Permanent magnet latching solenoid
First Claim
1. A permanent magnet latching solenoid which comprises a bobbin that defines an axial passage,an electrical winding on said bobbin, magnetically permeable bushings engaged with said bobbin at each end of said passage, said bushings defining with said passage a bore which extends axially of said bobbin from the distal end of one of said bushings to the distal end of the other of said bushings, an armature within said bore, said armature being of an axial length substantially less than the axial length of said bore and being freely reciprocable axially of said bore between two end positions in each of which one end portion of said armature is within the bushing at the respective end of said bore and an opposite end portion of said armature is at least near the bushing at the opposite end of said bore, an operator element attached to said armature, a separate magnetically permeable frame around said bobbin and including opposed end walls extending over said distal ends of said bushings, whereby each of said end walls overlies said distal end of the respective bushing and an assembly comprising said bobbin, said bushings and said armature fits within said frame between said end walls, said distal ends of said bushings being disposed adjacent to and in magnetically permeable coupling relationship with the respective end walls, at least one permanent magnet disposed within said frame between said bushings and located between said frame and said bore, said permanent magnet magnetically coupling with said armature and said frame to magnetically latch said armature in each of said end positions, and said coil, when activated by an appropriate electrical pulse, creating a magnetic field coupling through said frame, armature and bushings to drive said armature from either of said end positions toward the other of said end positions.
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0 Petitions
Accused Products
Abstract
A permanent magnet latching solenoid with a central passage carrying a reciprocative armature has a magnetically permeable bushing press-fit in each end of the bobbin. The outer ends of the bushings define the outer ends of the bore. A separate preformed magnetically permeable frame surrounds the bobbin and includes end wall portions that abut the outer ends of the bushings. The bobbin assembly is inserted laterally into the frame, with the ends of the bushings against the ends of the frame. Openings in the end walls of the frame accommodate free passage of an operator rod element which is affixed to the armature.
81 Citations
32 Claims
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1. A permanent magnet latching solenoid which comprises a bobbin that defines an axial passage,
an electrical winding on said bobbin, magnetically permeable bushings engaged with said bobbin at each end of said passage, said bushings defining with said passage a bore which extends axially of said bobbin from the distal end of one of said bushings to the distal end of the other of said bushings, an armature within said bore, said armature being of an axial length substantially less than the axial length of said bore and being freely reciprocable axially of said bore between two end positions in each of which one end portion of said armature is within the bushing at the respective end of said bore and an opposite end portion of said armature is at least near the bushing at the opposite end of said bore, an operator element attached to said armature, a separate magnetically permeable frame around said bobbin and including opposed end walls extending over said distal ends of said bushings, whereby each of said end walls overlies said distal end of the respective bushing and an assembly comprising said bobbin, said bushings and said armature fits within said frame between said end walls, said distal ends of said bushings being disposed adjacent to and in magnetically permeable coupling relationship with the respective end walls, at least one permanent magnet disposed within said frame between said bushings and located between said frame and said bore, said permanent magnet magnetically coupling with said armature and said frame to magnetically latch said armature in each of said end positions, and said coil, when activated by an appropriate electrical pulse, creating a magnetic field coupling through said frame, armature and bushings to drive said armature from either of said end positions toward the other of said end positions.
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18. A permanent magnet latching solenoid which comprises a bobbin that defines an axial passage,
an electrical winding on said bobbin, magnetically permeable bushings engaged with said bobbin at each end of said passage, each of said bushings being of a right circular cylindrical outer configuration, said bushings defining with said passage a bore which extends axially of said bobbin from the distal end of one of said bushings to the distal end of the other of said bushings, an armature within said bore, said armature being of an axial length substantially less than the axial length of said bore and being freely reciprocable axially of said bore between two end positions in each of which one end portion of said armature is within the bushing at the respective end of said bore and an opposite end portion of said armature is at least near the bushing at the opposite end of said bore, an operator element attached to said armature, a separate magnetically permeable frame around said bobbin and including opposed end walls extending over said distal ends of said bushings, whereby each of said end walls overlies said distal end of the respective bushing and an assembly comprising said bobbin, said bushings and said armature fits within said frame between said end walls, said distal ends of said bushings being disposed adjacent to and in magnetically permeable coupling relationship with the respective end walls, at least one permanent magnet disposed within said frame between said bushings and magnetically coupling with said armature and said frame to magnetically latch said armature in each of said end positions, and said coil, when activated by an appropriate electrical pulse, creating a magnetic field coupling through said frame, armature and bushings to drive said armature from either of said end positions toward the other of said end positions.
