US2885516A - Contact holder - Google Patents

Contact holder Download PDF

Info

Publication number
US2885516A
US2885516A US603506A US60350656A US2885516A US 2885516 A US2885516 A US 2885516A US 603506 A US603506 A US 603506A US 60350656 A US60350656 A US 60350656A US 2885516 A US2885516 A US 2885516A
Authority
US
United States
Prior art keywords
contact
assembly
carrier
aperture
holder
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US603506A
Inventor
Paul R Goudy
Howard P Stock
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Schneider Electric USA Inc
Original Assignee
Square D Co
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Square D Co filed Critical Square D Co
Priority to US603506A priority Critical patent/US2885516A/en
Application granted granted Critical
Publication of US2885516A publication Critical patent/US2885516A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H1/00Contacts
    • H01H1/12Contacts characterised by the manner in which co-operating contacts engage
    • H01H1/14Contacts characterised by the manner in which co-operating contacts engage by abutting
    • H01H1/20Bridging contacts
    • H01H1/2008Facilitate mounting or replacing contact bridge and pressure spring on carrier

Definitions

  • CONTACT HOLDER Filed Aug. 135, 1956 I [j VENTOR- E E1 7M K BY flawara J/Zcf roX/vzH CONTACT HOLDER Paul R. Goudy, Whitefish Bay, and Howard P. Stock,
  • This invention relates to contact holders and more particularly to an assembly of contact carriers and support therefor for use with relays 'or the like employing stationary and movable contacts.
  • the object of the present invention is the provision of a contact carrier assembly and a holder therefor into which the contact carrier assembly may be readily inserted and securely held.
  • Another object of the present invention is a contact holder and contact carrier assembly with provision for interlocking between the contact carrier and the holder for maintaining the contact carrier Within the holder and for permitting easy removal of the contact carrier from the holder for inspection of the contacts.
  • a further object of the present invention is the provision of a contact holder and contact carrier assembly having an interlocking arrangement between the contact carriers and the holder adapted to permit rotational movement of the contact carrier to effect a contact wipe in movement of the contacts to or from closed contact position.
  • a further object of the present invention is a contact holder and stationary contact assembly wherein the stationary contact assembly is statically maintained in a fixed assembly and may be easily inserted into the contact holder and wherein the contact carriers themselves interlock with portions of the contact holder and are easily tilted in the assembly for movement into interlocking relationship with the contact holder.
  • Figure l is an elevational view partially in sections of the contact holder and contact carrier assembly within the holder.
  • Figure 2 is a perspective view of the stationary contact carrier assembly.
  • Figure 3 is a side elevational view of the contact holder with the contact carriers rotated into position for the insertion of a contact carrier assembly into the holder.
  • Figure 4 is a sectional view taken on the lines lV-IV of Figure 1.
  • Figure 5 is an elevational view partially in sections of a modified form of the contact holder and contact carrier assembly of the present invention.
  • Figure 6 is a perspective view, partially in sections, of the contact carrier assembly of this form of the invention.
  • Figure 7 is a side elevation view of the contact holder and stationary contact carrier assembly with the stationary contact carriers rotated into position for the insertion of the assembly into the contact holders.
  • Figure 8 is a sectional view taken along the lines VIII-VIH of Figure 5.
  • the contact device of the present invention constitutes a contact holder 1 of molded insulating material and a contact carrier assembly 2 which may be inserted into the contact holder to be maintained in interlocking rela- 2,835,516 Patented May 5, 1959 ice tionship therewith to provide a means for securely holding the contact carriers in position in the holder while permitting ready removal thereof for purposes of inspection or replacement.
  • the holder is provided with an internally aperturecl portion 3 which may be of a generally square contour provided at the top and bottom thereof, as viewed in Figure 1, with a pair of slots 4 and 5 for the accommodation of portions of the contact carrier assembly 2, as will be more readily apparent hereinafter.
  • the slots 4 are relatively narrow and deep and the slots 5 are relatively shallow and wide and are of different lengths from left to right as viewed in Figure l.
  • the contact holder is also provided with a central rib 6 at one side surface of the opening 3 and extending from the bottom to the top of the side surface.
  • the contact carrier assembly 2 for use with the holder of the present invention constitutes a spool-like member having a central shaft 7 with shoulders 8 and 9 at each end thereof.
  • Shoulder S at the top of the spool as viewed in Figure 1, is of smaller diameter than shoulder 9, at the bottom as viewed in Figure 1, and is of greater height than the shoulder 9.
