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US2798127A - Toggle switch mechanism - Google Patents

Toggle switch mechanism Download PDF

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Publication number
US2798127A
US2798127A US472883A US47288354A US2798127A US 2798127 A US2798127 A US 2798127A US 472883 A US472883 A US 472883A US 47288354 A US47288354 A US 47288354A US 2798127 A US2798127 A US 2798127A
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United States
Prior art keywords
latch
switch mechanism
driven
spring
toggle switch
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Expired - Lifetime
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US472883A
Inventor
John O Roeser
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Illinois Tool Works Inc
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Illinois Tool Works Inc
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Publication date
Application filed by Illinois Tool Works Inc filed Critical Illinois Tool Works Inc
Priority to US472883A priority Critical patent/US2798127A/en
Priority claimed from GB1422557A external-priority patent/GB861862A/en
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Publication of US2798127A publication Critical patent/US2798127A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H23/00Tumbler or rocker switches, i.e. switches characterised by being operated by rocking an operating member in the form of a rocker button
    • H01H23/02Details
    • H01H23/12Movable parts; Contacts mounted thereon
    • H01H23/16Driving mechanisms
    • H01H23/162Driving mechanisms incorporating links interconnecting tumbler and contact arm

Definitions

  • Toggle switch mechanisms for making. and breaking contacts with some degree of rapidity to minimize arcing and for other purposes are well known in the art.
  • the toggle switches heretofore known have been simple in construction, but they have been of an old and primitive design, having many limitations. The switches are somewhat unreliable in operation. For one thing, they can be teased. It the operating handle of a conventional toggle switch is moved slowly, the contacts may be made to hover in close vicinity to one another with the result that much sparking and welding occurs. This leadsto unreliable switching and causes the mechanism to deteriorate rapidly.
  • the prior art toggle switch mechanisms rely exclusively upon a spring mechanism for imparting a snap action to contact movement. In the event of spring failure, the contacts either will remain in the position to which they last were set, or the contacts will be left'in a loose condition where they might not engage one another at all, or in which they might engage one another-in a random manner.
  • a further object of this invention is to provide a toggle switch mechanism having a latch mechanism locking-the switch mechanism in any of a plurality of positions.
  • a further object of this invention is to provide a toggle switch mechanism which is self-locking in any of a plurality of positions, and which automatically unlocks upon movement of the actuating member or handle.
  • Yet another object of this invention is to provide a toggle switch mechanism having a spring snap action, and further having positive means for eifecting movement of the contacts in event of spring failure.
  • a still further object of this invention is to provide a toggle switch mechanism of improved sheet metal construction.
  • Yet another object of this invention is to provide a toggle switch mechanism in accordance with thejobjects heretofore set forth wherein the toggle switch mechanism is hermetically sealed.
  • Fig. 1 is a perspective view of a toggle switch-mechanism constructed in accordance with the principles of my invention
  • Fig. 2 is a horizontal sectional view through the mechanism taken substantially along the line 22 in Fig. 3;
  • Fig. 3 is a vertical longitudinal sectional view through the toggle switch mechanism taken substantially along the line 3-3 in Fig. 4;
  • Fig. 4 is a vertical cross sectional view taken substantially along the line 4-4 of Fig.3;
  • Fig. 5 is a sectional view similar to Fig. 3 showing the contacts closed in one position
  • Fig. 6 is a view similar to Fig. 5 showing the parts just before snapping of the contactsinto the closed position of "Fig. 5;
  • Fig. 7 is a horizontal sectional view taken along .the line 77 of Fig. 6;
  • Fig. 8 is a vertical sectional view taken substantially along the line 8-8 of Fig. 6;*
  • Fig. 9 is an exploded perspective view of the operating parts of the toggle switch mechanism
  • Fig. 10 is a vertical longitudinal sectional view of a modified form of the invention as taken along the line Ill -10 in Fig. 11;
  • Fig. 11 is a vertical cross sectional view of the modified form of the invention as taken along the line 11--11 in Fig. 10;
  • Fig. 12 is a view similar to" Fig. 10 showing the parts moving from a neutral position to. one contact engaging position;
  • Fig. l3 is a horizontal sectional view taken substantially along the line 13--13 in Fig. 10;
  • Fig. 14 is an exploded perspective view of the internal parts of the modified form of the invention.
  • toggle switch mechanism 20 comprises a generally rectangular outer case or housing 22 preferably formed of steel.
  • the case or housing is provided with one open side which is sealed by a hermetic header 24 having compression glass beads 26 therein for insulatedly mounting a plurality of contacts respectively numbered 28, 30 and 32.
  • Each of the contacts is provided with a terminal extending through the respective glass heads, the terminals being numbered 34, 36 and 38, and beingprovided with screws 40, orother suitable means for securing lead wires thereto.
  • an aperture 42 Opposite to the side of the case or housing 22 from the hermetic header 24 there is provided an aperture 42 which conveniently may be cylindrical.
  • a cylindrical tube 44 having a collar 46 adjacent the end thereof is fitted into this aperture and brazed or otherwise suitably affixed to the case or housing.
  • the exteriorof thistube is provided with threads 48 for mounting the toggle switch mechanism in a panel by means of a suitable nut as is commonly done in the electrical arts.
  • a generally U-shaped trunnion St is mounted on the top of the contact 30.
  • the trunnion 50 comprises a pair of side flanges 52 and an interconnecting web 54.
  • the web is provided with a central aperture through which the upper portion of the contact 35 projects, this portion being slightly reduced'in diameter and-peened over on top of the web.
  • the flanges are provided at their upper outer corners with upstanding tabs or lugs 56, there being four such tabs or lugs in all.
  • Each flange between its pair of tabs is provided with a convex arcuate upper surface 58.
  • the flanges also are provided adjacent their lower extremities with a pair of aligned apertures 60 for journaling a pivot pin as hereinafter will be brought
  • Anarcuate detent plate 62. is mounted on top of the trunnion.
