US997406A - Key-socket switch mechanism. - Google Patents

Key-socket switch mechanism. Download PDF

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Publication number
US997406A
US997406A US61166511A US1911611665A US997406A US 997406 A US997406 A US 997406A US 61166511 A US61166511 A US 61166511A US 1911611665 A US1911611665 A US 1911611665A US 997406 A US997406 A US 997406A
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Prior art keywords
yoke
cam
circuit closer
circuit
base
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US61166511A
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Harry J Morey
Fay A Brogden
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R33/00Coupling devices specially adapted for supporting apparatus and having one part acting as a holder providing support and electrical connection via a counterpart which is structurally associated with the apparatus, e.g. lamp holders; Separate parts thereof
    • H01R33/945Holders with built-in electrical component
    • H01R33/955Holders with built-in electrical component with switch operated manually and independent of engagement or disengagement of coupling
    • H01R33/9555Holders with built-in electrical component with switch operated manually and independent of engagement or disengagement of coupling for screw type coupling devices

Definitions

  • Our device has the necessary qualities of strength, simplicity and economy in making and assembling.
  • the essential features are the circuit, closer, adapted to carry the current from a contact point at one end to the contact" Our invention, and ,a desirable form of.
  • Figure 1 is aside elevation of a socket constructed according to our invention. It
  • Figs. 2 and 3 are sections at a right angle to Fig. 1, with the switch parts in. the two different positions.
  • Fig. 4 is a bottom plan place but with 'a portion of the circuit closer broken away.
  • Fig. 5 is a bottom planof the upper block with all the switch parts removed, showing the grooves for receiving said parts.
  • Fig. 6 is a plan of the upper surfaces of the lower block.
  • Fig. 7 is a plan of the lower surfaces of the lower block.
  • Fig. 8 is an isometric view of the switch mechanism detached, enlarged and :reversed.
  • Fig. 9 shows a modified-form of switch.
  • 1 indicates the upper block of the insulating base preferably of porce- :lalIl
  • 2 the lower block
  • 3 one of the wire terminals, secured to, the lower block by a suit-- able screw and extending down over the lower surface of the block to formcthe cen-' tral lamp terminal '5.
  • 7 is the second wire terminal also secured in position bya suitable screw, having a contact tip 9 extending into the notch 10 in position to be engaged @by one end of the circuit closer.
  • the outer :lamp terminal 12 is widely separated from this second wire terminal but is directly connected by one of its contact screws 1313 (which also unite the two blocks and main- ;tain all the interior parts in position) to a contact piece 14:, having a contact tip 15 extending into the second notch 16 in position to be engaged by the opposite end of the circuit closer.
  • These notches may be ⁇ practically closed by extensions on one block or the other so that theswitch mechanism may be confined in a closed chamber.”
  • 320 is the circuit closer of any convenient form' adapted to span the space between said two contact tips. As here shown, it is moved. in one direction by the cam 26,
  • This cam may be of any suitable material, either metal or porcelain, and is fitted to its spindle 29, suitably journaled on the base, for in stance bet-ween the two blocks, and is provided with an external thumb-piece 30.
  • This thumb-piece may be fitted 011 the spindle or connected thereto by the usual pin and slot permitting lost motion.
  • the yoke may be so stamped and formed in a single piece and at one operation, or as here indicated it may desirably be formed for reasons of strength and rigidity of a slightly heavier base-plate 32 fitted to the cross grooves 34: and 35 in the upper block and provided with the bearing extensions 87 for the cam and with up turned stiflening and guiding lugs 38.
  • the resilient arms made of lighter material may be riveted or otherwise secured one pair on each side.
  • the cam is arranged in the space between the pairs and -the bearing extensions extend outwardly from said space.
  • the spindle of course extends at a right angle to the extensions between the arms of the respective pairs.
  • Fig. 9 illustrates a modification in the operating mechanism.
  • the spring 28 is omitted, and the base-plate is modified as shown into a rectangular form 40, within which operates the cam 41 extending on one side only of its spindle.
  • the cam moves the yoke in both directions.
  • the cam has engaged the lower bar of the base plate to move the yoke down.