  • One or a pair of bridging contact fingers 11 provided with a centrally disposed slot or aperture 12 of width to accommodate the shaft portion 7 arepositioned on the spool between the inner surfaces of the shoulders 8 and 9 and are pressed outwardly against the inner surfaces of the shoulders by the bias of a helical coil spring 13.
  • the bias of the spring 13 maintains the contact fingers in the assembly while permitting easy compression towards each other and rotation with respect to the central shaft portion '7 of the spool.
  • Contacts are provided on the contact fingers at 14 in any desired plurality in accordance with the requirements of the device with which the contact holder is associated.
  • the contact carrier assembly may be provided with only one contact finger 12. in which case the contact finger 11 at the bottom of the showing of Figure 2 will be removed and the spring 13 will operate against the inner surface of the upper contact finger and against the inner surface of the larger shoulder 9. Should it be desired that the single contact carrier be at the bottom of an assembly of the type of Figure 3, it will be necessary to invert the spool to provide the enlarged shoulder 9 at the top of the spool and the smaller shoulder 8 at the bottom which, in effect, is merely a reversal of the contact carrier assembly and a positioning of the contact finger 11 to provide the proper positioning of the contacts thereon.
  • the contact fingers 11 are provided with shoulders 15 at either or of the centrally disposed slot 12 aligning with the edge limits of the aperture 3 in the contact holder 1.
  • the insertion of the stationary contact carrier 2 into the holder 1 is accomplished by positioning the shoulders 8 and 9 in the grooves 4 and 5, either at the top or bottom depending upon the relative position of the carrier assembly with respect to the holder, and the insertion of: the carrier assembly into the holder until the carrier assembly comes to a stopped position. At this point the shoulders 15 will engage the nearest edge of the rib 6, the left side as viewed in Figure 4, and cannot be inserted further until the contact carriers 11 are rotated to a position to permit further insertion to allow the slots 12 to be aligned with the rib 6. To accomplish this alignment the contact fingers are compressed toward each other against the bias of spring 13 and rotated as a unit with respect to the central shaft 7 of the spool to be inclined within the cutout 3 of the holder.
  • the fingers are rotated s'utficiently to permit their effective lateral dimension to be reduced to the point that they can be slid further into the holder along the grooves 4 and 5 until the slot 12 is aligned with the rib 6.
  • the fingers 11 may then be released to be rotated under the bias of the spring 13 into paralleling alignment with the upper and lower surfaces of the cutout 3 when the grooves 12 are properly aligned with the rib 6.
  • the contact carrier assembly 2 cannot be removed from the holder 1 except by rotation of the contact fingers 11 and will be securely maintained in position in the holder for movement parallel to the axis of the spool carrier and lfor slight rotational movement with respect to the spec
  • the contact holder 1 may now be moved between the limits of stationary contacts associated with the contacts 14 on the contact fingers 11 to make and break electrical circuits therethrough and, because of the accentric positioning of the contacts 14 (as viewed in Figure 4) a slight wiping action will be effected between the stationary and movable contacts to provide good electrical contact upon engagement.
  • Figures 5 through 8 illustrate a modification of the contact holders of Figures 1 through 4 and constitute a contact holder 21 and contact carrier assembly 22.
  • the contact holder 21 is provided with a central aperture 23 into which the contact carrier assembly 22 will be inserted.
  • the contact carrier assembly constitutes a channel-like member 24 formed to be non-continuous at the bottom thereof for a minor amount of movement to provide for the accommodation of the assembly within the recess 23 of the holder 22.
  • At least one or a pair of stationary contact fingers are adapted to be supported within the member 24 and have a general contour similar to the contact fingers 11 of the disclosure of Figures 1 through 4.
  • the contact fingers 25 are provided with a barrier 26 at one side and a cutout 27 at the other providing shoulders at 28 and are positioned within the member 24 with the barrier 26 against one of the inner vertically extending surfaces of the member 24 and the recess 27 accommodating the other of the vertically extending surfaces.
  • a helical coil spring 29 is positioned within the member 24 and biases the contact fingers against the upper and lower inner surfaces of the member 24.
  • the upper surface of the member 24 is provided with an indented guide 31 and the contact fingers 25 are provided with a pressed guide 32 adapted to cooperate with the guide 31 to maintain the contact carrier in alignment within the member 24 and to function at the other surface as a guide for the spring 29, as shown in Figure 5. It should be noted from the showing of Figure 8 that the cutout 27 is of greater depth than the thickness of the member 24 such that the shoulders 28 of the contact fingers 25 extend beyond the member 24.
