|Publication number||US3188404 A|
|Publication date||Jun 8, 1965|
|Filing date||May 29, 1962|
|Priority date||May 29, 1962|
|Also published as||DE1226679B|
|Publication number||US 3188404 A, US 3188404A, US-A-3188404, US3188404 A, US3188404A|
|Inventors||Fichter Ludwig J|
|Original Assignee||Oak Mfg Co|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (11), Referenced by (7), Classifications (10)|
|External Links: USPTO, USPTO Assignment, Espacenet|
June 8, 1965 L. J. FIGHTER ROTARY ELECTRIC SWITCH WITH INTERFITTING MEANS Filed May 29, 1962 United States Patent 3,188,404 RQTARY ELECTREC SWITCH WHTH INTERFITTING MEANS Ludwig I. Fichter, Crystal Lalre, lll., assignor to (Bali Manufacturing (10., a corporation of Delaware Filed May 29, 1962., Ser. No. 198,534 8 Claims. (Cl. 200-14) This invention relates to a rotary switch and more particularly to a very small rotary switch.
The illustrated embodiment of the invention is directed to a miniature switch generally of the type disclosed in copending patent application of Mastney for Rotary Electric Switch Means, Serial No. 21,414, filed April 11, 1960. The Mastney application refers to an Allison et al. Patent 2,186,949, granted in 1940, and the Mastney and Allison disclosures are generally indicative of such rotary switch constructions. The manufacture of miniature switches entails numerous problems not encountered in the manufacture of similar, but larger switches. For example, miniature switches must be very compact in design to conserve space and provide a switch with small outside dimensions. Furthermore, miniature switches must be sufficiently strong for normal handling, but because of the small size of the parts, expedients usually encountered in larger switch manufacture are often unsuited for miniature switches. Similarly, the construction of miniature switches must be modified to facilitate use of commerciah ly practical assembly techniques.
The primary object of this invention is to provide a new and improved rotary switch.
Another object of this invention is to provide a new and improved miniature switch.
A further object is to provide a new and improved rotary shaft mounting assembly in a rotary switch.
A more specific object is to provide a new and improved retaining ring assembly on a shaft of a rotary switch.
Still another object is to provide a new and improved assembly for holding switch sections operatively assembled.
Still another obiect is to provide a new and improved indexing assembly for a rotary switch.
Other objects and advantages of the invention will become readily apparent from the following detailed description taken in connection with the accompanying drawings, in which:
FIGURE 1 is a fragmentary, longitudinal sectional View of a preferred embodiment of a miniature rotary switch, to a scale much larger than the actual switch;
FIGURE 2 is a transverse section taken generally along the line 2 2 of FIGURE 1;
FIGURE 3 is a transverse section taken generally along the line 33 of FIGURE 1, with parts broken away for clearer illustration; and
FIGURE 4 is a rear end View taken generally along the line 4-4 of FIGURE 1.
While an illustrative embodiment of the invention is shown in the drawings and will be described in detail herein, the invention is susceptible of embodiment in many different forms, and it should be understood that the present disclosure is to be considered as an exemplification of the principles of the invention and it is not intended to limit the invention to the embodiment illustrated. The scope of the invention will be pointed out in the appended claims.
The invention is, in brief, directed to a miniature rotary switch having a casing with front and rear ends and defined by a series of end abutting stator sections. A rotary shaft extends through the casing for operating switch contacts on the shaft and casing. This shaft is journalled at the front end ofthe casing in a bushing and is held against rearward movement by a ring fixedly installed to the shaft and seated against the bushing front. An index assembly includes a plurality of balls mounted about the shaft and urged into engagement with an index plate by a spring, providing smoother and more reliable operation than that previously obtained in miniature switches, and this index assembly further cooperates in maintaining the shaft operativeiy assembled in the switch. The rear end of the shaft is journalled in an end assembly which retains the casing switch sections in operative end abutting association. This end assembly includes novel spring means acting against the shaft and the casing sections, and retaining means particularly suited for miniature switch construction.