  • the dotted lines indicate the upper position of the parts, when the cam has been turned against the upper bar of the rectangular base-plate.
  • connections between the resilient portion of the yoke and the circuit closer means to move the yoke in one direct1on for snapplng the circuit closer 1n the reverse direction to close the circuit, and
  • a key socket switch mechanism for incandescent electric lamps the combination with a circuit closer, of a movable part having a resihent arm, a connection between the resilient arm and the circuit closer, a rotating cam to move said part in one direction and a spring to move said part in the opposite direction, the parts being arranged so that during the movement in either direction the resilient arm will be compressed, up to a certain point, but when that point is passed the arm will be free to expand snapping the circuit closer in the direction reversely to the direction of movement of the movable part.
  • a key socket switch mechanism for incandescent electric lamps the. combination with a circuit closer, of a movable part having a resilient arm, a connection between the resilient arm and the circuit closer, means to move said part in one direction and independent means to move said part in the opposite direction, the parts being arranged so that during the movement in either direction the resilient arm will be compressed, up to a certain point, but when that point is passed the compressive force will no longer be applied but the arm will expand snapping the circuit closer in the direction reversely to the direction of movement of the movable part.
  • a key socket switch mechanism for incandescent electric lamps the combination with a suitable insulating supporting body for the parts, of a circuit closer, a yoke having. resilient arms, hinged connections be tween the arms and the circuit closer, a cam suitably journaled in the body and adapted to be turned into one position to engage with the yoke and move it longitudinally in one direction, during which movement the circuit closer is snapped in the reverse direction by the operation of the resilient arm, and a spiral spring engaging with the yoke to move the latter in the opposite direction when the pressure of the cam is removed by turning one lamp terminal and one wire terminal,
  • the second lamp terminal and the second wire terminal being arranged to leave a space in that leg of the circuit, a metal circuit closer having its ends arranged respectively to make contact with said second lamp terminal and said'second wire terminal, a flat sheet metal base plate, a longitudinally extending yoke secured to the base plate and having resilient arms tending to expand when compressed, connections connecting each arm to the circuit closer, a pintle journaled in the base, a thumb-piece or handle on the outer end of the pintle, a cam arranged on the pintle and adapted .to turn therewith, said cam being adapted to engage with the base plate and force it and the yoke in one direction to cause the circuit closer to snap reversely, and a spiral spring arranged above the base plate and adapted to force the base plate and the yoke in the opposite direction causing the circuit closer to snap reversely when the pressure of the cam on the base-plate is removed.
  • a porcelain base for supporting and insulating, the parts, lamp terminals and wire terminals suitably supported on the base, a connection between one lamp terminal and one wire terminal, the second lamp terminal and the second wire terminal being arranged to leave a wide space in that leg of the circuit, a metal circuit closerspanningsaid space having its ends arranged respectively to make contact with said second lamp terminal and said second wire terminal, a base plate having a longitudinally extending yoke secured to each end of the base plate, said yokes being formed of thin metal and having resilient arms tending to expand when compressed, a link on each side connecting one arm of both yokes to the circuit closer, a pintle ournaled in the base,
  • a cam arranged on the'pintle be tween the two yokes and adapted to turn with the pintle, said cam being adapted to engage with the yoke and force the same upwardly causing the circuit closer to snap reversely into closed position, and a spiral spring arranged between the base plate and the surface of the upper block and adapted, when the pressure of the cam is removed, to
  • a switch mechanism for making a quick-make and a quick-break the combination with two blocks of insulating material having cavities in their adjacent faces forming a chamber for the switch mechanism, lamp terminals and wire terminals suitably supported on the base, a connection between one lamp terminal and one wire terminal,
  • the second lamp terminal and the second wire terminal being arranged to leave a wide space in that leg of the circuit, a metal circuit closer laterally extending across the chamber to span the space and having its ends arranged respectivelyto make contact with said second lamp terminal and said second wire terminal, a flat sheet metal baseplate arranged in the chamber against the surface of the upper block, a longitudinally extending yoke secured to the base plate, said yoke being formed of thin metal and having resilient arms tending to expand when compressed, independent connections between the respective arms and the circuitv closer, a pintle journaled between the blocks, a thumb-piece or handle on the outer end of the pintle, a cam arranged on the pintle and adapted to turn therewith, said cam.