  • the plate is provided with four notche's 64 adjacent its corners, and the tabs or lugs 56 extend upwardly through these notches and are appropriately twisted or bent over to lock the arcuate detent plate on top of the arcuated surfaces 53 of the trunnion.
  • the detent plate 62 is provided with slots 65.
  • the inner edges of these slots are provided with a pair of teeth 68 defining three notches 70. It will be understood that the number of notches is determined in accordance with the number of switch positions, either contact engaging or neutral positions,
  • the detent plate 62 is completed by an elongated opening or aperture 72 lying along the center line of the detent plate and parallel to the slots 66.
  • a latch 74 is rockably mounted on a pivot pin 76 extending between the two apertures 60 of the trunnion 50.
  • the latch 74 is of generally U-shape, having a pair of spaced apart side flanges 78 and an interconnecting web 80.
  • the web is provided along its opposite edges with a pair of slightly upturned flanges 82 having notches 84 in the outer edges thereof.
  • the flanges 78 are provided with apertures 86 through which the pivot pin 76 passes, and the flanges further are provided at their upper ends with arcuate edges 88 having locking tabs or detents 90 extending upwardly therefrom.
  • the flanges also are provided adjacent their upper ends and along the sides thereof with notches 92.
  • latch 74 is made of resilient metal, whereas the trunnion and detent plate heretofore described preferably are more or less rigid.
  • a driver 94 also is pivotally mounted on the pin 76.
  • the driver comprises a generally U-shaped member which is mounted in inverted position.
  • the driver is provided with a pair of flanges or legs 96 depending between and in close proximity to the flanges 78 of the latch.
  • the flanges near their bottom edges are provided with apertures 98 through which the pivot pin 76 extends.
  • the driver 94 also is provided with a web or bight 100 of generally arcuate configuration, and fitting closely beneath the detent plate 62. The edges of the web 100 are generally straight where they join the flanges 96, but are curved outwardly in cam surfaces or edges 102 on opposite sides of the flanges.
  • the cam surfaces 102 are terminated by outwardly extending positive driving lugs 104.
  • the driver is completed by a generally circular aperture 106 in the center of the web 100.
  • the flanges 96 also preferably are provided with notches 108, which align with the notches 92 of the latch.
  • the toggle switch mechanism is provided with a spring generally indicated by the numeral 110.
  • This spring comprises several turns 112 wrapped around the pivot pin 76, and a pair of arms 114 extending upwardly therefrom at the opposite ends of the coil or turns 112, the outline of the arms being generally V-shaped.
  • Each of the arms 114 at its extremity is provided with a right angularly disposed finger or tip 116, the fingers or tips 116 extending outwardly away from one another and being received in the notches 108 of the driver and 92 of the latch.
  • a cross pin 118 is provided in the cylindrical mounting sleeve 48, and the heads of the pin are recessed to avoid any interference with a nut being threaded over the sleeve.
  • An actuating lever or handle 120 sometimes called a bat handle actuator by virtue of its physical resemblance to a baseball hat or the like, is pivotally mounted on this pin.
  • a substantial portion of the actuator 120 extends outwardly of the sleeve 44 for manual manipulation, and the generally conical tip thereof extends into the housing or case 20.
  • the tip is provided with a portion 122 (Figs. 3 and 4) of reduced diameter.
  • An insulating tip 124 fits over this reduced end portion,
  • the tip 122, 124 of the actuator 120 extends through the elongated slot 72 in the detent plate into the aperture 106 of the driver.
  • the driver 94 is urged in the opposite direction.
  • a seal 126 bonds the actuating member 120 to the threaded sleeve 44 for sealing the actuator to the sleeve.
  • the bonding material 126 preferably is a silicone rubber which allows hermetic sealing of the case or housing, and which is not subject to undue fatigue and consequent short service life.
  • a contact rocker 128 is trapped beneath the lower ends 129, these ends being rounded off, of the driver flanges 96 and above the web and upwardly deflected flanges 82 of the latch.
  • the contact rocker is formed of spring metal and is generally complementary in shape to the web 80 and flanges 82, but tending toward a greater flatness so the contact rocker may be resiliently trapped between the ends 129 and the web 80 and the flanges 82.
  • Contact elements or buttons 130 are provided on the opposite ends of the contact rocker 128. The undersides or ends of the contact elements or buttons 130 engage in the notches 84 at the opposite ends of the flanges 82 of the latch to hold the contact rocker 128 against endwise movement relative to the latch.
  • the contact elements or buttons 130 preferably are made of silver due to its superior electrical properties, and the contacts are aligned for engagement with the contacts 28 and 32 referred to earlier.
  • the switch mechanism When the switch mechanism is in any one of its rest positions, that is, one of the two switch contact engaging positions or the neutral position, the detents fit into corresponding ones of the notches 70 associated with the slots 66 in the detent plate. Thus, with the switch mechanism in neutral position as shown in Figs. l-4, the detents 90 are in the central notches 70. Thus, the switch mechanism is positively locked against accidental movement from one position to another, or against teasing of the switch mechanism. Similarly, when the switch mechanism is in the position for one of the contacts 130 to engage the contact 28, the detents 9G fit in the notches 70 at the corresponding end of the detent plate. The resiliency of the contact rocker 128 allows the contact button 130 to be pressed tightly against the contact 28, thereby assuring a firm contact without the necessity of overly close tolerances.
  • Figs. 6, 7 and 8 Movement from the position of Figs. 14 to the position of Fig. 5 is illustrated in Figs. 6, 7 and 8.
  • the actuator 129 is pivoted by the fingers or thumb, and when this is done, the insulated tip 124 urges the driver in a counterclockwise direction.
  • the driver has moved partway in Figs. 6-8, and it will be seen in these figures that the cam surfaces 102 engage inside of the arms or flanges 78 of the latch and flex them outwardly to remove the detents 90 from the notches 70.
  • the spring is cocked.
