US2923794A - Subminiature relay - Google Patents

Subminiature relay Download PDF

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US2923794A
US2923794A US651623A US65162357A US2923794A US 2923794 A US2923794 A US 2923794A US 651623 A US651623 A US 651623A US 65162357 A US65162357 A US 65162357A US 2923794 A US2923794 A US 2923794A
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armature
ball
portions
polepieces
relay
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US651623A
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Royal V Keeran
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BRUBAKER ELECTRONICS Inc
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BRUBAKER ELECTRONICS Inc
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H50/00Details of electromagnetic relays
    • H01H50/16Magnetic circuit arrangements
    • H01H50/18Movable parts of magnetic circuits, e.g. armature
    • H01H50/30Mechanical arrangements for preventing or damping vibration or shock, e.g. by balancing of armature

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  • the present invention relates to improved relay structure which, as described herein, is of relatively small size and capable of operating satisfactorily under vibrational conditions and/or while subjected to large acceleration or deceleration forces.
  • Another object of the present invention is to provide an improved relay of this character having a plug-type base and which is enclosed by a small generally rectangular housing.
  • Another object of the present invention is to provide an improved relay of this character having a novel pivoted armature structure cooperating magnetically with a pair of polepieces so that the same may operate satisfactorily even though subjected to high vibrational and/or acceleration or deceleration forces.
  • Another specic object of the present invention is to provide an improved relay having a movable armature structure which is balanced both statically and dynamically so as to achieve the above indicated results-
  • Another specific object of the present invention is to providean improved relay construction with associated mounting means allowing convenient mounting in a rectangular housing.
  • Another object of the present invention is to provide a subminiature relay construction in which the small elements thereof may be conveniently and expeditiously assembled.”
  • Figurel is a combined sectional and elevational view of a relay construction in the process of being assembled within a rectangular housing and shows also a convenient auxiliary holder which is used only in the assembly process.
  • Figure 2 is a top plan view of a relay before placement in the rectangular housing.
  • Figure 3 is a sectional view taken generally on the line 3-3 of Figure l.
  • Figure 4 isa vsectional view taken generally on the line 4 4 of Figure 2.
  • Figure 5 is a view taken generally in the direction indicated by the line 5-5 in Figure 4.
  • Figure 6 is a perspective View of elements of the relay and auxiliary mounting holder illustrated in detached relationship, but without the Vcoil on the core member.
  • the relay includes a novel solenoid construction and the ,energizing winding therefore is a cylindrical toroidal ⁇ winding 10 wound on and closely fitting the cylindrical portion 11A of the specially formed and ground core member 11 having otset spaced polepieces 11B and 11C.
  • the polepieces 11B and 11C, as shown in Figure 6, are in the form of rectangular blocks which, however, have their central axes olset with respect to the axis of the cylindrical portion 11A on which the winding is wound.
  • the insulated wire comprising the winding 10 is wound directly on the cylindrical portion 11A with insulated spacers 12 and 13 abutting the polepieces 11B and 11C yto insulate the winding.
  • a special form of armature 14, ball bearing mounted, cooperates magnetically with the polepieces 11B and 11C, and includes generally a rectangular apertured member, as shown in Figure 6, with a pair of olset portions 14B and 14C for magnetic attraction by the oiset polepieces 11B and 11C, respectively.
  • the armature is pivotally mounted, using the following construction, on bearing balls 15 and 16.
  • the upper bearing ball 16 is smaller than the centrally apertured portion 14A in the armature and contacts the chamfered apertured portion 17A ( Figure 4) in ythe upper bearing plate 17, and also contacts the four resilient lingers 18A of the generally U-shaped retaining member 18 which is retained by its inwardly extending portions 18B, 18C on the armature 14.
  • the lower ball 15 has a diameter slightly larger than the diameter of the centrally apertured bore 14D in the armature (the bores 14A and 14D are centrally aligned), so that the ball 15 contacts the inner cylindrical wall of the bore 14D, as shown in Figure 4.
  • the ball 15 is also in contact with the chamfered portion 19A of the lower bearing plate 19.
  • the upper and lower bearing plates 17 and 19 are secured on the spaced polepieces 11B and 11C by staking, riveting, or the like.
  • the upper and lower bearing plates 17 and 19 each have correspond ing offset portions 17B, 17C and 19B, 19C, with aligned apertured portions that are also aligned with the aper tured portions 11D and 11E so as to receive the fastening pins or rivets 20, 21.