  • a key-s0cket switch mechanism for incandescent electric lamps the combination with a suitable insulating two part base, said base being provided with a chamber formed between its two parts for the switch mechanism, of a circuit closer, a yoke having resilient arms, hinged connections between the arms and the circuit closer, and means to move the yoke in one direction or the other,

Description

H. J. MOREY & F. A. BROGDEN.
KEY SOCKET SWITCH MECHANISM.
urmonxon FILED MAR.1,1911.
997,40 1 v 1 J Patented July 11,1911.
couinau PLANounAPH cm, WASHINGTON. n.
I of the upper block with the switch parts'in UNITED sTA Es PATENT OFFICE.
HARRY- J'. MOREY AND-FAY 'A. 'BROGDEN, OF SYRACUSE, NEW-YORK.
KEY-SOCKET swrron MECHANISM.
Specification of Letters Patent. Patented J uly Application filed March 1, 1911. Serial No. 611,665.
arrangement, particularly adapted for use in sockets.
Owing to the necessity for safety in elec-.'
tric lighting installations and-to. the requirements of the underwriters, constantly more stringent, it is important to reduce the dangers of arcing, accidental short circuit, etc, in sockets to "the minimum and with that end in view'we have modified the structure of the socket and have devised a switch therefor operating with both a quick-make and a quick-break, and in which both the make and break are" made at two points.
Our device. has the necessary qualities of strength, simplicity and economy in making and assembling.
The essential features are the circuit, closer, adapted to carry the current from a contact point at one end to the contact" Our invention, and ,a desirable form of.
structure here shown in which our invention is embodied, will be understood by reference to the drawing herewith.
Figure 1 is aside elevation of a socket constructed according to our invention. It
is not here necessary to show the usual in-' closing cap and shell, and they are omitted. Figs. 2 and 3 are sections at a right angle to Fig. 1, with the switch parts in. the two different positions. Fig. 4 is a bottom plan place but with 'a portion of the circuit closer broken away. Fig. 5 is a bottom planof the upper block with all the switch parts removed, showing the grooves for receiving said parts. Fig. 6 is a plan of the upper surfaces of the lower block. Fig. 7 is a plan of the lower surfaces of the lower block. Fig. 8 is an isometric view of the switch mechanism detached, enlarged and :reversed. Fig. 9 shows a modified-form of switch.
In the figures, 1 indicates the upper block of the insulating base preferably of porce- :lalIl, 2 the lower block, 3 one of the wire terminals, secured to, the lower block by a suit-- able screw and extending down over the lower surface of the block to formcthe cen-' tral lamp terminal '5. 7 is the second wire terminal also secured in position bya suitable screw, having a contact tip 9 extending into the notch 10 in position to be engaged @by one end of the circuit closer. The outer :lamp terminal 12 is widely separated from this second wire terminal but is directly connected by one of its contact screws 1313 (which also unite the two blocks and main- ;tain all the interior parts in position) to a contact piece 14:, having a contact tip 15 extending into the second notch 16 in position to be engaged by the opposite end of the circuit closer. These notches -may be {practically closed by extensions on one block or the other so that theswitch mechanism may be confined in a closed chamber."
320 is the circuit closer of any convenient form' adapted to span the space between said two contact tips. As here shown, it is moved. in one direction by the cam 26,
turned in the position shown in Fig. 3,.and
in the other direction by the spring 28, of spiral or other suitable form, which can so operate when the cam is turned in the cross position shown in Fig. 2. This cam may be of any suitable material, either metal or porcelain, and is fitted to its spindle 29, suitably journaled on the base, for in stance bet-ween the two blocks, and is provided with an external thumb-piece 30. This thumb-piece may be fitted 011 the spindle or connected thereto by the usual pin and slot permitting lost motion.