Referring to FIGURE 1 of the drawings, a miniature rotary switch assembly includes a casing ill which in an actual switch may be about a half inch in diameter. This casing is defined by a plurality of cylindrical sleeve-like sections including a spacer section 11 at the front end of the casing, and one or more stator sections 12 extending rearwardly from spacer section 13;. These sections are in end abutting relationship, and are detachably interlocked in operatively fixed association with each other by any suitable means such as mating prongs l3 and notches 14 in facing ends of adjacent sections, as shown in FIGURES l, 3 4. Any number of stator sections l2 may be provided, as required by a number of circuits to be controlled. Suitable stator contacts 15 are mounted in any required number on each of the stator sections 12. This casing construction may be of any suitable type, for example, as described in the aforementioned patent application.
A rotary operating shaft 24 extends longitudinally through casing 16 and in the illustrated embodiment is coaxial therewith. Its front end is adapted to receive a suitable control knob (not shown) and i journalled in a mounting member here in the form of a bushing 21 at the front end of casing ll). This mounting member has a forwardly extending threaded boss 22 for rmeiving a nut in mounting the switch in an apertured control panel. A split ring, such as a C-ring Z3, is received in a circumferentially extending groove 24 disposed forwardly of a front shoulder of bushing 21 and in abutting relationship with this shoulder. More particularly, a suitable friction reducing washer 26 is received between bushing shoulder 25 and ring 223 to provide for easier operation of shaft 20.
It should be noted that in a miniature switch the ring receiving groove 2-4 must be relatively shallow in order that the shaft is not excessively weakened by the groove, and therefore the bearing surface area between ring 23 and the side wall of the groove, that is the abutting surfaces transverse to the rotational axis of shaft 20, is relatively smal The seating area between ring 23 and bushing shoulder 25 is usually relatively great to provide an adequate bearing surface. Thus, the ring would normally tend to rotate in groove 24 rather than against shoulder 25 or washer 26, and excessive wear could easily occur between ring 23 and shaft 20. In order to prevent relative rotation between ring 23 and shaft 20, means is provided for holding the ring fixed on the shaft, and herein this means is in the form of staked portions 27 of the shaft which bite into the side faces of ring 23. By fixing ring 23 to shaft Ztl such wear is effectively eliminated and the ring glides on friction washer 26. For reasons which will become apparent hereinafter, shaft 2d is preferably received in bushing 21 prior to installation of ring 23 on the shaft, and staking the ring on the shaft has been found to be an expedient method of preventing relative rotation between the ring and the shaft.
Within casing it), suitable rotor contacts 39 are mounted on rotors 31 secured to shaft 20 for rotation therewith. The mounting of rotors 3i and their contacts 36 may be of any suitable type, and preferably as disclosed in the aforementioned patent and patent application. Thus, by
rotating shaft 24) the stator contacts cooperate with rotor contacts 3%) for operation between opened and closed positions.
In order to selectively operate these cooperating stator and rotor contacts, an indexing mechanism is provided. In the illustrated embodiment this indexing mechanism is housed within spacer section 11 of casing 1t) and includes a front end member in the form of an index plate 36 fixedly secured to bushing 21 as by a rolled portion 3'7 of the bushing. Index plate 36 extends radially outwardly from bushing 21 and is provided with outwardly extending tabs F fi-received in the notches 14 in the front end of spacer section 11. These parts are associated so that bushing 21 and index plate 36 may be assembled on the front end of easing lltl by axial rearwardly movement of the casing to seat prongs 38 in notches f4 and thereby connect bushing 21 in operatively nonrot'atable relationship with casing 16 and hold the bushing against rearward movement with respect to the casing.
As may best be seen in FIGURE 3, a plurality of teeth dil are stamped in index plate 35 concentric about shaft 29, and therebetween define pockets 41. A ball retaining plate 42 illustrated in the form of a yoke is telescoped on shaft 2% for rotation therewith and in the illustrated embodiment is fixedly mounted on the shaft. Plate 42 may be best seen in FIGURE 2, and is provided with a plurality of enerally circular openings 43, here three in number equally spaced about shaft 2t). Balls 44 are received in these openings and are selectively and releasably normally removably received in pockets 43 of index plate 36. Openings 4-3 may be located in any suitable manner so as to support the balls and a thrust member, here in the form of a thrust washer 45 urged against balls 44 by resilient means. This means is here in the form of a spiral compression spring 46 having one end seated on thrust washer 4,5 and an opposite end seated on a retaining member. This retaining member is illustrated in the formof a retaining washer d7 operatively axially fixed on shaft 2ft. Spring 46 urges balls 44 against index plate 36 and normally into pockets 4-1, and further urges shaftZtB rearwardly of casing it) to seat ring 23 against bushing shoulder 25, and more particularly against antifriction washer 26. Spring 56 is telescopically received on a hub 45 seated at one end against plate 4 2 and at its opposite end against retaining washer 47. This hub is of such outside diameter adjacent the retaining washer as to retain spring 46 effectively concentric with shaft 2t so that, the spring pressesthrust washer 45 against balls 44 with an evenly distributed force. It should be noted that in the illustrated embodiment thrust washer 45 is telescoped on hub 48. Thus, as shaft Ztl is rotated balls 44% move step by step from pocket to pocket for indexing rotation of the shaft resulting in opening and closing of contacts 15 and 39.