  • the ball 15 is placed in the apertured portion 14D, the upper ball 16 is placed in the apertured portion 14A and the resilient retaining member 18 is slipped into place on the armature 14 so that each one of the resilient fingers 18A exerts substantially equal forces on the ball 16; and to secure the assembly, a fastening pin is placed through the aligned apertured portions 18D and 14E.
  • the armature 14 is pivotally mounted on the bearing plates 17 and '1,9 on the spring loaded balls 15 and 16.
  • the armature 14 has secured thereto, by, for example, welding, one end of two switch actuating pins 22 and 23, the lower ends of such pins 22 and 23 having formed thereon insulated glass beads 24 and 25, respectively, and it is these beads 24 and 25 which contact switch ele ⁇ - ments, as described later, for actuation of the associated switches.
  • the relay switch as shown herein is essentially a double pole, double throw switch with movable arms 27 and 28 ( Figure 5).
  • the switch elements (with the exception of the actuating beads 24 and 25) are mounted onfa metallic base 30 through which pins extend, the pins, however, being insulated from the base 30 using conventional construction.
  • These pins or posts are relatively long and extend through an auxiliary rectangular block 32 which pro# vides a convenient holder for assembly purposes; considering the fact that the relay elements are very small after complete assembly the block 32 is no longer used and the pins are cut so as to provide short mounting pins that may be inserted in an electrical connector (not shown).
  • the pins 34, 35, 36 and 37 have stationary contacts 34A, 35A, 36A and 37A secured thereto.
  • the pins 38 [mdf 39Jhaye'; releasablyvv secured thereto oneend of the' movable switch arms 28 and 27, respectively.v
  • each of the arms 27 and 28, as shown in Figure 6, has outwardly extending bowed portions 28A and ,Y 2.831. w-rssilientlr engage theiry Suppertins posts-1.
  • The.Y switch arms 277. ⁇ and 28s are. ⁇ of resilient. material and,c onstantly engage. lthe corresponding. glass', beads.. 25 and. 24 soas to biasithe armature portions14Band ⁇ 14C awayl from the corresponding, polepiecesy 11B and1-1 ⁇ C.
  • the lower inner edgeV of the casing 40 snugly. contacts vthe rectangular base 30: and is provided with. a pair of apertured. portions 40A and 40B through. which extensions. 17D and17E pass. The. upperends of these ex- .,tensions 17E and-17D are secured. to such. apertured portions 40A, 40B, by soldering, or the like, and the lower yportion of the casing 40 may likewise be rsoldered 'ak-long itscontact surface with the base-30 to provide a vjhermetically sealed relay. construction. If desired, the lcasing., may be filled ⁇ with an inert gas after prior evacuation, using well known ltechniques.
  • cooperating faces ofthe armature portions 14B and 14C l (in the energized condition)l extend generally parallel ⁇ with yand inthe same plane in which the axis of the core portion 11A lies.
  • some anti-.freeze such as a thin layer of non-magnetizable material, for example copper, may beplatedY or painted on theadjacent coopn Aerating, magnetic surfacesof the. armatureandpolepieces.
  • the two leads.- of the actuating winding 10- are, in the lassembly process,v soldered to the soldering lugs which are provided on the pins 42 and 43l
  • the relay is illustrated in its non-energized condition, but may be energized by applying the ycoil voltage to pins 4 2 and 43 in which case the armature 14 is pivoted from its non-energized condition shown in Figure 2, due to the magneticattraction, on the one hand, between elementsv 11B, 14B and, on the other hand, by the magnetic -lattraction'between 11C and 14C, in which case the. glass Vbeads 2 4, 25 ( Figure 5) carried by the armature 14 move the switch arms 27 and 28 to their other positions.
  • a solenoid construction comprising a core member 'raVing/acentral portionvwith. two integrally formed offpolepieces, a.winding on the central portion of said ,"core member, a generally open rectangular armature ,surrounding said. coland having offset portions.
  • said armatures portions. and polepieces having magnetically cooperating faces, and means pivotally mounting said armatureV about an' axis passing through said central portion with the faces of the odset polepieces and the faces of said armature offset portions lying substantially in a common plane with the axis of said central portion.