  • the spring at all times attempts to maintain the driver and latch in alignment.
  • the spring snaps the latch in a counterclockwise direction, and the detents move into the left notches 70.
  • This pivoting or rocking movement of the latch carries the left contact into engagement with the contact 28. Since the movement is spring controlled, there is a snap action which insures rapid making of the contacts with a. minimum of sparkmg or arcing.
  • the spring In the event that the spring should break or otherwise fail, it would not move the latch and hence the contact rocker. It also is possible that a burr or other imperfection in or on the parts would tend to cause the latch to stick in a given position even after withdrawal of the detents from the notches. In this case, theoperator merely forces the actuator 120 and consequently brings the driving lugs 104 at the ends of the cams 102 into engagement with the edges of the latch to apply a positive driving force to the latch, thus movingthe latch even if the spring fails or if the latch tends to stick.
  • the toggle switch mechanism a contains a trunnion a generally similar to that heretofore described, with the dilference that the side flanges 52:: are much lower in height.
  • a pair of spaced apart bars 132 extends longitudinally across the undersurface of the top of the case or housing 20a, and each of these bars is provided with three arcuately spaced depressions 134 which conveniently may comprise holes or apertures extending completely through the bars.
  • the depressions 134 take the place of the notches in the detent plates of the previous embodiment of the invention, and their cooperation with the latch will be set forth shortly hereinafter.
  • the latch 74a is generally similar to the latch 74 previously described, one slight ditference being that the flanges 82a are deflected upwardly at a greater angle than are the corresponding flanges 82.
  • the top end of each of the flanges 78a of the latch is not provided with an upwardly extending lug or tab forming a detent, but rather the entire flange is extended upwardly in a generally triangular shape as is indicated at 136.
  • an inwardly projecting protuberance 138 forming a detent co-operable with one or another of the depressions 134;
  • the driver 94a is generally similar to the driver 94 previouslydescribed.
  • the bottom edge 129a thereof is beveled at the corners rather than being in the form of an arc, and the Web a comprises a generally fiat surface with the outer ends thereof downwardly deflected as distinguished from the arcuate web of the first embodiment described.
  • the web is provided with camming edges 102a similar to those previously described, and although no positive driving lugs similar to thelugs 104v are shown, it is contemplated that they could be provided.
  • Thecontactrocker 128 0 18 slightly diiferent from that previously described, being of more or less rigid construction, and comprising a pair of side flanges 138 interconnected at the ends by webs forming the contacts 130a and pivotally mounted on the pin 76a.
  • the side flanges 138 of the contact rocker 128a embrace the latch 74a. and the ends of the coil spring a engage the contact webs a tocentralize the contact rocker relative to the latch.
  • the spring 110a includes a central coil portion 112a surrounding the pivot pin 76a, and the arms of the spring project outwardly through notches 84a in the upwardly deflected flanges 82a of the latch.
  • Power is supplied to the toggle mechanism by a helical spring 140.
  • This spring is stretched between a pair of pins 142 fitting in the .notches 108a of the driver and 92a of the latch.
  • a snap action mechanism comprising supporting means, a manually operable actuating member movably supported by said supporting means, driving means movably supported by said supporting means and operatively connected to said actuating member for actuation thereby, driven means movably supported by said supporting means, said driven means having at least two idle positions, holding means supported by said supporting means tending to hold said driven means in any of said idle positions, means carried by said driving means and acting on said holding means to overcome said holding tendency upon predetermined movement of said driving means,
  • said means acting on the holding means including a cam on the driving member, positive moving means includ ing a stop terminating said cam and engageable with said driven member, and resilient means means acting between said driving means and said driven means and acting upon movement of said driving means to snap said driven means from one to another of said positions when said holding tendency is overcome, said positive means carried by said driving means effecting positive movement of said driven means by said driving means by movement beyond their normal relative movement.
  • a snap action mechanism comprising supporting means, a manually operable actuating member movably supported by said supporting means, driving means movably supported by said supporting means and operatively connected to said actuating member for actuation thereby, driven means movably supported by said supporting means, said driven means having at least two idle positions, holding means supported by said supporting means tending to hold said driven means in any of said idle positions, means carried by said driving means and acting on said holding means to overcome said holding tendency upon predetermined movement of said driving means, said means acting on the holding means including a cam on the driving member, positive moving means including a stop terminating said cam and engageable with said driven member, said holding means including means providing a series of recesses and a projection on said driven means interfitting selectively with said recesses, and resilient means acting between said driving means and said driven means and acting upon movement of said driving means to snap said driven means from one to another of said positions when said holding tendency is overcome, said positive means carried by said driving means effecting positive movement of said driven means by said driving means by movement of said driving
  • a snap action mechanism comprising supporting means, a manually operable actuating member movably supported by said supporting means, driving means pivotally supported by said supporting means and being operatively connected to said actuating member at a position remote to the pivotal mounting for actuation of the driving means of said actuating member, driven means pivotally supported coaxially with said driving means by said 8 supporting means, said driven means having at least two idle positions, means supported by said supporting means tending to hold said driven means in any of said idle positions, means on said driving means releasing said holding means upon a predetermined movement of said driving means relative to said driven means, spring means acting between said driving means and said driven means and acting upon movement of said driving means to snap said driven means from one to another of said positions when said holding tendency is overcome, said spring means having associated therewith portions engaging corresponding sections of said driving means and said driven means whereby said spring acts to align said driving means and said driven means regardless of the direction of motion imparted to said driving means by said actuating member.
  • a snap action mechanism comprising supporting means, a driving member movably supported by said supporting means, manually operable means on said driving means for moving the same, driven means movably carried by said supporting means adjacent said driving means, locking means coacting between said driven means and said supporting means adjacent said manually operable means for holding said driven means in any of a plurality of predetermined positions, said locking means including a fixed member carried by said supporting means and providing a succession of notches and a tab on said driven means selectively engageable with any of said notches, means operatively connected to said manually operable means for releasing said locking means, said lock releasing means comprising cam means on said driving means and resilient means acting on said driven means for moving said driven means with a snap action from one to another of said positions upon release of said locking means.