In order to limit rotation of shaft 2% if desired, stop means may be provided. As illustrated this means includes an abutment 5t stamped in index plate 36 and extending in the same direction as teeth 49. Preferably this. abutment is integral with and extends radially outwardly from one of the teeth 4% as may best be seen in FIGURE 3. One or more abutments may be provided depending on the degree of rotation desired of shaft 29, and in the illustrated embodiment the abutment 5t cooperates with an axially extending finger 51 fixed with respect to shaft 230' and more particularly extending from the peripheral portion of plate 42. Thus, if but one abutment St is provided, shaft 20'may be rotated almost 360 degrees with finger 51 engaging opposite sides of this abutment -50 to limit such rotation,
Shaft 2h is journalled at the rear end of casing 10 by an end assembly 55. This end assembly includes an end member in the form of a cupped plate 56 having tabs 57 extending from the periphery thereof and received in the notches 1 1 in the rear end stator section 12 of casing in, so that the cupped plate. is operatively nonrotatably d mounted with respect to the casing. Plate 56 has a cupshaped center portion extending inwardly of casing lit with an opening 5i? in the base of the cup-shaped portion and herein concentric with casing iii. The rear end of shaft it extends through this opening and resilient means in the form of a bowed sprin washer 6t) is telescoped on shaft 24 This washer is normally bowed outwardly from the base of cup-shaped portion 55 and has opposite outer edge portions till seated against this base with the remainder of the outer edge of the washer spaced rearwardly from the base. A nut 65 is threadedly received by a threaded rear end as of shaft 2%, and has a pair of collars 67 and 6% extending axially in opposite directions from the nut body. Collar 6'7 extends inwardly through opening 59 in cupped plate 58 and is telescoped on the rear end of shaft 24 thus providing a journal for the shaft. Nut 65 is tightened against bowed spring washer as to securely mount shaft 2t in casing lit) and urge ring 23 against friction reducing washer 26, and also urge cupped plate tabs 57 against the base of notches lid in the end stator section 12 of easing it to urge the casing sections into operative end abutting association as illustrated in FIGURE 1.
Means is provided locking nut 65 on shaft 2%) and herein this means includes flattened sides 74) on shaft 2d, and nut collar es crimped at opposite side portions '71 into firm engagement with flattened shaft sides 763. This looking expedient is particularly desirable in miniature switches as disclosed herein, in that none of the parts of the switch need be weakened to facilitate such locking.
1. In a rotary switch, a casing having front and rear ends, a mounting member at said front end, said mounting member being detachably interlocked with said casing frontend against rotation with respect to said casing and movement inwardly of said casing, a rotary switch operating shaft within said casingand journalled in and extending outwardly from said mounting member, said shaft having an index portion intermediate the ends thereof, a
etaining ring separate from said shaft and received on said shaft in abutting relationship with said member to hold said shaft against movement rearwardly of said casing and position said shaft index portion within said casing, meanseifectively preventing relative rotation between said ring and said shaft and retaining said ring operatively axially fixed on said shaft, means defining pockets about said shaft index portion and stationary With respect to said casing, balls releasably and normally received in said pockets, means disposing said balls in spaced relationship about said shaft index portion and mounting said balls for rotation with said shaft, a thrust member adjacent said balls, resilient means including a spiral compression spring telescoped on said shaft index portion and seated against said thrust member for urging said thrust member against said balls and said balls into said pockets, and urging said shaft rearwardly of said casing to seat said ring against said mounting member, an end member seated against the rear end of said casing and having a central opening receiving said shaft with an end of the shaft extending outwardly from said end mem her, a spring washer received on said shaft outwardly of said end member and seated against said end member, a retaining member on said shaft rearwardly of said spring washer and seated against said spring washer for stressing said spring washer and resiliently urging said end member against said rear end of said casing, said retaining member having a first collar extending rearwardly about said shaft, and a second collar extending through said opening to centersaid shaft relative to said casing and align said balls with said pockets, and means locking said retaining member on said shaft and including a flattened side of said shaft and said first collar engaging said flattened side.
