Claims
- 1. A print pin driver for a dot matrix printer comprising:
- (a) a U-shaped core having a pair of parallel spaced legs and formed of a plurality of laminations of a material having the magnetic qualities of silicon iron;
- (b) a magnetic field-forming coil tightly wound about one of said legs to increase the magnetic flux;
- (c) a magnetic flux plate of a material having the magnetic qualities of silicon iron disposed across the open end of the U of said core between said legs, said flux plate being attached to the other of said legs and in close-spaced adjacent relationship to said one of said legs, the flux plate defining a top surface over the other leg, said flux plate having an opening therethrough over said one of said legs and longitudinally aligned therewith;
- (d) a longitudinal spring-metal beam disposed along said flux plate, said beam being attached at one end to said top surface and the other end thereof extending out over said flux plate with an inclination relative to said flux plate, said beam including an armature piece of magnetically attractable material disposed within said opening in said flux plate, said beam tapering from adjacent said armature piece to said other end thereof and having one edge forming a reinforcing rib along said tapered portion;
- (e) a print pin carried by said other end of said beam and disposed substantially parallel to said one leg of said core; and
- (f) a heat sink and mounting block member, individual to said pin driver, in close thermoconductive contact with said other of said legs, said heat sink and mounting block member fixedly supporting the core and including means for mounting said beam and said flux plate and means for mounting the print pin driver to a print head support structure;
- whereby, upon activation of said coil, said armature and spring beam are attracted to said one of said legs to drive said print pin to printing impact.
- 2. The print pin driver of claim 1 wherein:
- said core and said flux plate are both laminated and of unitary construction.
- 3. The print pin driver of claim 1 wherein:
- said flux plate is a separate single piece of material.
- 4. The print pin driver of claim 1 wherein:
- said armature piece and said opening through said flux plate are rectangular in shape.
- 5. The print pin driver of claim 1 wherein:
- said coil is wound directly on said one leg of said core and is generally rectangular in cross section.
- 6. The print pin driver of claim 1 wherein:
- (a) said core and flux plate are of silicon iron; and,
- (b) said block is of aluminum.
- 7. The print pin driver of claim 1 and additionally comprising:
- a damping arm disposed above said reinforcing rib to contact said rib on its return from a printing movement, said damping arm including an adjustable damping head.
- 8. The print pin driver of claim 1 wherein said damping head includes:
- (a) impact portion means for being struck by said reinforcing rib without damage to said impact portion means or said rib;
- (b) inertia means communicating with said impact portion means for providing a high mass to resist initial movement following an impact; and,
- (c) damping means communicating with said inertia means for providing compressible movement and restoration of said impact portion means and said inertia means following an impact by said reinforcing rib.
- 9. A print pin driver for a dot matrix printer comprising:
- a heat sink and mounting block member supporting one leg of a U-shaped laminated core member, said U-shaped core member having a coil wound around the other leg thereof, said heat sink and mounting block member supporting a flux plate disposed across the open end of the U of said core and one end of a beam, said beam supporting an armature intermediate its ends and a print pin adjacent the other end thereof, said armature being attractable toward said other leg upon energization of said coil to drive said print pin to printing impact, said heat sink and mounting block member further supporting an adjustable damper 118 for damping return movement of said beam after printing impact, wherein said heat sink and mounting block member is in intimate thermoconductive contact with said one leg of said core member and said heat sink and mounting block member includes means for mounting said beam and said flux plate and means for mounting the print pin driver to a print head support structure.
Parent Case Info
This is a continuation-in-part of copending application(s) Ser. No. 911,954 filed on Sept. 25, 1986, which was a CIP of Ser. No. 519,880 filed on Aug. 2, 1983, which was a CIP of Ser. No. 436,950 filed Oct. 27, 1982, now U.S. Pat. No. 4,531,848.)
US Referenced Citations (8)
Continuation in Parts (3)
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Number |
Date |
Country |
Parent |
911954 |
Sep 1986 |
|
Parent |
519880 |
Aug 1983 |
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Parent |
436950 |
Oct 1982 |
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