  • a snap action mechanism comprising supporting means, pivot means carried by said supporting means, driving means pivotally mounted on said pivot means adjacent one extremity of said driving means, manually operable means adjacent the opposite extremity of said driving means for pivotally moving said driving means, driven means pivotally mounted on said pivot means, means coacting between said driven means and said supporting means for locking said driven means in any of a plurality of predetermined positions, means operatively connected to said manually operable means for releasing said locking means following predetermined movement of said manually operable means, and spring means acting on said driven means and on said driving means in the vicinity of said manually operable means tending to align said driven means and said driving means whereby to move said driven means with a snap action upon release of said locking means, said spring means including a spring having a generally V-shaped outline with a coil at the apex thereof encircling said pivot pin, the outer ends of said spring engaging corresponding parts of said driving means and said driven means for urging the same into alignment.
  • a snap action mechanism comprising supporting means, a manually operable actuating member movably supported by said supporting means, driving means movably supported by said supporting means and operatively connected to said actuating member for actuation thereby, driven means movably supported by said supporting means, said driven means having at least two idle positions, holding means supported by said supporting means tending to hold said driven means in any of said idle positions, means carried by said driving means and acting on said holding means to overcome said holding tendency upon predetermined movement of said driving means, said means acting on the holding means including a cam on the driving member, positive moving means including a stop terminating said cam and engageable with said driven member, and resilient means acting between said driving means and said driven means and acting upon movement of.
  • said driving means to snap said driven means from one to another of said positions when said holding tendency is overcome, said positive means carried by said driving means effecting positive movement of said driven means by said driving means by movement beyond their normal relative movement, said resilient means including a spring having a generally helical configuration having its terminal end portions engaging corresponding parts of said driving means and said driven means for constantly urging the same into alignment.

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  • Tumbler Switches (AREA)

Description

July 2, 1957 J. o. ROESER TOGGLE SWITCH MECHANISM Filed Dec, 3, 1954 3 Sheets-Sheet 1 56 68 66 o fi 56 63 mm m0 EM 2 m m i July 2, 1957 J. o. ROESER 2,798,127
TOGGLE SWITCH MECHANISM Filed Dec. 3, 1954 3 Sheets-Sheet 2 IN V EN TOR.
July 2, 1957 Filed Dec. 3, 1954 v ROESER 2,798,127
TOGGLE SWITCH MECHANISM 5 Sheets-Sheet United States Patent TOGGLE SWITCH MECHANISM John 0. Roeser, Qhicago, Ill., assignor to Illinois Tool Works, Chicago, 111., a corporation of Illinois Application December 3, 1954, Serial No. 472,883
9 Claims. (Cl. 200-67) This invention is concerned generally with the art of electrical switches, and more particularly with a toggle switch.
Toggle switch mechanisms for making. and breaking contacts with some degree of rapidity to minimize arcing and for other purposes are well known in the art. The toggle switches heretofore known have been simple in construction, but they have been of an old and primitive design, having many limitations. The switches are somewhat unreliable in operation. For one thing, they can be teased. It the operating handle of a conventional toggle switch is moved slowly, the contacts may be made to hover in close vicinity to one another with the result that much sparking and welding occurs. This leadsto unreliable switching and causes the mechanism to deteriorate rapidly. Furthermore, the prior art toggle switch mechanisms rely exclusively upon a spring mechanism for imparting a snap action to contact movement. In the event of spring failure, the contacts either will remain in the position to which they last were set, or the contacts will be left'in a loose condition where they might not engage one another at all, or in which they might engage one another-in a random manner.
Accordingly, it is an object of this invention to provide a toggle switch mechanism of rugged construction which is not susceptible to the failures and short service life of prior art toggle switch mechanisms.
It is a further object of this invention to provide a toggle switch mechanism having an insured snap action, thereby preventing teasing of the switch mechanism.
A further object of this invention is to provide a toggle switch mechanism having a latch mechanism locking-the switch mechanism in any of a plurality of positions.
More specifically, it is an object of this invention to provide a toggle switch mechanism havinga latch positively locking the switch mechanism in any of a plurality of predetermined positions.
A further object of this invention is to provide a toggle switch mechanism which is self-locking in any of a plurality of positions, and which automatically unlocks upon movement of the actuating member or handle.
Yet another object of this invention is to provide a toggle switch mechanism having a spring snap action, and further having positive means for eifecting movement of the contacts in event of spring failure.
A still further object of this invention is to provide a toggle switch mechanism of improved sheet metal construction.
Yet another object of this invention is to provide a toggle switch mechanism in accordance with thejobjects heretofore set forth wherein the toggle switch mechanism is hermetically sealed.
Other and further objects and advantages of the present invention will be apparent from the following description when taken in connection with the accompanying drawings, wherein:
Fig. 1 is a perspective view of a toggle switch-mechanism constructed in accordance with the principles of my invention;
Fig. 2 is a horizontal sectional view through the mechanism taken substantially along the line 22 in Fig. 3;
Fig. 3 is a vertical longitudinal sectional view through the toggle switch mechanism taken substantially along the line 3-3 in Fig. 4;
Fig. 4 is a vertical cross sectional view taken substantially along the line 4-4 of Fig.3;
Fig. 5 is a sectional view similar to Fig. 3 showing the contacts closed in one position;
Fig. 6 is a view similar to Fig. 5 showing the parts just before snapping of the contactsinto the closed position of "Fig. 5;
Fig. 7 is a horizontal sectional view taken along .the line 77 of Fig. 6;
Fig. 8 is a vertical sectional view taken substantially along the line 8-8 of Fig. 6;*
Fig. 9 is an exploded perspective view of the operating parts of the toggle switch mechanism;
Fig. 10 is a vertical longitudinal sectional view of a modified form of the invention as taken along the line Ill -10 in Fig. 11;
Fig. 11 is a vertical cross sectional view of the modified form of the invention as taken along the line 11--11 in Fig. 10;
Fig. 12 is a view similar to" Fig. 10 showing the parts moving from a neutral position to. one contact engaging position;
Fig. l3 is a horizontal sectional view taken substantially along the line 13--13 in Fig. 10; and
Fig. 14 is an exploded perspective view of the internal parts of the modified form of the invention.