  • said armature having. first,Y and second. centrallyr disposed and valigned apertured portions, a tirst ⁇ bearinglball engageable with saidchamfered portion of. saidV first. kplate and withthe iirstapertured. portion. in said ⁇ armature, asceond ball engageable, with the chamfered portion in the rsecond plate and having. a diameter lessy than the. diame- .ter inthe second aperturedportion-ofsaid armature and beingdisposed.
  • An arrangementiasset,forth inclaim 2 including a switch base, means securing saidswitch base to. said first bearing ⁇ plate, a pair of resilient movableY switch arms mounted on said, basea pair ofswitch actuating arms.
  • a core i member having ay central'portion with a pair of otset integrally formedfpolepi'eces at theV endsV thereof,'a' winding on said central portion'of said" core'member,A a generally open rectangular armature,surroundingsaid' winding and having offset ends magnetically cooperatingwith said polepieces, andmeans pivotallyimounting said armature on said core member.
  • first btlrillg ball having adiameterlessthan the' vfirst apertured portion in the armature to receive said first ball, said first ball being in contact with said seat in said first bearing plate and in contact with said first aper tured portion in the armature, a second bearing ball having a diameter less than said second aper-tured portion in said armature so that said second ball may freely pass through said second arma-ture apertured portion and a resilient clip slidably mounted on said armature and having resilient'portions engaging said second bearing ball and pressing said second bearing ball in the seat of said second bearing plate.
  • a core member a winding on said core member, said core member having pole pieces at its opposite ends, an armature having ends thereof cooperating magnetically with said pole pieces, a first bearing plate secured to said core member and extending between said armature and said core member, a second bearing plate secured to said core member and extending between said core member and said armature, said first and second plates each having a bearing ball seat, said armature having a first and second centrally disposed and aligned apertured portions, a first bearing ball having a diameter less than the first apertured portion in the armature to receive said first ball, said first ball being in contact with said seat in said first bearing ball and in contact with said first apertured portion in the armature, a second bearing ball having a diameter less than said second apertured portion in said armature so that said second ball may freely pass through said second armature apertured portion, and resilient means on said armature engaging said second bearing ball and pressing said second bearing ball in the seat of said second bearing plate.
  • a solenoid construction comprising a core member having a central portion with two pole pieces, a winding on the central portion off said core member, a generally open rectangular armature surrounding said coil and having portions attracted by said pole pieces, said armature portions and pole pieces having magnetically cooperating faces, and means pivotally mounting said armature about an axis passing through said central portion with the faces of the pole pieces and the faces of said armature portions lying substantially in a common plane with the axis of said central portion.

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  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Electromagnets (AREA)

Description

Feb. 2, 1960 R. v. KEI-:RAN
SUBMINIATURE RELAY Filed April 9, 1957 2 Sheets-Sheet -1 E \Q A .w .y
z. nb W 4 am uw E 1 m Y. L l l/,T D u MWI Jn /f H .m 1- B L11 1L e n 2 B 7 A 5 w l H a y 5 Feb. 2, 1960 R. V, KEERAN 2,923,794
SUBMINIATURE RELAY Filed April 9, 1957 2 Sheets-Sheet 2 United States Patent-#O 2,923,794 SUBMINIATURE RELAY Royal V. Keeran, Los Angeles, Calif., assigner to Brubaker Electronics, Inc., Culver City, Calif., a corporation of California The present invention relates to improved relay structure which, as described herein, is of relatively small size and capable of operating satisfactorily under vibrational conditions and/or while subjected to large acceleration or deceleration forces.
It is an object of the present invention to provide a relay construction having the above indicated properties.
Another object of the present invention is to provide an improved relay of this character having a plug-type base and which is enclosed by a small generally rectangular housing.
Another object of the present invention is to provide an improved relay of this character having a novel pivoted armature structure cooperating magnetically with a pair of polepieces so that the same may operate satisfactorily even though subjected to high vibrational and/or acceleration or deceleration forces.
Another specic object of the present invention is to provide an improved relay having a movable armature structure which is balanced both statically and dynamically so as to achieve the above indicated results- Another specific object of the present invention is to providean improved relay construction with associated mounting means allowing convenient mounting in a rectangular housing.
Another object of the present invention is to provide a subminiature relay construction in which the small elements thereof may be conveniently and expeditiously assembled."