2. In a rotary switch, a casing having front and rear ends, a mounting member detachably interlocked with said casing front end, a rotary switch operating shaft within said casing and journalled in and extending outwardly from said mounting member, a retaining ring received on said shaft in abutting relationship with said member, means effectively preventing relative rotation between said ring and said shaft and retaining said ring operatively axially fixed on said shaft to hold said shaft against movement rearwardly of said casing, index means including pockets fixed about said shaft and balls releasably and normally received in said pockets, a thrust member adjacent said balls, resilient means urging said thrust member against said balls and said balls into said pockets, and urging said shaft rearwardly of said casing to seat said ring against said mounting member, an end member seated against the rear end of said casing and having a central opening receiving said shaft with an end of the shaft extending outwardly from said end member, a spring washer received on said shaft outwardly of said end member and seated against said end member, and a retaining member on said shaft rearwardly of said spring washer and seated against said spring Washer for stressing said spring washer and resiliently urging said end member against said rear end of said casing, said retaining member having centering means thereon received in said opening for centering said shaft within said casing and for aligning said balls with said pockets.
3. In a rotary switch, a casing having a front end and a rear portion, a mounting member at said end, a shaft journalled in said mounting member and held against movement rearwardly of said member, cooperating switch contacts on said shaft and casing, an index plate fixedly mounted on said mounting member and detachably interlocked with said casing end against rotation with respect to said casing and movement inwardly of said casing, a plurality of teeth stamped in said plate concentric about said shaft and defining pockets therebetween, at least three balls selectively and releasably normally received in said pockets, a ball carrier plate operatively axially fixed on said shaft and rotatable therewith, said carrier plate being rearward of said index plate and having opening therethrough freely receiving said balls, said openings being spaced about said shaft to dispose said balls in stable supporting relationship with said index plate, a retaining Washer held against rearward movement on said shaft and positioned rearwardly of said carrier plate, a hub received on said shaft and firmly seated against said carrier plate and retaining washer, a thrust washer freely received on said hub between said retaining washer and said balls, and resilient means including a spiral compression spring closely telescoped on said hub and retained thereby generally concentric with said shaft, said spring being seated against said thrust washer and retaining washer and urging said thrust washer against said balls and said balls into engagement with said index plate and normally into said pockets, and urging said shaft rear- Wardly of said casing end.
4. The switch of claim 3 and stop means'including an abutment stamped in said index plate and integral with one of said teeth, and a cooperating finger on said thrust washer for limiting rotation of said shaft.
5. In a rotary switch, a casing having a front portion and a rear end and defined by a series of end abutting sections, a mounting unit detachably interlocked with said casing front portion against rotation with respect to said casing and movement inwardly of said casing, a shaft journalled in said mounting unit and within said casing and held against movement rearwardly of said mounting unit, cooperating switch contacts on said shaft and easing, a cupped end plate having a peripheral portion detachably and non-rotatably seated against the rear end of said casing and having a cup-shaped center portion extending inwardly of said casing rear end, said center portion having a base with a central opening receiving said shaft and an end of the shaft extending outwardly from said base, a
spring washer received on said shaft outwardly of said base, said washer being normally bowed outwardly from said base and having opposite outer edge portions freely seated against said base with the remainder of the outer edge of the washer spaced rearwardly from said base, a nut threaded on said shaft end rearwardly of said spring Washer and seated against said spring washer for resiliently urging said cupped plate against the rear end of said casing to hold said casing sections assembled and said mounting unit interlocked with said casing, said nut having collars extending axially in opposite directions about said shaft, one of said collars being received in said base opening and defining a journal for said shaft to rotatably support said shaft centrally in said casing and to align the contacts on said shaft with the contacts on said casing, and means locking said nut on said shaft and including a flattened side of said shaft and the other of said nut collars crimped into firm engagement with said flattened side.