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20. A permanent magnet latching solenoid which comprises a bobbin that defines an axial passage,
an electrical winding on said bobbin, magnetically permeable bushings engaged with said bobbin at each end of said passage, said bushings defining with said passage a bore which extends axially of said bobbin from the distal end of one of said bushings to the distal end of the other of said bushings, an armature within said bore, said armature being of an axial length substantially less than the axial length of said bore and being freely reciprocable axially of said bore between two end positions in each of which one end portion of said armature is within the bushing at the respective end of said bore and an opposite end portion of said armature is at least near the bushing at the opposite end of said bore, an operator element attached to said armature, a separate magnetically permeable frame around said bobbin and including opposed end walls extending over said distal ends of said bushings, whereby each of said end walls overlies said distal end of the respective bushing and an assembly comprising said bobbin, said bushings and said armature fits within said frame between said end walls, said distal ends of said bushings being disposed adjacent to and in magnetically permeable coupling relationship with the respective end walls, at least one permanent magnet disposed within said frame between said bushings and magnetically coupling with said armature and said frame to magnetically latch said armature in each of said end positions, wherein said bobbin defines a pocket on each side of said bore for receipt of a permanent magnet, a permanent magnet in each of said pockets, and said coil, when activated by an appropriate electrical pulse, creating a magnetic field coupling through said frame, armature and bushings to drive said armature from either of said end positions toward the other of said end positions.
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23. A method of forming a permanent magnet latching solenoid comprising the steps of:
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providing a bobbin assembly that includes a magnetically non-conductive bobbin with a passage extending therethrough between opposite ends of said bobbin along a predetermined axis, an electrical coil on said bobbin, a magnetically permeable bushing at each end of said passage and defining, with said bobbin, a bore extending along said axis, and an armature disposed in and movable axially of said bore, each of said bushings having an inner end and an outer end;
providing a magnetically permeable frame having end walls that are spaced from one another a distance approximately equal to the distance between said outer ends of said bushings and having an open side extending between said end walls; and
inserting said bobbin assembly into said frame through said open side with said opposite ends of said bushings adjacent said end walls. - View Dependent Claims (24, 25, 26, 27, 28, 29, 30, 31)
engaging said protrusions in said recesses during said insertion of said bobbin assembly into said frame. -
27. A method of forming a permanent magnet latching solenoid as in claim 26 including the step of staking a portion of said frame against at least one of said protrusions, thereby securing said bobbin assembly and said frame in predetermined positions relative to one another.
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28. A method of forming a permanent magnet latching solenoid as in claim 23 wherein the step of providing said bobbin assembly includes a step of retentively engaging one of said bushings to said bobbin at each end of said passage.
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29. A method of forming a permanent magnet latching solenoid as in claim 28 wherein each of said bushings is press-fit into said bobbin.
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30. A method of forming a permanent magnet latching solenoid as in claim 23 wherein at least one of said end walls is provided with an opening therethrough, and including the steps of inserting an operating element through said opening and affixing said operating element to said armature in said bobbin.
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31. A method of forming a permanent magnet latching solenoid as in claim 30 wherein each of said end walls is provided with an opening therethrough and said armature has a central opening therethrough, and including the step of inserting such an operating element through both of said end walls and through said armature.
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32. A permanent magnet latching solenoid which comprises a bobbin that defines an axial passage,
an electrical winding on said bobbin, magnetically permeable bushings in press-fit engagement within said bobbin at each end of said passage, said bushings being of axial lengths substantially equal to one another and defining with said passage a bore which extends axially of said bobbin from the distal end of one of said bushings to the distal end of the other of said bushings, an armature within said bore, said armature being of an axial length substantially less than the axial length of said bore and being freely reciprocable axially of said bore between two end positions in each of which one end portion of said armature is within the bushing at the respective end of said bore and an opposite end portion of said armature is at least near the bushing at the opposite end of said bore, an operator element attached to said armature, a separate magnetically permeable frame around said bobbin and including end walls extending over the distal ends of said bushings, whereby each of said end walls overlies said distal end of the respective bushing and an assembly comprising said bobbin, said bushings and said arm armature fits within said frame between said end walls, said distal ends of said bushings being disposed adjacent to and in magnetically permeable coupling relationship with the respective end walls, permanent magnets disposed on opposite sides of said bobbin, within said frame, between said bushings, said magnets mounted by press-fit engagement with said bobbin and with said frame and magnetically coupling with said armature and said frame to magnetically latch said armature in each of said end positions, and said coil, when activated by an appropriate electrical pulse, creating a magnetic field coupling through said frame, armature and bushings to drive said armature from either of said end positions toward the other of said end positions.
Specification