The featuresvof the present invention which are believed to be novel are set forth with particularity in the appended claims. organization and manner of operation, together with further objects and advantages thereof, may be best understood by reference to the following description taken in connection with the accompanying drawings in which:
Figurel is a combined sectional and elevational view of a relay construction in the process of being assembled within a rectangular housing and shows also a convenient auxiliary holder which is used only in the assembly process.
Figure 2 is a top plan view of a relay before placement in the rectangular housing.
Figure 3 is a sectional view taken generally on the line 3-3 of Figure l.
Figure 4 isa vsectional view taken generally on the line 4 4 of Figure 2.
Figure 5 is a view taken generally in the direction indicated by the line 5-5 in Figure 4.
Figure 6 is a perspective View of elements of the relay and auxiliary mounting holder illustrated in detached relationship, but without the Vcoil on the core member.
The relay includes a novel solenoid construction and the ,energizing winding therefore is a cylindrical toroidal `winding 10 wound on and closely fitting the cylindrical portion 11A of the specially formed and ground core member 11 having otset spaced polepieces 11B and 11C.
This invention itself, both as to its` The polepieces 11B and 11C, as shown in Figure 6, are in the form of rectangular blocks which, however, have their central axes olset with respect to the axis of the cylindrical portion 11A on which the winding is wound.
The insulated wire comprising the winding 10 is wound directly on the cylindrical portion 11A with insulated spacers 12 and 13 abutting the polepieces 11B and 11C yto insulate the winding.
A special form of armature 14, ball bearing mounted, cooperates magnetically with the polepieces 11B and 11C, and includes generally a rectangular apertured member, as shown in Figure 6, with a pair of olset portions 14B and 14C for magnetic attraction by the oiset polepieces 11B and 11C, respectively. The armature is pivotally mounted, using the following construction, on bearing balls 15 and 16.
The upper bearing ball 16 is smaller than the centrally apertured portion 14A in the armature and contacts the chamfered apertured portion 17A (Figure 4) in ythe upper bearing plate 17, and also contacts the four resilient lingers 18A of the generally U-shaped retaining member 18 which is retained by its inwardly extending portions 18B, 18C on the armature 14. The lower ball 15 has a diameter slightly larger than the diameter of the centrally apertured bore 14D in the armature (the bores 14A and 14D are centrally aligned), so that the ball 15 contacts the inner cylindrical wall of the bore 14D, as shown in Figure 4. The ball 15 is also in contact with the chamfered portion 19A of the lower bearing plate 19. y
The upper and lower bearing plates 17 and 19 are secured on the spaced polepieces 11B and 11C by staking, riveting, or the like. For this purpose, the upper and lower bearing plates 17 and 19 each have correspond ing offset portions 17B, 17C and 19B, 19C, with aligned apertured portions that are also aligned with the aper tured portions 11D and 11E so as to receive the fastening pins or rivets 20, 21.
In this subassembly the ball 15 is placed in the apertured portion 14D, the upper ball 16 is placed in the apertured portion 14A and the resilient retaining member 18 is slipped into place on the armature 14 so that each one of the resilient fingers 18A exerts substantially equal forces on the ball 16; and to secure the assembly, a fastening pin is placed through the aligned apertured portions 18D and 14E. By this construction the armature 14 is pivotally mounted on the bearing plates 17 and '1,9 on the spring loaded balls 15 and 16.
The armature 14 has secured thereto, by, for example, welding, one end of two switch actuating pins 22 and 23, the lower ends of such pins 22 and 23 having formed thereon insulated glass beads 24 and 25, respectively, and it is these beads 24 and 25 which contact switch ele`- ments, as described later, for actuation of the associated switches.
The relay switch as shown herein is essentially a double pole, double throw switch with movable arms 27 and 28 (Figure 5). v
The switch elements (with the exception of the actuating beads 24 and 25) are mounted onfa metallic base 30 through which pins extend, the pins, however, being insulated from the base 30 using conventional construction. These pins or posts are relatively long and extend through an auxiliary rectangular block 32 which pro# vides a convenient holder for assembly purposes; considering the fact that the relay elements are very small after complete assembly the block 32 is no longer used and the pins are cut so as to provide short mounting pins that may be inserted in an electrical connector (not shown). Q
The pins 34, 35, 36 and 37 have stationary contacts 34A, 35A, 36A and 37A secured thereto. The pins 38 [mdf 39Jhaye'; releasablyvv secured thereto oneend of the' movable switch arms 28 and 27, respectively.v For this purpose, each of the arms 27 and 28, as shown in Figure 6, has outwardly extending bowed portions 28A and ,Y 2.831. w-rssilientlr engage theiry Suppertins posts-1.