6. In a rotary switch, a casing having a rear end, a shaft rotatably mounted within said casing, an end member separate from said casing having a portion seated against the rear end of said casing and fixed against rotation with respect thereto, said end member having an opening receiving said shaft with an end of the shaft extending outwardly from said end member, a spring washer received on said shaft outwardly of said end member and seated against said end member, a retaining member on said shaft rearwardly of said spring washer and seated against said spring washer for resiliently urging said end member againnt the rear end of said casing, said retaining member having a first forwardly extending collar snugly received in said opening to provide a journal for said shaft and a second collar extending rearwardly about said shaft, and means locking said retaining member on said shaft and including a flattened side of said shaft and said second collar engaging said flattened side.
7. In a switch, a casing having an end and a shaft rotatably mounted in the casing, an end member separate from said casing seated against the end of said casing and fixed against rotation with respect thereto, said end member having an opening receiving said shaft, resilient means seated against said end member, a retaining member seated against said resilient means and having a first forwardly extending collar snugly received in said opening to provide a journal for said shaft and a second collar extending rearwardly about aid shaft, and means locking said retaining member on said shaft and including a flattened side of said shaft and said second collar engaging said flattened side.
3. The rotary switch construction of claim 6 wherein said retaining member is threaded on said shaft against said spring washer.
References (Iited by the Examiner UNITED STATES PATENTS 1,069,877 8/13 Hurst 285-119 1,298,469 3/19 De Young et al 151-2 2,020,000 11/35 Schellenge 338-132 2,186,949 1/40 Allison 200-15 2,508,655 5/50 Silverman 285-119 2,577,654 12/51 Gates. 2,701,161 2/55 Cain. 2,821,580 1/58 Black 200-11 X 2,864,923 12/58 Nathews 200-166 2,947,826 8/60 Pelletier 200-15 FOREIGN PATENTS 286,315 6/31 Italy.
BERNARD A. GILHEANY, Primary Examiner.
|Cited Patent||Filing date||Publication date||Applicant||Title|
|US1069877 *||Oct 13, 1911||Aug 12, 1913||Francis J Hurst||Conduit-box.|
|US1298469 *||Dec 29, 1917||Mar 25, 1919||Ernest V De Young||Nut-lock.|
|US2020000 *||Mar 31, 1932||Nov 5, 1935||Chicago Telephone Supply Co||Circuit controller|
|US2186949 *||Dec 9, 1935||Jan 16, 1940||Oak Mfg Company||Electric switch|
|US2508655 *||Jul 23, 1945||May 23, 1950||T & M Mfg Company||Clamping connector|
|US2577654 *||Jul 5, 1946||Dec 4, 1951||Curtis Automotive Devices Inc||Vent valve|
|US2701161 *||May 20, 1953||Feb 1, 1955||American Hardware Corp||Doorknob construction|
|US2821580 *||Oct 31, 1955||Jan 28, 1958||Black George S||Switch|
|US2864923 *||May 17, 1957||Dec 16, 1958||Gen Electric||Electric relay|
|US2947826 *||Sep 11, 1959||Aug 2, 1960||Roger Pelletier||Electrical switch|
|IT286315B *||Title not available|
|Citing Patent||Filing date||Publication date||Applicant||Title|
|US3271534 *||Mar 23, 1965||Sep 6, 1966||Leeds & Northrup Co||Multi-point rotary switch with improved detent arrangement|
|US3773990 *||Feb 15, 1972||Nov 20, 1973||Gen Motors Corp||Transmission control and steering arrangement with sensor switch assembly|
|US4125887 *||Mar 8, 1976||Nov 14, 1978||Elmeg Elektro-Mechnik Gmbh||Socket and relay assembly|
|US4137559 *||Jul 1, 1977||Jan 30, 1979||Elmeg-Elektro-Mechanik Gesellschaft Mit Beschrankter Haftung||Socket assembly|
|US4232207 *||Jul 5, 1978||Nov 4, 1980||The Echlin Manufacturing Company||Rotary switch assembly|
|US4335288 *||May 5, 1980||Jun 15, 1982||Starkstrom Gummersbach Gmbh||Electric switching apparatus particularly a cam switch|
|EP0002393A1 *||Dec 7, 1978||Jun 13, 1979||Westinghouse Electric Corporation||Operating unit for selector switch|
|U.S. Classification||200/14, 200/307, 200/5.00R|
|International Classification||H01H19/00, H01H19/58, H01H19/11|
|Cooperative Classification||H01H19/11, H01H19/58|
|European Classification||H01H19/58, H01H19/11|