Referring now in greater particularity to the drawings, and first to Figs. 1-4 and 9, there will be seen a toggle switch mechanism generally indicated by the numeral 20. This toggle switch mechanism comprises a generally rectangular outer case or housing 22 preferably formed of steel. The case or housing is provided with one open side which is sealed by a hermetic header 24 having compression glass beads 26 therein for insulatedly mounting a plurality of contacts respectively numbered 28, 30 and 32. Each of the contacts is provided with a terminal extending through the respective glass heads, the terminals being numbered 34, 36 and 38, and beingprovided with screws 40, orother suitable means for securing lead wires thereto.
Opposite to the side of the case or housing 22 from the hermetic header 24 there is provided an aperture 42 which conveniently may be cylindrical. A cylindrical tube 44 having a collar 46 adjacent the end thereof is fitted into this aperture and brazed or otherwise suitably affixed to the case or housing. The exteriorof thistube is provided with threads 48 for mounting the toggle switch mechanism in a panel by means of a suitable nut as is commonly done in the electrical arts.
A generally U-shaped trunnion St is mounted on the top of the contact 30. The trunnion 50 comprises a pair of side flanges 52 and an interconnecting web 54. The web is provided with a central aperture through which the upper portion of the contact 35 projects, this portion being slightly reduced'in diameter and-peened over on top of the web. The flanges are provided at their upper outer corners with upstanding tabs or lugs 56, there being four such tabs or lugs in all. Each flange between its pair of tabs is provided with a convex arcuate upper surface 58. The flanges also are provided adjacent their lower extremities with a pair of aligned apertures 60 for journaling a pivot pin as hereinafter will be brought Anarcuate detent plate 62. is mounted on top of the trunnion. The plate is provided with four notche's 64 adjacent its corners, and the tabs or lugs 56 extend upwardly through these notches and are appropriately twisted or bent over to lock the arcuate detent plate on top of the arcuated surfaces 53 of the trunnion.
Along its opposite lateral edges the detent plate 62 is provided with slots 65. The inner edges of these slots are provided with a pair of teeth 68 defining three notches 70. It will be understood that the number of notches is determined in accordance with the number of switch positions, either contact engaging or neutral positions,
and that the three notches are provided for an iilustrative switch having two contact engaging positions and an intermediate neutral position. Instead of the three positions illustrated, there could be two positions or there could be more than three. The detent plate 62 is completed by an elongated opening or aperture 72 lying along the center line of the detent plate and parallel to the slots 66.
A latch 74 is rockably mounted on a pivot pin 76 extending between the two apertures 60 of the trunnion 50. The latch 74 is of generally U-shape, having a pair of spaced apart side flanges 78 and an interconnecting web 80. The web is provided along its opposite edges with a pair of slightly upturned flanges 82 having notches 84 in the outer edges thereof. The flanges 78 are provided with apertures 86 through which the pivot pin 76 passes, and the flanges further are provided at their upper ends with arcuate edges 88 having locking tabs or detents 90 extending upwardly therefrom. The flanges also are provided adjacent their upper ends and along the sides thereof with notches 92.
It is to be understood that the latch 74 is made of resilient metal, whereas the trunnion and detent plate heretofore described preferably are more or less rigid.
A driver 94 also is pivotally mounted on the pin 76. The driver comprises a generally U-shaped member which is mounted in inverted position. The driver is provided with a pair of flanges or legs 96 depending between and in close proximity to the flanges 78 of the latch. The flanges near their bottom edges are provided with apertures 98 through which the pivot pin 76 extends. The driver 94 also is provided with a web or bight 100 of generally arcuate configuration, and fitting closely beneath the detent plate 62. The edges of the web 100 are generally straight where they join the flanges 96, but are curved outwardly in cam surfaces or edges 102 on opposite sides of the flanges. The cam surfaces 102 are terminated by outwardly extending positive driving lugs 104. The driver is completed by a generally circular aperture 106 in the center of the web 100. The flanges 96 also preferably are provided with notches 108, which align with the notches 92 of the latch.
The toggle switch mechanism is provided with a spring generally indicated by the numeral 110. This spring comprises several turns 112 wrapped around the pivot pin 76, and a pair of arms 114 extending upwardly therefrom at the opposite ends of the coil or turns 112, the outline of the arms being generally V-shaped. Each of the arms 114 at its extremity is provided with a right angularly disposed finger or tip 116, the fingers or tips 116 extending outwardly away from one another and being received in the notches 108 of the driver and 92 of the latch.
A cross pin 118 is provided in the cylindrical mounting sleeve 48, and the heads of the pin are recessed to avoid any interference with a nut being threaded over the sleeve. An actuating lever or handle 120, sometimes called a bat handle actuator by virtue of its physical resemblance to a baseball hat or the like, is pivotally mounted on this pin. A substantial portion of the actuator 120 extends outwardly of the sleeve 44 for manual manipulation, and the generally conical tip thereof extends into the housing or case 20. The tip is provided with a portion 122 (Figs. 3 and 4) of reduced diameter. An insulating tip 124 fits over this reduced end portion,
and conveniently is made of plastic such as nylon or polyethylene having the requisite electrical insulating and physical abrasion resistant qualities. The tip 122, 124 of the actuator 120 extends through the elongated slot 72 in the detent plate into the aperture 106 of the driver. Thus, when the actuator 120 is urged in one direction or the other by manual manipulation, the driver 94 is urged in the opposite direction. It will be observed that a seal 126 bonds the actuating member 120 to the threaded sleeve 44 for sealing the actuator to the sleeve. The bonding material 126 preferably is a silicone rubber which allows hermetic sealing of the case or housing, and which is not subject to undue fatigue and consequent short service life.