The.Y switch arms 277.` and 28s are.` of resilient. material and,c onstantly engage. lthe corresponding. glass', beads.. 25 and. 24 soas to biasithe armature portions14Band`14C awayl from the corresponding, polepiecesy 11B and1-1`C.
The lower inner edgeV of the casing 40 snugly. contacts vthe rectangular base 30: and is provided with. a pair of apertured. portions 40A and 40B through. which extensions. 17D and17E pass. The. upperends of these ex- .,tensions 17E and-17D are secured. to such. apertured portions 40A, 40B, by soldering, or the like, and the lower yportion of the casing 40 may likewise be rsoldered 'ak-long itscontact surface with the base-30 to provide a vjhermetically sealed relay. construction. If desired, the lcasing., may be filled` with an inert gas after prior evacuation, using well known ltechniques.
In lorder thattherelay may operate satisfactorilyI under extreme, conditions of vibration and/or acceleration Vor deceleration, special care is taken to provide a` statically and dynamically balanced armature 14, and this entails a grinding process in the, tinal stages of,l fabrication of the. armature 114..
Itv willbe observed that the magnetically cooperating surfaces of the polepieces 11B and 11C andmagnetically i assembly, 'andis secured, using, thefollowing technique.
cooperating faces ofthe armature portions 14B and 14C l (in the energized condition)l extend generally parallel `with yand inthe same plane in which the axis of the core portion 11A lies. If desired, some anti-.freeze such as a thin layer of non-magnetizable material, for example copper, may beplatedY or painted on theadjacent coopn Aerating, magnetic surfacesof the. armatureandpolepieces.
, The two leads.- of the actuating winding 10-are, in the lassembly process,v soldered to the soldering lugs which are provided on the pins 42 and 43l The relay is illustrated in its non-energized condition, but may be energized by applying the ycoil voltage to pins 4 2 and 43 in which case the armature 14 is pivoted from its non-energized condition shown in Figure 2, due to the magneticattraction, on the one hand, between elementsv 11B, 14B and, on the other hand, by the magnetic -lattraction'between 11C and 14C, in which case the. glass Vbeads 2 4, 25 (Figure 5) carried by the armature 14 move the switch arms 27 and 28 to their other positions. .Upon subsequent de-energization of the coil 10, theresilient switch arms 27 and 28 cause the armature14 to vbe rturnedto its non-energized position shown in Fig- 111'6' While the particular embodiments of the present invention have been shown and described, it will be'` obvious to those skilled in the art that changes and modiica'tions may be made without departing from this invention inits broader aspects and, therefore, the aim in the appended claims is to `cover all such changes and frnodications as fall within the true spirit and scope of this invention.
cl'airr'i:-`
`l'. A solenoid construction, comprising a core member 'raVing/acentral portionvwith. two integrally formed offpolepieces, a.winding on the central portion of said ,"core member, a generally open rectangular armature ,surrounding said. coland having offset portions. at-
ltracte'r by said polepieces, said armatures portions. and polepieces having magnetically cooperating faces, and means pivotally mounting said armatureV about an' axis passing through said central portion with the faces of the odset polepieces and the faces of said armature offset portions lying substantially in a common plane with the axis of said central portion.
2. In an arrangement' ofi' tli'e character described, a core member-having, acylindrical. central portion integrally formed at the ends thereof with generally rectangularoffset polepieces, au generally rectangularopenarmature hav-ing ois'et portions attracted by said polepieces, said armature portions and'polepieces havingl cooperating'planar.` faces. which lie substantially. in a common plane with the axis of said cylindrical portion, `a coil wound around" said cy-lindrical portion, a first bearing plate, a second bearing plate, means securing said first plate and said second plate in spaced relationship on, said polepieces,said rst and. second; plates. having a centrally located. chamfered. ball. engaging. portion, said armature having. first,Y and second. centrallyr disposed and valigned apertured portions, a tirst` bearinglball engageable with saidchamfered portion of. saidV first. kplate and withthe iirstapertured. portion. in said` armature, asceond ball engageable, with the chamfered portion in the rsecond plate and having. a diameter lessy than the. diame- .ter inthe second aperturedportion-ofsaid armature and beingdisposed. in ysaid second armature apertured portion, said rst and second plates being disposedbetween said armature andsaid, core memberandaresilient clip mounted on saidarmatureand-y pressing said second ball into engagement with said'chamfercd portion of saidsecond vbearing plate.