  • the contact carrier assembly 22 is adapted to be inserted within the aperture 23 in the holder 21 with the member 24 positioned within the recess 23 and the contact fingers 25 aligned with the edges of the holder 21.
  • the contact carrier assembly 22 must be manipulated in a similar manner to the contact carrier 2 of the holders of Figures 1 through 4 to be positioned within the holder 21. To accomplish this positioning, the contact fingers 25 are compressed together to reduce their effective lateral dimension and to bring the shoulders 28 into effective alignment with the edges of the member 24 such that the assembly 22 may be inserted into the recess 23 of the holder 21. Once positioned and aligned within the holder 21 the contact fingers 25 may be released and the bias of spring 29 will align them in parallelism with the inner surfaces of the member 24. In this position the extending portions of the shoulders 28 will align with the exterior surfaces of the holder 21 to maintain the assembly 22 in secured position Within the holder 21.
  • the modifications of Figures 1 through 4 and 5 through 8 operate in substantially the same mannet; that is, the contact carriers may be moved with the holder into and out of engagement with associated stationary contacts to provide making and breaking from electrical circuits with which the holders will be associated.
  • the contact fingers 25 of the modification of Figures 5 through 8 provide contact surfaces at 33 in a slight eccentric position with respect to the generally central axis of the holders to provide for a Wiping action between the stationary contacts with which they will cooperate.
  • the contact fingers 25 may be readily removed from the holder 21 with the member 24 for inspection or replacement and may be readily repositioned into interlocking relationship with the holder in a position of secure fitting.
  • a contact device comprising an insulating slide bar having a transverse aperture, a contact supporting assembly including at least one contact finger, a spool shaped carrier, and a biasing means, said contact finger adapted to be supported on said spool and maintained in supported position by said biasing means, said contact finger being rotatable with respect to said carrier while being maintained thereon by said biasing means, said assembly being supported on said slide bar in said transverse aperture, and means on said contact finger cooperating with means on said aperture for securing said assembly to said slide bar, said assembly being removable from said aperture when said contact finger is released from cooperating engagement with said means on said aperture.
  • a contact device comprising an insulating slide bar having a transverse aperture, a contact supporting assembly including a plurality of contact fingers, a biasing means and a spool-shaped carrier, an aperture on said contact fingers whereby said fingers may be positioned on said spool-shaped carrier and maintained thereon by said biasing means, grooves in said transverse aperture at the top and bottom thereof, a rib in said aperture on one side surface thereof, said assembly being supported on said slide bar in said transverse aperture with the ends of said spools cooperating with said grooves and said aperture on said contact finger cooperating with said rib on said aperture, said assembly being removable from said slide bar aperture when said finger apertures are released from cooperating engagement with said rib on said slide bar aperture.
  • a contact device comprising an insulating slide bar having a transverse aperture, a contact supporting assembly including a plurality of contact fingers, a biasing means, and a spool-shaped carrier having a central shaft and shouldered ends of larger diameter than said shaft, said contact fingers being positioned in said assembly on said central shaft of said spool carrier and being biased to engagement with the inner surfaces of said shoulders by said biasing means, said contact fingers being rotatable with respect to said carrier while being maintained thereon, grooves in said transverse aperture at the top and bottom surfaces thereof, a rib in one side surface of said transverse aperture, said assembly being insertable into supported position on said slide bar in said transverse aperture upon rotational movement of said contact fingers with respect to said carrier with said grooves on said transverse aperture cooperating with said shoulders of said carrier, and means on said contact fingers cooperating with said rib on said aperture for securing said assembly into supported position on said slide bar, said assembly being removable from said aperture when said contact fingers are released from cooperating engagement with said rib on said aperture.
  • a contact device comprising an insulating slide bar and having a transverse aperture, a contact supporting asw sembly including at least one contact finger, a biasing means and a substantially continuous channel-shaped carrier, said contact finger adapted to be supported on said carrier and maintained in supported position by said biasing means, said contact finger being rotatable with respect to said carrier while being maintained thereon, said assembly being supported on said slide bar in said transverse aperture, and means on said contact finger cooperating with means on said aperture for securing said assembly to said slide bar, said assembly being removable from said aperture when said contact finger is released from cooperating engagement with said means on said aperture.