A contact rocker 128 is trapped beneath the lower ends 129, these ends being rounded off, of the driver flanges 96 and above the web and upwardly deflected flanges 82 of the latch. The contact rocker is formed of spring metal and is generally complementary in shape to the web 80 and flanges 82, but tending toward a greater flatness so the contact rocker may be resiliently trapped between the ends 129 and the web 80 and the flanges 82. Contact elements or buttons 130 are provided on the opposite ends of the contact rocker 128. The undersides or ends of the contact elements or buttons 130 engage in the notches 84 at the opposite ends of the flanges 82 of the latch to hold the contact rocker 128 against endwise movement relative to the latch. The contact elements or buttons 130 preferably are made of silver due to its superior electrical properties, and the contacts are aligned for engagement with the contacts 28 and 32 referred to earlier.
When the switch mechanism is in any one of its rest positions, that is, one of the two switch contact engaging positions or the neutral position, the detents fit into corresponding ones of the notches 70 associated with the slots 66 in the detent plate. Thus, with the switch mechanism in neutral position as shown in Figs. l-4, the detents 90 are in the central notches 70. Thus, the switch mechanism is positively locked against accidental movement from one position to another, or against teasing of the switch mechanism. Similarly, when the switch mechanism is in the position for one of the contacts 130 to engage the contact 28, the detents 9G fit in the notches 70 at the corresponding end of the detent plate. The resiliency of the contact rocker 128 allows the contact button 130 to be pressed tightly against the contact 28, thereby assuring a firm contact without the necessity of overly close tolerances.
Movement from the position of Figs. 14 to the position of Fig. 5 is illustrated in Figs. 6, 7 and 8. The actuator 129 is pivoted by the fingers or thumb, and when this is done, the insulated tip 124 urges the driver in a counterclockwise direction. The driver has moved partway in Figs. 6-8, and it will be seen in these figures that the cam surfaces 102 engage inside of the arms or flanges 78 of the latch and flex them outwardly to remove the detents 90 from the notches 70. It will be apparent from Fig. 6 that as the driver moves ahead of the latch, and it must move ahead of the latch since the latch cannot move until the cam surfaces or edges have been brought into action, the spring is cocked. The spring at all times attempts to maintain the driver and latch in alignment. Thus, when the detents 90 are cammed completely out of the central notches 70, the spring snaps the latch in a counterclockwise direction, and the detents move into the left notches 70. This pivoting or rocking movement of the latch carries the left contact into engagement with the contact 28. Since the movement is spring controlled, there is a snap action which insures rapid making of the contacts with a. minimum of sparkmg or arcing.
In the event that the spring should break or otherwise fail, it would not move the latch and hence the contact rocker. It also is possible that a burr or other imperfection in or on the parts would tend to cause the latch to stick in a given position even after withdrawal of the detents from the notches. In this case, theoperator merely forces the actuator 120 and consequently brings the driving lugs 104 at the ends of the cams 102 into engagement with the edges of the latch to apply a positive driving force to the latch, thus movingthe latch even if the spring fails or if the latch tends to stick.
It will be apparent that action from any one of the two contact positions or the neutral position will be the same as that illustrated. In short, the cam surfaces of the driver flex the arms or flanges of the latch outwardly to move the detents from the notches, thereby freeing the latch for snap action by the spring, or for positive driving by the lugs 104 in the event of malfunctioning of the toggle switch mechanism. It will be understood that when the spring snaps the latch from one position toward another, the outward camming force on the latch flanges or arms will be relieved. Accordingly, the detents will snap into the first notches that they come to. Thus, there is no danger of moving from one of the contact positions through the neutral to the other contact engaging position.
The foregoing illustrative embodiment of my invention comprises the preferred form of the invention due to its relative simplicity and ease of fabrication. However, this does not represent the only embodiment of my invention inasmuch as a modification is illustrated in Figs. -14. Similar parts of the modification are identified by the same numerals as those heretofore used with the addition of the suflix a. Utilization of the same numerals with this distinguishing suflix eliminates the necessity of extended description of parts which readily will be understood from the foregoing description.
Referring now in greater particularity to Figs. 10-14, it will be seen that the case or housing 22a and the parts affixed thereto are substantially identical with those pre viously described. Consequently, it is thought that the use of the same identifying numerals with the addition of the suffix a renders the necessity of extended description unnecessary. The toggle switch mechanism a contains a trunnion a generally similar to that heretofore described, with the dilference that the side flanges 52:: are much lower in height.
A pair of spaced apart bars 132 extends longitudinally across the undersurface of the top of the case or housing 20a, and each of these bars is provided with three arcuately spaced depressions 134 which conveniently may comprise holes or apertures extending completely through the bars. The depressions 134 take the place of the notches in the detent plates of the previous embodiment of the invention, and their cooperation with the latch will be set forth shortly hereinafter.
The latch 74a is generally similar to the latch 74 previously described, one slight ditference being that the flanges 82a are deflected upwardly at a greater angle than are the corresponding flanges 82. The top end of each of the flanges 78a of the latch is not provided with an upwardly extending lug or tab forming a detent, but rather the entire flange is extended upwardly in a generally triangular shape as is indicated at 136. Near the top of each of the triangular portions 136 there is provided an inwardly projecting protuberance 138 forming a detent co-operable with one or another of the depressions 134;
The driver 94a is generally similar to the driver 94 previouslydescribed. The bottom edge 129a thereof is beveled at the corners rather than being in the form of an arc, and the Web a comprises a generally fiat surface with the outer ends thereof downwardly deflected as distinguished from the arcuate web of the first embodiment described. The web is provided with camming edges 102a similar to those previously described, and although no positive driving lugs similar to thelugs 104v are shown, it is contemplated that they could be provided.