3. An arrangementiasset,forth inclaim 2, including a switch base, means securing saidswitch base to. said first bearing` plate, a pair of resilient movableY switch arms mounted on said, basea pair ofswitch actuating arms. ex-
`tending from said armature f and engageabllewith rcorresponding switch arms, vsaid switch arms being Iresilient and urgingsaid armature offset' portions away fromV said polepieces v i 4l An' arrangement as set forth in claim 3, including a casing `snugl'y fitted around said base and'enclosing, said switch, said core member and saidv armature, said casing having two spaced apertured portions', a pair of integrally formed extensions on said secondbearing plate extending through said casing apertured portions and'se- V .5.r Anv arrangement'v asset forth in claim 4 vin which said means for securing said. switch 'baseto sad first bearing plate comprises al pair of resilient' clips engageable with said first bearing plate..
6.. An arrangement as setforth inV claim' 5, including contact pinsy extending through saidswitch basefand mounting said switch actuating' arms.
7. In an arrangement of the character described', a core i member having ay central'portion with a pair of otset integrally formedfpolepi'eces at theV endsV thereof,'a' winding on said central portion'of said" core'member,A a generally open rectangular armature,surroundingsaid' winding and having offset ends magnetically cooperatingwith said polepieces, andmeans pivotallyimounting said armature on said core member.
8. In an arrangement of the character. describedLa core member, a winding on said'coremember, saidcore member having polepieces at its opposite ends, yan armature having ends'thereof..cooperating.magnetically with said polepieces, a tirstlbenring 4platesecu'redto saidcore member and extending between ,said armature` and' said core member, .a second bearing plate secured tojsaidcore member and extending between said core memberand said armature, said first and second plateseach havinga f bearing ballseat, said armaturehavingja' iirsrand second. centrally disposedand aligned aperturedf: portions, a
,first btlrillg ball having adiameterlessthan the' vfirst apertured portion in the armature to receive said first ball, said first ball being in contact with said seat in said first bearing plate and in contact with said first aper tured portion in the armature, a second bearing ball having a diameter less than said second aper-tured portion in said armature so that said second ball may freely pass through said second arma-ture apertured portion and a resilient clip slidably mounted on said armature and having resilient'portions engaging said second bearing ball and pressing said second bearing ball in the seat of said second bearing plate.
9. An arrangement as set forth in claim 8, including a switch base, a resilient clip securing said base to said first bearing plate, a resilient switch actuating arm mounted on said base, a switch actuating finger attached to said armature and engaging said resilient switch arm so that said switch arm biases said amature away from said polepieces.
10. In an arrangement of the character described, a core member, a winding on said core member, said core member having pole pieces at its opposite ends, an armature having ends thereof cooperating magnetically with said pole pieces, a first bearing plate secured to said core member and extending between said armature and said core member, a second bearing plate secured to said core member and extending between said core member and said armature, said first and second plates each having a bearing ball seat, said armature having a first and second centrally disposed and aligned apertured portions, a first bearing ball having a diameter less than the first apertured portion in the armature to receive said first ball, said first ball being in contact with said seat in said first bearing ball and in contact with said first apertured portion in the armature, a second bearing ball having a diameter less than said second apertured portion in said armature so that said second ball may freely pass through said second armature apertured portion, and resilient means on said armature engaging said second bearing ball and pressing said second bearing ball in the seat of said second bearing plate.
ll. A solenoid construction comprising a core member having a central portion with two pole pieces, a winding on the central portion off said core member, a generally open rectangular armature surrounding said coil and having portions attracted by said pole pieces, said armature portions and pole pieces having magnetically cooperating faces, and means pivotally mounting said armature about an axis passing through said central portion with the faces of the pole pieces and the faces of said armature portions lying substantially in a common plane with the axis of said central portion.