  • a contact device comprising an insulating slide bar having a transverse aperture, a contact supporting assembly including a plurality of contact fingers, a biasing means, and a substantially continuous channel-shaped carrier, means on said carrier and means on said contact fingers for aligning said contact fingers in said carrier, said contact fingers being rotatable with respect to said carrier while being maintained thereon, means on said contact fingers cooperating with said contact carrier for maintaining said contact fingers in alignment on said carrier, said assembly being supported on said slide bar in said transverse aperture, and said means on said contact fingers cooperating with said carrier also engaging the side surfaces of said aperture for securing said assembly to said slide bar, said assembly being removable from said aperture when said contact fingers are released from cooperating engagement with said side surfaces of said aperture.
  • a contact device comprising an insulating slide bar having a transverse aperture, a contact supporting assembly including a plurality of contact fingers, a biasing means and a substantially continuous channel shaped carrier, a recess in said contact fingers, shoulders formed in said contact finger by said recess, said contact fingers being supported on the inner surfaces of said carrier and aligned by cooperation of said shoulders with said carrier and biased against said inner surfaces by said biasing means, said contact fingers being rotatable with respect to said carrier while being maintained thereon, said assembly being insertable into said aperture upon rotation of said contact fingers with respect to said carrier, and said shoulders on said contact fingers cooperating with eX- terior surfaces of said slide bar for securing said assembly to said slide bar, said assembly being removable from said aperture when said shoulders are released from cooperating engagement with said exterior surfaces of said slide bar.
  • a contact supporting assembly including a plurality of contact fingers, a biasing means, and a contact carrier, said carrier being spool shaped and having a centrally cylindrical shaft with end shoulders of larger diameter than said shaft, said contact fingers being apertures to slidably fit around said central shaft, and said biasing means biasing said contact fingers into engagement with the interior surfaces of said shoulders to maintain said fingers in position in said assembly.
  • a contact device comprising; an insulating bar having a transverse aperture therein, a movable contact as sembly including; a carrier, at least one bridging contact ger having contact portions on the remote ends thereof, a biasing means arranged to position the finger on the tier, said carrier, finger and biasing means being move as an assembly into a predetermined position in the aperture and means on the finger for maintaining the assembly in the position in the aperture.
  • a contact device comprising; an insulating bar having a transverse aperture therein, a movable contact assembly bodily movable into a predetermined position in the aperture; said assembly including; a carrier, at least one contact finger positionable on the carrier and a biasing means for maintaining the finger in position on the carrier and means on the finger for maintaining the assembly in position in the aperture after the assembly is bodily moved into said position in the aperture.
  • a contact device comprising; an insulating bar having a transverse aperture therein, a movable contact assembly bodily movable as a unit into a predetermined position in the aperture, said assembly including; a carrier, at least one contact finger havinr spaced contact portion thereon, and a biasing means for positioning the linger on the carrier, and means including notched portions on said finger for maintaining the assembly in the predetermined position in the aperture after the assembly is bodily moved therein.
  • a contact device comprising; an insulating bar having an aperture extending therethrough, a movable contact assembly bodily movable into a predetermined position in the aperture; said assembly including; a carrier, at least one contact finger, each of said fingers being positionable in a predetermined position on the carrier and having contact portions thereon, spring means for normally maintaining each finger in the predetermined position on the carrier, said fingers being rotatable relative to the carrier to permit insertion of the assembly in the aperture and being rotatable relative to the bar and carrier when the assembly is in the aperture to provide a wiping action for the contact portions When the contact portions engage other contacts, and a notch in at least one of the fingers for maintaining the assembly in the predetermined position in the aperture.
  • a contact device comprising; a member having an aperture extending therethrough, a movable contact assembly bodily insertable as a unit into a predetermined position in the aperture, said assembly comprising a carrier, a pair of contact fingers and spring means for maintaining said fingers in spaced positions on the carrier, and means on at least one of the fingers for maintaining the assembly in the predetermined position after the assembly is bodily inserted into the position in the aperture.

