operator driving said rotor to said release position.
- 15. The apparatus defined in claim 1 wherein said ball cage comprises a cylindrical sleeve having a plurality of holes extending through a wall thereof, said balls being loosely received in said holes, and said holes being formed at a forwardly directed obtuse angle in the direction of rotation of said latch release member to a latching position.
- 16. The apparatus defined in claim 1 wherein said contact carrier means comprise a tube for each movable bridging contact, said tube being connected to said armature for movement thereby, said movable bridging contact having a rod extending within said tube and axially movable relative to said tube, said rod and said tube being interconnected by a spring to resiliently affix said movable bridging contact to said tube.
- 17. The apparatus defined in claim 16 wherein one of said tubes extends coaxially through said latch member and said latch member abuts said movable bridging contact when released to drive said bridging contact out of engagement with said stationary contacts.
- 18. The apparatus defined in claim 17 wherein said spring interconnecting said rod and said tube is a low gradient spring of substantial length to permit said spring biasing said latch member to overcome said interconnecting spring for driving said bridging contact out of engagement with said stationary contacts.
- 19. The apparatus defined in claim 17 wherein said bridging contacts and said respective pairs of stationary contacts are adapted to form turn-back current paths to generate electromagnetic blow open forces upon high short circuit current conditions, and said low gradient spring resiliently affixing said bridging contact to said tube permitting such movement.
- 20. The apparatus defined in claim 17 wherein said latch member comprises a transversely extending cross bar rigid therewith and sleeves supported from said cross bar disposed around respective tubes of other movable bridging contacts, said sleeves abutting respective movable bridging contacts when said latch member is released to drive said respective bridging contacts out of engagement with respective stationary contacts.
- 21. The apparatus defined in claim 20 further comprising manually operable cam means rotatably mounted on said rotary latch means, rotatable about said axis of rotation to drive said latch member axially to said latched position, said cam means comprising at least one pair of diametrically spaced cam surfaces engaging said cross bar.
- 22. Electromagnetic switching apparatus comprising:
- switch contacts operable between open and closed positions;
- an electromagnetic operator comprising an armature movable between open and closed positions biased to said open position;
- a latch mechanism comprising a linearly movable latch member driven from a latched position to a released position by a spring, said latch member effecting opening of said switch contacts in said released position, and a latch release member rotatable about an axis parallel to linear movement of said latch member to release said latch member, said latch mechanism being disposed between said switch contacts and said electromagnetic operator; and
- contact carrier means comprising extensible tubular connectors coupling said switch contacts to said electromagnetic operator to effect movement of said contacts to open and closed positions responsive to movement of said armature to open and closed positions, respectively, one of said tubular connectors extending through said latch mechanism coaxially with said axis of rotation of said latch release member.
- 23. The apparatus defined in claim 22 wherein said latch member comprises three tubular members supported in parallel relation from a common cross bar, a center tubular member disposed coaxially with said latch release member axis of rotation, and each tubular member having one of said tubular connectors extending coaxially therethrough.
- 24. The apparatus defined in claim 23 wherein said latch member tubular members effect extension of said tubular connectors when driven to said released position to move said contacts to said open position in response to release of said latch mechanism.
- 25. The apparatus defined in claim 24 wherein said extensible tubular connectors each comprise a tube, an internal rod axially movable with respect to said tube, and a low gradient spring connecting said rod to said tube.
- 26. The apparatus defined in claim 23 wherein said latch mechanism is symmetrical about said axis of rotation, thereby being dynamically balanced about said axis.
- 27. The apparatus defined in claim 26 wherein said latch mechanism comprises an electric motor, said latch release member comprising a rotor of said motor, and means limiting rotation of said rotor to a partial revolution between latch engaged and latch released positions.
- 28. The apparatus defined in claim 27 further comprising means biasing said rotor toward said latch engaged position.
- 29. The apparatus defined in claim 28 further comprising a manual operator rotatable about said axis of rotation, and means coupling said manual operator to said rotor when said manual operator is rotated in a first direction to move said rotor to said latch released position.
- 30. The apparatus defined in claim 29 further comprising a cam rotatable about said axis of rotation, and means coupling said manual operator to said cam when said manual operator is rotated in a second direction opposite said first direction to rotate said cam in said second direction, said cam thereby driving said latch member to said latch position against bias provided by said spring.
- 31. The apparatus defined in claim 30 wherein said manual operator is movable relative to said cam, and said latch member prevents movement of said cam in said first direction.
- 32. The apparatus defined in claim 31 wherein said manual operator moves said cam to a non-interfering position with respect to said latch member when said latch member is in said latched position.
- 33. The apparatus defined in claim 32 wherein said means coupling said manual operator to said cam comprises a spring loaded pin in said handle operator and a plurality of unidirectionally oriented shoulders equally spaced along the periphery of said cam engaged by said pin.
- 34. The apparatus defined in claim 33 wherein said motor comprises a pair of end plates secured to a housing, a cylindrical sleeve bearing positioned between said end plates coaxially with said axis of rotation, and said rotor is rotatably journaled on said sleeve bearing.
- 35. The apparatus defined in claim 34 wherein said sleeve bearing has a plurality of holes in a wall thereof at equally spaced intervals, said latch member center tubular member is disposed within said sleeve bearing and has a frustoconical latching surface on the exterior thereof, and said rotor has recesses spaced at intervals equal to said spaced intervals of said holes, further comprising balls disposed in said holes held by said rotor against said latching surface to retain said latch member in said latched position, and rotation of said rotor to said latch released position aligns said recesses in registration with said holes permitting said balls to move into said recesses, releasing said latch member.
- 36. The apparatus defined in claim 35 wherein said means limiting rotation of said rotor comprises pins on said rotor projecting into arcuate slots in one of said end plates.
- 37. The apparatus defined in claim 36 wherein said means coupling said manual operator to said rotor comprises slots in said manual operator, said pins projecting through said end plate arcuate slots into said manual operator slots.
- 38. The apparatus defined in claim 37 wherein said means biasing said rotor toward said latched position comprises springs disposed in said handle operator slots abutting said pins.
- 39. A combination contactor and circuit breaker comprising:
- spaced pairs of stationary contacts;
- bridging contacts reciprocally movable into and out of engagement with respective pairs of said stationary contacts;
- electromagnetic operator means having a pivotally mounted clapper armature;
- axially extendable tubular coupling members coupling said bridging contacts to said armature, said coupling members including means biasing said coupling members to non-extended conditions;
- cylindrical sleeves individually disposed around said tubular coupling members slidable coaxially with respect to said coupling members, said sleeves being interconnected for unitary movement, and an external latching surface on one of said sleeves;
- spring means biasing said sleeves into engagement with said bridging contacts, extending said coupling members and driving said bridging contacts out of engagement with said respective pairs of stationary contacts;
- latch means disposed around said one of said sleeves engaging said latching surface latching said sleeves against the bias of said spring means out of engagement with said bridging contacts, said latch means further comprising a release member rotatable concentrically about said one of said sleeves effecting disengagement of said latch means from said latching surface.
BACKGROUND OF THE INVENTION
The U.S. Government has a paid-up license in this invention and the right in limited circumstances to require the patent owner to license others on reasonable terms as provided for by the terms of Contract No. N00024-83-C-4181 awarded by the Department of the Navy.
US Referenced Citations (20)
Foreign Referenced Citations (2)
Number |
Date |
Country |
1464565 |
Nov 1966 |
FRX |
2120268 |
Jul 1964 |
JPX |