Thecontactrocker 128 0 18 slightly diiferent from that previously described, being of more or less rigid construction, and comprising a pair of side flanges 138 interconnected at the ends by webs forming the contacts 130a and pivotally mounted on the pin 76a. The side flanges 138 of the contact rocker 128a embrace the latch 74a. and the ends of the coil spring a engage the contact webs a tocentralize the contact rocker relative to the latch. The spring 110a includes a central coil portion 112a surrounding the pivot pin 76a, and the arms of the spring project outwardly through notches 84a in the upwardly deflected flanges 82a of the latch. These notches serve to position the arms of the spring 110a and since these arms'press against the contact webs 130a of the contact rocker, the contact rocker also is positioned thereby. However, the contact rocker is not rigidly fixed in position relative to the latch and one or the other of the arms of the spring may yield slightly toallow the rocker to give when one of the contact webs 130a thereof engages one of the contacts 28a or 32a. It will be observed that the spring 110a does not serve as the power spring as it did in the previous embodiment of the invention.
Power is supplied to the toggle mechanism by a helical spring 140. This springis stretched between a pair of pins 142 fitting in the .notches 108a of the driver and 92a of the latch.
When the driver is moved from one rest position to another, as toward the neutral position in Fig. 10, the movement being illustrated in Fig. 12, the cam edges 102a of the driver cam the arms or flanges 78a of the latch outwardly to remove the detent protuberances 138 from the. recesses 134 similar to the manner previously described. As the driver moves ahead of the latch before camming of the detents from the locking recesses, the spring 140is stretched. Such stretching causes the pins 142 to urge the latch into alignment with the driver. Thus, when the detents are released, the latch moves to catch up with the driver with a snap action. It will be apparent from the description from the first embodiment of the invention that when the latch snaps ahead to catch up with the driver, the cam edges no longer urge the latch flanges or arms apart, and the detents 138 therefore snap into the next succeeding recesses to lock the switch mechanism in the next position. It will be understood that in both embodiments of my invention the power springs, namely the springs 110 and 140, are preloaded. Accordingly, the slight displacement of the driver relative to the latch in either case is quite sufficient to produce a rapid snap action.
From the foregoing description of two illustrative embodiments of my invention it will .be apparent that I have invented a toggle switch mechanism overcoming the difficulties of the prior art. The switch mechanis'mis of rugged construction, and by way of illustration, it might be noted that a model constructed in accordance with the first embodiment of the invention survived a half million cycle test with no signs of Wear or aging. The model worked with the same efliciency at the end of the test as at thebeginning. There is an insured snap action in my toggle switch mechanism, completely eliminating the possibility of teasing the switch mechanism. The switch mechanism is positively locked in any of a plurality of operating positions, and it is automatically unlocked upon manual manipulation of the actuating member or lever. In accordance with the preferred form of my invention, there is a positive action insuring operation of the switch mechanism in the event of failure of the power or toggle spring, or in the event of the tendency of the parts to stick. The sheet metal construction of the switch insures simplicity and economy of fabrication, while the hermetic sealing of the mechanism guards against excessive burning and welding of the contacts.
It is to be understood that the two embodiments herein shown and described are by way of illustrative example only. Various changes in structure will no doubt occur to those skilled in the art and are to be understood as forming a part of my invention insofar as they fall within the spirit and scope of the appended claims.
I claim:
1. A snap action mechanism comprising supporting means, a manually operable actuating member movably supported by said supporting means, driving means movably supported by said supporting means and operatively connected to said actuating member for actuation thereby, driven means movably supported by said supporting means, said driven means having at least two idle positions, holding means supported by said supporting means tending to hold said driven means in any of said idle positions, means carried by said driving means and acting on said holding means to overcome said holding tendency upon predetermined movement of said driving means,
said means acting on the holding means including a cam on the driving member, positive moving means includ ing a stop terminating said cam and engageable with said driven member, and resilient means means acting between said driving means and said driven means and acting upon movement of said driving means to snap said driven means from one to another of said positions when said holding tendency is overcome, said positive means carried by said driving means effecting positive movement of said driven means by said driving means by movement beyond their normal relative movement.
2. A snap action mechanism as set forth in claim 1 wherein the resilient means comprises a tension spring extending between a pair of cross members abutting corresponding sections of said driving means and said driven means.
3. A snap action mechanism set forth in claim 1 wherein said holding means consists of a cam element on the driving member and a series of complementary shaped detents on the driven member to retain the driven member in predetermined position relative to said driving member in any of said aforementioned idle positions.
4. A snap action mechanism comprising supporting means, a manually operable actuating member movably supported by said supporting means, driving means movably supported by said supporting means and operatively connected to said actuating member for actuation thereby, driven means movably supported by said supporting means, said driven means having at least two idle positions, holding means supported by said supporting means tending to hold said driven means in any of said idle positions, means carried by said driving means and acting on said holding means to overcome said holding tendency upon predetermined movement of said driving means, said means acting on the holding means including a cam on the driving member, positive moving means including a stop terminating said cam and engageable with said driven member, said holding means including means providing a series of recesses and a projection on said driven means interfitting selectively with said recesses, and resilient means acting between said driving means and said driven means and acting upon movement of said driving means to snap said driven means from one to another of said positions when said holding tendency is overcome, said positive means carried by said driving means effecting positive movement of said driven means by said driving means by movement of said driving means relative to said driven means beyond their normal relative movement.
5. A snap action mechanism comprising supporting means, a manually operable actuating member movably supported by said supporting means, driving means pivotally supported by said supporting means and being operatively connected to said actuating member at a position remote to the pivotal mounting for actuation of the driving means of said actuating member, driven means pivotally supported coaxially with said driving means by said 8 supporting means, said driven means having at least two idle positions, means supported by said supporting means tending to hold said driven means in any of said idle positions, means on said driving means releasing said holding means upon a predetermined movement of said driving means relative to said driven means, spring means acting between said driving means and said driven means and acting upon movement of said driving means to snap said driven means from one to another of said positions when said holding tendency is overcome, said spring means having associated therewith portions engaging corresponding sections of said driving means and said driven means whereby said spring acts to align said driving means and said driven means regardless of the direction of motion imparted to said driving means by said actuating member.