Description

y 1959 P. R. GOUDY ETAL 2,885,516
CONTACT HOLDER Filed Aug. 135, 1956 I [j VENTOR- E E1 7M K BY flawara J/Zcf roX/vzH CONTACT HOLDER Paul R. Goudy, Whitefish Bay, and Howard P. Stock,
Brookfield, Wis, assignors to Square D Company, Detroit, Mich, a corporation of Michigan Application August 13, 1956, Serial No. 603,506
12 (Ilaims. (Cl. 20ll166) This invention relates to contact holders and more particularly to an assembly of contact carriers and support therefor for use with relays 'or the like employing stationary and movable contacts.
The object of the present invention is the provision of a contact carrier assembly and a holder therefor into which the contact carrier assembly may be readily inserted and securely held.
Another object of the present invention is a contact holder and contact carrier assembly with provision for interlocking between the contact carrier and the holder for maintaining the contact carrier Within the holder and for permitting easy removal of the contact carrier from the holder for inspection of the contacts.
A further object of the present invention is the provision of a contact holder and contact carrier assembly having an interlocking arrangement between the contact carriers and the holder adapted to permit rotational movement of the contact carrier to effect a contact wipe in movement of the contacts to or from closed contact position.
A further object of the present invention is a contact holder and stationary contact assembly wherein the stationary contact assembly is statically maintained in a fixed assembly and may be easily inserted into the contact holder and wherein the contact carriers themselves interlock with portions of the contact holder and are easily tilted in the assembly for movement into interlocking relationship with the contact holder.
Further obiects and features of the invention will be readily apparent to those skilled in the art from the specification and appended drawings illustrating a certain preferred embodiment in which:
Figure l is an elevational view partially in sections of the contact holder and contact carrier assembly within the holder.
Figure 2 is a perspective view of the stationary contact carrier assembly.
Figure 3 is a side elevational view of the contact holder with the contact carriers rotated into position for the insertion of a contact carrier assembly into the holder.
Figure 4 is a sectional view taken on the lines lV-IV of Figure 1.
Figure 5 is an elevational view partially in sections of a modified form of the contact holder and contact carrier assembly of the present invention.
Figure 6 is a perspective view, partially in sections, of the contact carrier assembly of this form of the invention.
Figure 7 is a side elevation view of the contact holder and stationary contact carrier assembly with the stationary contact carriers rotated into position for the insertion of the assembly into the contact holders.
Figure 8 is a sectional view taken along the lines VIII-VIH of Figure 5.
The contact device of the present invention constitutes a contact holder 1 of molded insulating material and a contact carrier assembly 2 which may be inserted into the contact holder to be maintained in interlocking rela- 2,835,516 Patented May 5, 1959 ice tionship therewith to provide a means for securely holding the contact carriers in position in the holder while permitting ready removal thereof for purposes of inspection or replacement. To accomplish these features of the holder and contact carrier assembly, the holder is provided with an internally aperturecl portion 3 which may be of a generally square contour provided at the top and bottom thereof, as viewed in Figure 1, with a pair of slots 4 and 5 for the accommodation of portions of the contact carrier assembly 2, as will be more readily apparent hereinafter. It should be noted that the slots 4 are relatively narrow and deep and the slots 5 are relatively shallow and wide and are of different lengths from left to right as viewed in Figure l. The contact holder is also provided with a central rib 6 at one side surface of the opening 3 and extending from the bottom to the top of the side surface.
The contact carrier assembly 2 for use with the holder of the present invention constitutes a spool-like member having a central shaft 7 with shoulders 8 and 9 at each end thereof. Shoulder S, at the top of the spool as viewed in Figure 1, is of smaller diameter than shoulder 9, at the bottom as viewed in Figure 1, and is of greater height than the shoulder 9. One or a pair of bridging contact fingers 11 provided with a centrally disposed slot or aperture 12 of width to accommodate the shaft portion 7 arepositioned on the spool between the inner surfaces of the shoulders 8 and 9 and are pressed outwardly against the inner surfaces of the shoulders by the bias of a helical coil spring 13. The bias of the spring 13 maintains the contact fingers in the assembly while permitting easy compression towards each other and rotation with respect to the central shaft portion '7 of the spool. Contacts are provided on the contact fingers at 14 in any desired plurality in accordance with the requirements of the device with which the contact holder is associated.
It should be understood that the contact carrier assembly may be provided with only one contact finger 12. in which case the contact finger 11 at the bottom of the showing of Figure 2 will be removed and the spring 13 will operate against the inner surface of the upper contact finger and against the inner surface of the larger shoulder 9. Should it be desired that the single contact carrier be at the bottom of an assembly of the type of Figure 3, it will be necessary to invert the spool to provide the enlarged shoulder 9 at the top of the spool and the smaller shoulder 8 at the bottom which, in effect, is merely a reversal of the contact carrier assembly and a positioning of the contact finger 11 to provide the proper positioning of the contacts thereon. The contact fingers 11 are provided with shoulders 15 at either or of the centrally disposed slot 12 aligning with the edge limits of the aperture 3 in the contact holder 1.