References Cited in the le of this patent UNITED STATES PATENTS 1,763,003 Mead June 10, 1930 2,428,218 Herbst Sept. 30, 1947 2,436,354 Burke e-t al. Feb. 17, 1948 2,718,568 Somers Sept. 20, 1955 2,760,026 Horlacher Aug. 21, 1956 2,777,922 Horman Jan. 15, 1957 2,793,266 Rechard May 21, 1957- 2,800,553 Ammon July 23, 1957
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Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3042775A (en) * 1959-09-09 1962-07-03 North Electric Co Relay
US3059076A (en) * 1960-04-05 1962-10-16 Allied Control Co Electromagnetic switch
US3092700A (en) * 1960-07-07 1963-06-04 Automatic Elect Lab Electrical relays
US3098135A (en) * 1962-02-15 1963-07-16 Clare & Co C P Relay construction
US3109077A (en) * 1959-09-18 1963-10-29 Allied Control Co Electromagnetic switch apparatus
US3147349A (en) * 1960-10-26 1964-09-01 Control Dynamics Corp Electromagnetic relay
US3198909A (en) * 1960-03-24 1965-08-03 North Electric Co Relay structure with improved armature pivot
US3202782A (en) * 1961-12-26 1965-08-24 Bourns Inc Pivoted armature electromagnetic switch
US3234345A (en) * 1960-04-11 1966-02-08 Carpenter Rupert Evan Howard Electromagnetic relay having novel field pieces and a novel coil bobbin
US3283272A (en) * 1965-02-02 1966-11-01 Hi G Inc Rotary armature miniature relay
US3315195A (en) * 1964-11-02 1967-04-18 Allied Control Co Electromagnetic switching relay with permanent magnetic latch means
US3329791A (en) * 1965-06-01 1967-07-04 Leach Corp Integral terminal pin contact structure for relays

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US1763003A (en) * 1929-05-06 1930-06-10 Bell Telephone Labor Inc Electromagnetic device
US2428218A (en) * 1942-12-18 1947-09-30 North Electric Mfg Company Telegraph relay
US2436354A (en) * 1943-10-11 1948-02-17 Morgan Maree Jr A Electromagnet with armature
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US2760026A (en) * 1951-01-08 1956-08-21 Clare & Co C P Relay
US2777922A (en) * 1953-09-17 1957-01-15 Allied Control Co Electromagnetic switch
US2793266A (en) * 1953-10-23 1957-05-21 Gen Railway Signal Co Induction type alternating current relay
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US1763003A (en) * 1929-05-06 1930-06-10 Bell Telephone Labor Inc Electromagnetic device
US2428218A (en) * 1942-12-18 1947-09-30 North Electric Mfg Company Telegraph relay
US2436354A (en) * 1943-10-11 1948-02-17 Morgan Maree Jr A Electromagnet with armature
US2760026A (en) * 1951-01-08 1956-08-21 Clare & Co C P Relay
US2718568A (en) * 1952-08-19 1955-09-20 Connecticut Valley Entpr Inc Rotary type relays
US2777922A (en) * 1953-09-17 1957-01-15 Allied Control Co Electromagnetic switch
US2793266A (en) * 1953-10-23 1957-05-21 Gen Railway Signal Co Induction type alternating current relay
US2800553A (en) * 1955-05-02 1957-07-23 Roscoe A Ammon Moving coil mechanism

Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3042775A (en) * 1959-09-09 1962-07-03 North Electric Co Relay
US3109077A (en) * 1959-09-18 1963-10-29 Allied Control Co Electromagnetic switch apparatus
US3198909A (en) * 1960-03-24 1965-08-03 North Electric Co Relay structure with improved armature pivot
US3059076A (en) * 1960-04-05 1962-10-16 Allied Control Co Electromagnetic switch
US3234345A (en) * 1960-04-11 1966-02-08 Carpenter Rupert Evan Howard Electromagnetic relay having novel field pieces and a novel coil bobbin
US3092700A (en) * 1960-07-07 1963-06-04 Automatic Elect Lab Electrical relays
US3147349A (en) * 1960-10-26 1964-09-01 Control Dynamics Corp Electromagnetic relay
US3202782A (en) * 1961-12-26 1965-08-24 Bourns Inc Pivoted armature electromagnetic switch
US3098135A (en) * 1962-02-15 1963-07-16 Clare & Co C P Relay construction
US3315195A (en) * 1964-11-02 1967-04-18 Allied Control Co Electromagnetic switching relay with permanent magnetic latch means
US3283272A (en) * 1965-02-02 1966-11-01 Hi G Inc Rotary armature miniature relay
US3329791A (en) * 1965-06-01 1967-07-04 Leach Corp Integral terminal pin contact structure for relays

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