Practically all the metallic parts may be easily stamped from sheet metal, for in stance the yoke may be so stamped and formed in a single piece and at one operation, or as here indicated it may desirably be formed for reasons of strength and rigidity of a slightly heavier base-plate 32 fitted to the cross grooves 34: and 35 in the upper block and provided with the bearing extensions 87 for the cam and with up turned stiflening and guiding lugs 38. To this base-plate the resilient arms made of lighter material may be riveted or otherwise secured one pair on each side. The cam is arranged in the space between the pairs and -the bearing extensions extend outwardly from said space. The spindle of course extends at a right angle to the extensions between the arms of the respective pairs.
Fig. 9 illustrates a modification in the operating mechanism. The spring 28 is omitted, and the base-plate is modified as shown into a rectangular form 40, within which operates the cam 41 extending on one side only of its spindle. The cam moves the yoke in both directions. As shown in full lines, the cam has engaged the lower bar of the base plate to move the yoke down. The dotted lines indicate the upper position of the parts, when the cam has been turned against the upper bar of the rectangular base-plate.
We will start with the parts in the position shown in Fig. 2 in which the circuit is indicated as broken, the circuit closer ends resting on the pedestals 39, which are merely little extensions on the upper block, extending into the notches to receive the ends of the circuit closer and limit its extent of motion. Then by turning the cam the yoke is forced upwardly and as it moves in that direction it will be seen that the connectors gradually compress the ends of the yoke arms until the center is reached indicated by the dotted line in Fig. 2. Immediately on the yoke arm ends passing said center they are free to expand, and thereby the circuit closer is snapped down into the position shown in Fig. 3 making the contact at both ends and closing the circuit. lVhen the circuit is to be opened and the current turned ofi the cam is turned across into the position shown in Fig. 2, and thereby the spring is permitted to move the yoke downwardly, whereby the yoke arms are also compressed and the circuit closer snaps upwardly when the center is passed.
As for the details of construction and artion with a circuit closer, of a yoke having a resilient portion, connections between the resilient portion of the yoke and the circuit closer, means to move the yoke in one direct1on for snapplng the circuit closer 1n the reverse direction to close the circuit, and
independent means to move the yoke in the opposite direction for snapping the circuit closer in a reverse direction to break the circuit.
2. In a key socket switch mechanism for incandescent electric lamps, the combination with a circuit closer, of a movable part having a resihent arm, a connection between the resilient arm and the circuit closer, a rotating cam to move said part in one direction and a spring to move said part in the opposite direction, the parts being arranged so that during the movement in either direction the resilient arm will be compressed, up to a certain point, but when that point is passed the arm will be free to expand snapping the circuit closer in the direction reversely to the direction of movement of the movable part.
3. In a key socket switch mechanism for incandescent electric lamps, the. combination with a circuit closer, of a movable part having a resilient arm, a connection between the resilient arm and the circuit closer, means to move said part in one direction and independent means to move said part in the opposite direction, the parts being arranged so that during the movement in either direction the resilient arm will be compressed, up to a certain point, but when that point is passed the compressive force will no longer be applied but the arm will expand snapping the circuit closer in the direction reversely to the direction of movement of the movable part.
4. In a key socket switch mechanism for incandescent electric lamps, the combination with a suitable insulating supporting body for the parts, of a circuit closer, a yoke having. resilient arms, hinged connections be tween the arms and the circuit closer, a cam suitably journaled in the body and adapted to be turned into one position to engage with the yoke and move it longitudinally in one direction, during which movement the circuit closer is snapped in the reverse direction by the operation of the resilient arm, and a spiral spring engaging with the yoke to move the latter in the opposite direction when the pressure of the cam is removed by turning one lamp terminal and one wire terminal,
the second lamp terminal and the second wire terminal being arranged to leave a space in that leg of the circuit, a metal circuit closer having its ends arranged respectively to make contact with said second lamp terminal and said'second wire terminal, a flat sheet metal base plate, a longitudinally extending yoke secured to the base plate and having resilient arms tending to expand when compressed, connections connecting each arm to the circuit closer, a pintle journaled in the base, a thumb-piece or handle on the outer end of the pintle, a cam arranged on the pintle and adapted .to turn therewith, said cam being adapted to engage with the base plate and force it and the yoke in one direction to cause the circuit closer to snap reversely, and a spiral spring arranged above the base plate and adapted to force the base plate and the yoke in the opposite direction causing the circuit closer to snap reversely when the pressure of the cam on the base-plate is removed.