The insertion of the stationary contact carrier 2 into the holder 1 is accomplished by positioning the shoulders 8 and 9 in the grooves 4 and 5, either at the top or bottom depending upon the relative position of the carrier assembly with respect to the holder, and the insertion of: the carrier assembly into the holder until the carrier assembly comes to a stopped position. At this point the shoulders 15 will engage the nearest edge of the rib 6, the left side as viewed in Figure 4, and cannot be inserted further until the contact carriers 11 are rotated to a position to permit further insertion to allow the slots 12 to be aligned with the rib 6. To accomplish this alignment the contact fingers are compressed toward each other against the bias of spring 13 and rotated as a unit with respect to the central shaft 7 of the spool to be inclined within the cutout 3 of the holder. The fingers are rotated s'utficiently to permit their effective lateral dimension to be reduced to the point that they can be slid further into the holder along the grooves 4 and 5 until the slot 12 is aligned with the rib 6. The fingers 11 may then be released to be rotated under the bias of the spring 13 into paralleling alignment with the upper and lower surfaces of the cutout 3 when the grooves 12 are properly aligned with the rib 6. In this position the contact carrier assembly 2 cannot be removed from the holder 1 except by rotation of the contact fingers 11 and will be securely maintained in position in the holder for movement parallel to the axis of the spool carrier and lfor slight rotational movement with respect to the spec The contact holder 1 may now be moved between the limits of stationary contacts associated with the contacts 14 on the contact fingers 11 to make and break electrical circuits therethrough and, because of the accentric positioning of the contacts 14 (as viewed in Figure 4) a slight wiping action will be effected between the stationary and movable contacts to provide good electrical contact upon engagement.
Figures 5 through 8 illustrate a modification of the contact holders of Figures 1 through 4 and constitute a contact holder 21 and contact carrier assembly 22. The contact holder 21 is provided with a central aperture 23 into which the contact carrier assembly 22 will be inserted. The contact carrier assembly constitutes a channel-like member 24 formed to be non-continuous at the bottom thereof for a minor amount of movement to provide for the accommodation of the assembly within the recess 23 of the holder 22. At least one or a pair of stationary contact fingers are adapted to be supported within the member 24 and have a general contour similar to the contact fingers 11 of the disclosure of Figures 1 through 4. The contact fingers 25 are provided with a barrier 26 at one side and a cutout 27 at the other providing shoulders at 28 and are positioned within the member 24 with the barrier 26 against one of the inner vertically extending surfaces of the member 24 and the recess 27 accommodating the other of the vertically extending surfaces. A helical coil spring 29 is positioned within the member 24 and biases the contact fingers against the upper and lower inner surfaces of the member 24. The upper surface of the member 24 is provided with an indented guide 31 and the contact fingers 25 are provided with a pressed guide 32 adapted to cooperate with the guide 31 to maintain the contact carrier in alignment within the member 24 and to function at the other surface as a guide for the spring 29, as shown in Figure 5. It should be noted from the showing of Figure 8 that the cutout 27 is of greater depth than the thickness of the member 24 such that the shoulders 28 of the contact fingers 25 extend beyond the member 24.
The contact carrier assembly 22 is adapted to be inserted within the aperture 23 in the holder 21 with the member 24 positioned within the recess 23 and the contact fingers 25 aligned with the edges of the holder 21. The contact carrier assembly 22 must be manipulated in a similar manner to the contact carrier 2 of the holders of Figures 1 through 4 to be positioned within the holder 21. To accomplish this positioning, the contact fingers 25 are compressed together to reduce their effective lateral dimension and to bring the shoulders 28 into effective alignment with the edges of the member 24 such that the assembly 22 may be inserted into the recess 23 of the holder 21. Once positioned and aligned within the holder 21 the contact fingers 25 may be released and the bias of spring 29 will align them in parallelism with the inner surfaces of the member 24. In this position the extending portions of the shoulders 28 will align with the exterior surfaces of the holder 21 to maintain the assembly 22 in secured position Within the holder 21.
In operation, the modifications of Figures 1 through 4 and 5 through 8 operate in substantially the same mannet; that is, the contact carriers may be moved with the holder into and out of engagement with associated stationary contacts to provide making and breaking from electrical circuits with which the holders will be associated. The contact fingers 25 of the modification of Figures 5 through 8 provide contact surfaces at 33 in a slight eccentric position with respect to the generally central axis of the holders to provide for a Wiping action between the stationary contacts with which they will cooperate. The contact fingers 25 may be readily removed from the holder 21 with the member 24 for inspection or replacement and may be readily repositioned into interlocking relationship with the holder in a position of secure fitting.
While certain preferred embodiments of the invention have been specifically disclosed, it is understood that the invention is not limited thereto, as many variations will be readily apparent to those skilled in the art and the invention is to be given its broadest interpretation within the terms of the following claims.
We claim:
1. A contact device comprising an insulating slide bar having a transverse aperture, a contact supporting assembly including at least one contact finger, a spool shaped carrier, and a biasing means, said contact finger adapted to be supported on said spool and maintained in supported position by said biasing means, said contact finger being rotatable with respect to said carrier while being maintained thereon by said biasing means, said assembly being supported on said slide bar in said transverse aperture, and means on said contact finger cooperating with means on said aperture for securing said assembly to said slide bar, said assembly being removable from said aperture when said contact finger is released from cooperating engagement with said means on said aperture.
2. A contact device comprising an insulating slide bar having a transverse aperture, a contact supporting assembly including a plurality of contact fingers, a biasing means and a spool-shaped carrier, an aperture on said contact fingers whereby said fingers may be positioned on said spool-shaped carrier and maintained thereon by said biasing means, grooves in said transverse aperture at the top and bottom thereof, a rib in said aperture on one side surface thereof, said assembly being supported on said slide bar in said transverse aperture with the ends of said spools cooperating with said grooves and said aperture on said contact finger cooperating with said rib on said aperture, said assembly being removable from said slide bar aperture when said finger apertures are released from cooperating engagement with said rib on said slide bar aperture.