6. A snap action mechanism comprising supporting means, a driving member movably supported by said supporting means, manually operable means on said driving means for moving the same, driven means movably carried by said supporting means adjacent said driving means, locking means coacting between said driven means and said supporting means adjacent said manually operable means for holding said driven means in any of a plurality of predetermined positions, said locking means including a fixed member carried by said supporting means and providing a succession of notches and a tab on said driven means selectively engageable with any of said notches, means operatively connected to said manually operable means for releasing said locking means, said lock releasing means comprising cam means on said driving means and resilient means acting on said driven means for moving said driven means with a snap action from one to another of said positions upon release of said locking means.
7. A snap action mechanism comprising supporting means, pivot means carried by said supporting means, driving means pivotally mounted on said pivot means adjacent one extremity of said driving means, manually operable means adjacent the opposite extremity of said driving means for pivotally moving said driving means, driven means pivotally mounted on said pivot means, means coacting between said driven means and said supporting means for locking said driven means in any of a plurality of predetermined positions, means operatively connected to said manually operable means for releasing said locking means following predetermined movement of said manually operable means, and spring means acting on said driven means and on said driving means in the vicinity of said manually operable means tending to align said driven means and said driving means whereby to move said driven means with a snap action upon release of said locking means, said spring means including a spring having a generally V-shaped outline with a coil at the apex thereof encircling said pivot pin, the outer ends of said spring engaging corresponding parts of said driving means and said driven means for urging the same into alignment.
8. A snap action mechanism comprising supporting means, a manually operable actuating member movably supported by said supporting means, driving means movably supported by said supporting means and operatively connected to said actuating member for actuation thereby, driven means movably supported by said supporting means, said driven means having at least two idle positions, holding means supported by said supporting means tending to hold said driven means in any of said idle positions, means carried by said driving means and acting on said holding means to overcome said holding tendency upon predetermined movement of said driving means, said means acting on the holding means including a cam on the driving member, positive moving means including a stop terminating said cam and engageable with said driven member, and resilient means acting between said driving means and said driven means and acting upon movement of. said driving means to snap said driven means from one to another of said positions when said holding tendency is overcome, said positive means carried by said driving means effecting positive movement of said driven means by said driving means by movement beyond their normal relative movement, said resilient means including a spring having a generally helical configuration having its terminal end portions engaging corresponding parts of said driving means and said driven means for constantly urging the same into alignment.
9. A snap action mechanism as set forth in claim 8, wherein the holding means comprises means fixedly supported by said supporting means and providing a succession of recesses, and a detent carried by said driven means and selectively engageable with said series of recesses.
References Cited in the file of this patent UNITED STATES PATENTS Douglas June 16, 1936 Borne May 2, 1950 Schellman Mar. 31, 1953 Anderson et a1 Feb. 23, 1954 Bradstock et a1 June 19, 1956 FOREIGN PATENTS Great Britain June 15, 1923 Germany May 28, 1914
US472883A 1954-12-03 1954-12-03 Toggle switch mechanism Expired - Lifetime US2798127A (en)

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GB1422557A GB861862A (en) 1957-05-03 1957-05-03 Improvements in snap-action mechanisms

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2930865A (en) * 1957-07-24 1960-03-29 Illinois Tool Works Toggle switch
US3041430A (en) * 1957-03-21 1962-06-26 Cutler Hammer Inc Electric switches
US3135841A (en) * 1959-08-18 1964-06-02 Dole Valve Co Snap acting switch
US3329785A (en) * 1963-10-09 1967-07-04 Gen Motors Corp Rectangular conductor harness means and attachments
US4442328A (en) * 1981-07-08 1984-04-10 Marquardt Gmbh Electrical switch

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE274547C (en) *
GB195981A (en) * 1921-02-24 1923-06-15 Hart Mfg Co Improvements in electric switches
US2044065A (en) * 1934-02-08 1936-06-16 Harry A Douglas Electric switch construction
US2506196A (en) * 1947-05-08 1950-05-02 Rotax Ltd Electric switch
US2633510A (en) * 1951-09-13 1953-03-31 Hetherington Inc Electric switch
US2670415A (en) * 1952-05-02 1954-02-23 Curtiss Wright Corp Limit switch
US2751451A (en) * 1953-07-29 1956-06-19 Gen Electric Snap switch

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE274547C (en) *
GB195981A (en) * 1921-02-24 1923-06-15 Hart Mfg Co Improvements in electric switches
US2044065A (en) * 1934-02-08 1936-06-16 Harry A Douglas Electric switch construction
US2506196A (en) * 1947-05-08 1950-05-02 Rotax Ltd Electric switch
US2633510A (en) * 1951-09-13 1953-03-31 Hetherington Inc Electric switch
US2670415A (en) * 1952-05-02 1954-02-23 Curtiss Wright Corp Limit switch
US2751451A (en) * 1953-07-29 1956-06-19 Gen Electric Snap switch

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3041430A (en) * 1957-03-21 1962-06-26 Cutler Hammer Inc Electric switches
US2930865A (en) * 1957-07-24 1960-03-29 Illinois Tool Works Toggle switch
DE1127433B (en) * 1957-07-24 1962-04-12 Illinois Tool Works Electric toggle switch
US3135841A (en) * 1959-08-18 1964-06-02 Dole Valve Co Snap acting switch
US3329785A (en) * 1963-10-09 1967-07-04 Gen Motors Corp Rectangular conductor harness means and attachments
US4442328A (en) * 1981-07-08 1984-04-10 Marquardt Gmbh Electrical switch

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