6. In a key socket provided with switch mechanism for making a quick-make and a quick-break at two points in one leg of the circuit, a porcelain base for supporting and insulating, the parts, lamp terminals and wire terminals suitably supported on the base, a connection between one lamp terminal and one wire terminal, the second lamp terminal and the second wire terminal being arranged to leave a wide space in that leg of the circuit, a metal circuit closerspanningsaid space having its ends arranged respectively to make contact with said second lamp terminal and said second wire terminal, a base plate having a longitudinally extending yoke secured to each end of the base plate, said yokes being formed of thin metal and having resilient arms tending to expand when compressed, a link on each side connecting one arm of both yokes to the circuit closer, a pintle ournaled in the base,
a thumb-piece or handle on the outer end of the pintle, a cam arranged on the'pintle be tween the two yokes and adapted to turn with the pintle, said cam being adapted to engage with the yoke and force the same upwardly causing the circuit closer to snap reversely into closed position, and a spiral spring arranged between the base plate and the surface of the upper block and adapted, when the pressure of the cam is removed, to
force the yoke down causing the circuit closer to snap reversely into open position.
7. In a switch mechanism for making a quick-make and a quick-break, the combination with two blocks of insulating material having cavities in their adjacent faces forming a chamber for the switch mechanism, lamp terminals and wire terminals suitably supported on the base, a connection between one lamp terminal and one wire terminal,
the second lamp terminal and the second wire terminal being arranged to leave a wide space in that leg of the circuit, a metal circuit closer laterally extending across the chamber to span the space and having its ends arranged respectivelyto make contact with said second lamp terminal and said second wire terminal, a flat sheet metal baseplate arranged in the chamber against the surface of the upper block, a longitudinally extending yoke secured to the base plate, said yoke being formed of thin metal and having resilient arms tending to expand when compressed, independent connections between the respective arms and the circuitv closer, a pintle journaled between the blocks, a thumb-piece or handle on the outer end of the pintle, a cam arranged on the pintle and adapted to turn therewith, said cam. being and insulating the parts, lamp terminals and wire terminals suitablysupported on V the base, a connection between'one lamp ter minal and one wire terminal, the second lamp terminal and the second wire terminal being arranged to leave a wide space in that leg of the circuit, a metal circuit closer having its ends arranged respectively to make contact with said second lamp terminal I and said second wire terminal, a flat sheet metal base plate having laterally arranged 7 bearing extensions intermediate of its ends, said base plate being arranged against the lower surface of the upper block, a downwardly extending yoke secured to each end of the base plate, said yokes being formed of thin metal and having resilient arms tending to expand when compressed, a link on each side connecting one arm of both yokes to the circuit closer, a pintle journaled in the base, a thumb-piece on the outer end of the pintle, a cam arranged on the pintle between the two yokes and adapted to turn with the pintle, said cam being adapted to force the yoke upwardly causing the circuit closer to snap reversely into closed position, and a spiral spring arranged between the base plate and the surface of the upper block adapted to force the yoke down causing the circuit closer to snap reversely into open position.
9. In a key-s0cket switch mechanism for incandescent electric lamps, the combination with a suitable insulating two part base, said base being provided with a chamber formed between its two parts for the switch mechanism, of a circuit closer, a yoke having resilient arms, hinged connections between the arms and the circuit closer, and means to move the yoke in one direction or the other,
Copies of this patent may be obtained for respectively to snap the circuit in one direction or the other to turn the current off or on, said means involving a spindle journaled between the parts, a cam on the spindle to engage with a part of the yoke, and an external thumb-piece on the spindle to rotate the cam.
In testimony whereof we have signed our names to this specification in the presence of two subscribing witnesses.
HARRY J. MOREY. FAY A. BROGDEN. Witnesses:
J. Roscon MILLWARD, ALLAN W. Foosn.
five cents each, by addressing the Commissioner of Patents, Washington, D. C.
US61166511A 1911-03-01 1911-03-01 Key-socket switch mechanism. Expired - Lifetime US997406A (en)

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