3. A contact device comprising an insulating slide bar having a transverse aperture, a contact supporting assembly including a plurality of contact fingers, a biasing means, and a spool-shaped carrier having a central shaft and shouldered ends of larger diameter than said shaft, said contact fingers being positioned in said assembly on said central shaft of said spool carrier and being biased to engagement with the inner surfaces of said shoulders by said biasing means, said contact fingers being rotatable with respect to said carrier while being maintained thereon, grooves in said transverse aperture at the top and bottom surfaces thereof, a rib in one side surface of said transverse aperture, said assembly being insertable into supported position on said slide bar in said transverse aperture upon rotational movement of said contact fingers with respect to said carrier with said grooves on said transverse aperture cooperating with said shoulders of said carrier, and means on said contact fingers cooperating with said rib on said aperture for securing said assembly into supported position on said slide bar, said assembly being removable from said aperture when said contact fingers are released from cooperating engagement with said rib on said aperture.
4. A contact device comprising an insulating slide bar and having a transverse aperture, a contact supporting asw sembly including at least one contact finger, a biasing means and a substantially continuous channel-shaped carrier, said contact finger adapted to be supported on said carrier and maintained in supported position by said biasing means, said contact finger being rotatable with respect to said carrier while being maintained thereon, said assembly being supported on said slide bar in said transverse aperture, and means on said contact finger cooperating with means on said aperture for securing said assembly to said slide bar, said assembly being removable from said aperture when said contact finger is released from cooperating engagement with said means on said aperture.
5. A contact device comprising an insulating slide bar having a transverse aperture, a contact supporting assembly including a plurality of contact fingers, a biasing means, and a substantially continuous channel-shaped carrier, means on said carrier and means on said contact fingers for aligning said contact fingers in said carrier, said contact fingers being rotatable with respect to said carrier while being maintained thereon, means on said contact fingers cooperating with said contact carrier for maintaining said contact fingers in alignment on said carrier, said assembly being supported on said slide bar in said transverse aperture, and said means on said contact fingers cooperating with said carrier also engaging the side surfaces of said aperture for securing said assembly to said slide bar, said assembly being removable from said aperture when said contact fingers are released from cooperating engagement with said side surfaces of said aperture.
6. A contact device comprising an insulating slide bar having a transverse aperture, a contact supporting assembly including a plurality of contact fingers, a biasing means and a substantially continuous channel shaped carrier, a recess in said contact fingers, shoulders formed in said contact finger by said recess, said contact fingers being supported on the inner surfaces of said carrier and aligned by cooperation of said shoulders with said carrier and biased against said inner surfaces by said biasing means, said contact fingers being rotatable with respect to said carrier while being maintained thereon, said assembly being insertable into said aperture upon rotation of said contact fingers with respect to said carrier, and said shoulders on said contact fingers cooperating with eX- terior surfaces of said slide bar for securing said assembly to said slide bar, said assembly being removable from said aperture when said shoulders are released from cooperating engagement with said exterior surfaces of said slide bar.
7. A contact supporting assembly including a plurality of contact fingers, a biasing means, and a contact carrier, said carrier being spool shaped and having a centrally cylindrical shaft with end shoulders of larger diameter than said shaft, said contact fingers being apertures to slidably fit around said central shaft, and said biasing means biasing said contact fingers into engagement with the interior surfaces of said shoulders to maintain said fingers in position in said assembly.
8. A contact device comprising; an insulating bar having a transverse aperture therein, a movable contact as sembly including; a carrier, at least one bridging contact ger having contact portions on the remote ends thereof, a biasing means arranged to position the finger on the tier, said carrier, finger and biasing means being move as an assembly into a predetermined position in the aperture and means on the finger for maintaining the assembly in the position in the aperture.
9. A contact device comprising; an insulating bar having a transverse aperture therein, a movable contact assembly bodily movable into a predetermined position in the aperture; said assembly including; a carrier, at least one contact finger positionable on the carrier and a biasing means for maintaining the finger in position on the carrier and means on the finger for maintaining the assembly in position in the aperture after the assembly is bodily moved into said position in the aperture.
10. A contact device comprising; an insulating bar having a transverse aperture therein, a movable contact assembly bodily movable as a unit into a predetermined position in the aperture, said assembly including; a carrier, at least one contact finger havinr spaced contact portion thereon, and a biasing means for positioning the linger on the carrier, and means including notched portions on said finger for maintaining the assembly in the predetermined position in the aperture after the assembly is bodily moved therein.
ii. A contact device comprising; an insulating bar having an aperture extending therethrough, a movable contact assembly bodily movable into a predetermined position in the aperture; said assembly including; a carrier, at least one contact finger, each of said fingers being positionable in a predetermined position on the carrier and having contact portions thereon, spring means for normally maintaining each finger in the predetermined position on the carrier, said fingers being rotatable relative to the carrier to permit insertion of the assembly in the aperture and being rotatable relative to the bar and carrier when the assembly is in the aperture to provide a wiping action for the contact portions When the contact portions engage other contacts, and a notch in at least one of the fingers for maintaining the assembly in the predetermined position in the aperture.
12. In a contact device, the combination comprising; a member having an aperture extending therethrough, a movable contact assembly bodily insertable as a unit into a predetermined position in the aperture, said assembly comprising a carrier, a pair of contact fingers and spring means for maintaining said fingers in spaced positions on the carrier, and means on at least one of the fingers for maintaining the assembly in the predetermined position after the assembly is bodily inserted into the position in the aperture.
References Cited in the file of this patent UNITED STATES PATENTS
US603506A 1956-08-13 1956-08-13 Contact holder Expired - Lifetime US2885516A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US603506A US2885516A (en) 1956-08-13 1956-08-13 Contact holder

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US603506A US2885516A (en) 1956-08-13 1956-08-13 Contact holder

Publications (1)

Publication Number Publication Date
US2885516A true US2885516A (en) 1959-05-05

Family

ID=24415730

Family Applications (1)

Application Number Title Priority Date Filing Date
US603506A Expired - Lifetime US2885516A (en) 1956-08-13 1956-08-13 Contact holder

Country Status (1)

Country Link
US (1) US2885516A (en)

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3099734A (en) * 1960-03-24 1963-07-30 Ward Leonard Electric Co Electrical relay
US3188405A (en) * 1961-08-30 1965-06-08 Ward Leonard Electric Co Multi-pole relay with interchangeable spring biased contact structure
US3200225A (en) * 1963-06-03 1965-08-10 Square D Co Articulated reciprocating contact structure
US3202775A (en) * 1959-12-04 1965-08-24 Gen Electric Rotor type electric switch with resiliently mounted contact members
US3258548A (en) * 1963-01-18 1966-06-28 Controls Co Of America Three position slide bar type switch
US3260824A (en) * 1963-07-29 1966-07-12 Arrow Hart & Hegeman Electric Low energy non-arcing electric relay construction
US4529953A (en) * 1982-09-01 1985-07-16 Electromation, Inc. Electrical switch
DE3522090A1 (en) * 1984-06-20 1986-01-02 Mitsubishi Denki K.K., Tokio/Tokyo MOVABLE CONTACT ARRANGEMENT FOR A SWITCH
US5532441A (en) * 1994-10-13 1996-07-02 Square D Company Contact block having convertible normally open or normally closed electrical contact

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1853964A (en) * 1930-03-15 1932-04-12 Gen Electric Electric switch
US2208387A (en) * 1935-07-26 1940-07-16 Westinghouse Electric & Mfg Co Switching device
US2585824A (en) * 1948-01-27 1952-02-12 Electric Controller & Mfg Co Electric switch

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1853964A (en) * 1930-03-15 1932-04-12 Gen Electric Electric switch
US2208387A (en) * 1935-07-26 1940-07-16 Westinghouse Electric & Mfg Co Switching device
US2585824A (en) * 1948-01-27 1952-02-12 Electric Controller & Mfg Co Electric switch

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3202775A (en) * 1959-12-04 1965-08-24 Gen Electric Rotor type electric switch with resiliently mounted contact members
US3099734A (en) * 1960-03-24 1963-07-30 Ward Leonard Electric Co Electrical relay
US3188405A (en) * 1961-08-30 1965-06-08 Ward Leonard Electric Co Multi-pole relay with interchangeable spring biased contact structure
US3258548A (en) * 1963-01-18 1966-06-28 Controls Co Of America Three position slide bar type switch
US3200225A (en) * 1963-06-03 1965-08-10 Square D Co Articulated reciprocating contact structure
US3260824A (en) * 1963-07-29 1966-07-12 Arrow Hart & Hegeman Electric Low energy non-arcing electric relay construction
US4529953A (en) * 1982-09-01 1985-07-16 Electromation, Inc. Electrical switch
DE3522090A1 (en) * 1984-06-20 1986-01-02 Mitsubishi Denki K.K., Tokio/Tokyo MOVABLE CONTACT ARRANGEMENT FOR A SWITCH
US5532441A (en) * 1994-10-13 1996-07-02 Square D Company Contact block having convertible normally open or normally closed electrical contact

Similar Documents

Publication Publication Date Title
US2885516A (en) Contact holder
US2106581A (en) Electric switch
US2743331A (en) Snap switch
US4713498A (en) Switch gear
US2532305A (en) Electric switch
US5230152A (en) Dual blade utility knife
US1960130A (en) Knife
US3580394A (en) Article holder
US2281877A (en) Cutting stick
US6035755A (en) Paper cutter
US3309487A (en) Push button actuator
US2576771A (en) Operating mechanism for electric switches
US1839095A (en) Detachable contact
US2897311A (en) Contact supporting means for electromagnetic switches
US2659792A (en) Electric switch
US2897327A (en) Control-station
US3260824A (en) Low energy non-arcing electric relay construction
US2428448A (en) Thread guide and mounting for tricot warp knitting
US2727956A (en) Sliding handle snap switch
US2990534A (en) Electric terminal strip
US2785240A (en) Slide switches
US2622410A (en) Freezing tray
US4277662A (en) Switch blade with wiping contact action
US2519855A (en) Movable contact retaining means for electric switches
US1971212A (en) Electric snap switch