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Publication numberUS2904662 A
Publication typeGrant
Publication dateSep 15, 1959
Filing dateDec 30, 1957
Priority dateDec 30, 1957
Publication numberUS 2904662 A, US 2904662A, US-A-2904662, US2904662 A, US2904662A
InventorsConrad H F Spring
Original AssigneeBell Telephone Labor Inc
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Circuit controller
US 2904662 A
Abstract  available in
Images(2)
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Claims  available in
Description  (OCR text may contain errors)

Sept. 15, 1959 c. H. FJSPRING 2,904,662

CIRCUIT CONTROLLER Filed Dec. 30, 1957 I 2 Sheets-Sheet 1 IN VE/W'OR C. H. E SPRING Sept. 15, 1959 c. H. F. SPRING I cmcurr CONTROLLER Filed Dec. :50; 1957 2 Sheets-Sheet 2 4 FIG. 3

' INVENTOR C. H. E SPRING A T TORIVE V United States Patent CIRCUIT CONTROLLER Conrad H. F. Spring, Kinnelon, N.J., assignor to Bell Telephone Laboratories, Incorporated, New York, N.Y., a corporation of New York 1 This invention relates to circuit controllers and, more L 2,904,662 Patented Sept. 15, 1959 ice the top surfaces of the panels 2 and 3. The invention particularly, to a circuit controller having means for separately indicating different conditions of a controlled cir- Cult.

In certain types of equipment, it is necessary to employ circuit controllers, such as push buttons, mounted in a panel in such manner that the front or top surface of each of the push buttons is normally flush with the surface of the panel. It is also required that the circuit controllers or push buttons be so constructed as to provide visual indications of the different conditions of a controlled circuit, such as the nature of the function j to be perfomed, whether it is available, and whether the function has been performed. This can be conveniently accomplished by means of lamps located beneath the operating surfaces of the push buttons. When this has been done, it then becomes desirable that quick, convenient access to the lamps should be available so that, when a lamp -burns out, it can immediately be removed and replaced with another lamp. p f r I I Accordingly, it is an object of this invention to provide an improved circuit controller. It is also an object of tbisiinvention to provide a circuit controller with improved means for separately indicating difierent conditionsof a controlled circuit.

An additional object of the invention is to provide a circuit controller of the push button type with a plurality of indicating lamps mounted beneath the operating surface of the push button in an improved manner for permitting quick removal and substitution of the lamps. These and other objects of the invention are attained by constructing a push button of light-transmitting material and slidably mounted within a housing or casing. A plunger is attached to the push button for reciprocal movement therewith for the purpose of operating circuit-controlling contacts attached to the casing. In

is particularly useful in this environment where, due to limited space and weight allocations, the ordinary conglomeration of rotary switches, toggle switches, knobs, and lamps is undesirable. Furthermore, such heterogeneous clusters of equipment do not meet the need for simplified manual controls which are essential for're- .ducing mental and physical loads imposed uponpeople who operate high-speed, complex equipment. These requirements are fulfilled by the present invention which is a simple, compact, manual control device containing all necessary features, such as illumination sources, identification of the control function, and identification of difierent operational conditions of the control func- =tion.

As can be best seen in Fig. 5, the circuit controller of this invention comprises three principal components: a push button unit 4, a lamp holder unit 5, and a casing unit 6. In Fig. 5, the casing unit 6 is shown to be rotated 180 degrees with respect to the push button unit 4 and the lamp holder unit 5 in order to illustrate more clearly certain of its components. Considering firstly the push buttonunit 4, it includes an operating top surface 1, a middle recessed portion 7, a base portion 8, and a plunger 9 which extends downward from the middle of the base 8. All of these parts. are integral with each other and are formed from any suitable light-transmitting material. The lower portion of the plunger 9 is of fsmaller diameter than the upper portion, as is best seen in Fig. 3, thereby providing a stop 10. The bottom edges of the base portion 8' project downward in such ,a manner as. to form stops 11. The top portion 1 is slightly wider and longer than the middle portion 7 so as to formprotniding edges 12 for a purpose described hereinafter.

The operating surface 1 is divided in two parts by a partition member 13 which extends downwardly order to indicate the different conditions of the circuit controlled by the contacts, separate portions of the face of the push button are independently illumined by a plurality of lamps which are slidably. retained in recesses formed in a holder which is rotatably mounted on the plunger.

These and other features oflthe invention are more fully discussed in connection with the following detailed description of the drawing in which:

Fig. 1 illustrates one environment in which the flushmounted, panel-supported circuit controllers of thisinvention are useful; I I

Fig. 2 is a three-dimensional view bfa circuit controller in accordance with thisinvention and. having its operating surface flush with the surface of :a supporting panel; I 1

Fig. 3 is a three-dimensional the circuit controller of this invention;

Fig. 4 illustrates the manner in which the push button view partly in section of an its lamp assembly can be readilyrextracted from its 7 supporting panel;

and is provided with two vertical bores 15 near each end.

Each of the bores 15 is of suitable size for receiving a lamp 16 which is retained therein by a small circular spring 17 mounted in a groove formed in the wall of its associated bore 15. The springs 17 are made of electrically conductive material and, therefore, may be considered as being equivalent to electrical contacts embedded in the body member 14 for the purpose of completing electrical connections to the lamps 16. The top surface of the body member 14 has a raised portion 18 which functions as a stop. One side of this raised portion 18 has a transverse groove 19 formed therein. A keying slot 20 is cut vertically in one side wall of the body meniber 14.

The body member 14 is further provided with a vertical bore 21 through its middle portion for slidably receiving the plunger 9. The upper part of the bore 21 has a diameter which is slightly larger than the diameter of-the upper part of the plunger 9 so as to permit the plunger 9 to slide freely therein. The lower part of the bore 21 has a diameter which is slightly larger than the diameter of the lower part of the plunger 9 so that this part of the plunger 9 can move freely therein. Thus, the lamp holder unit 5 is rotatably mounted or supported on the plunger 9. V The wider part of the bore 21 extends nearly to the bottom of the body member 14 thereby forming a recessed portion around part of the lower portion of the plunger 9 for receiving therein a coiled spring 22 which encircles this part of the lower portion of the plunger 9. The lower .end of the coiled spring 22 rests on a seat formed by the top of the narrow portion of the bore 21 and the upper end of the coiled spring 22 presses against the stop 10 formed by the bottom of the thicker portion of the plunger '9. V

In addition, the lamp holder unit 5, through the medium of the coiled spring 22, supports the push button unit 4 in such a manner as to permit reciprocal moveinent thereof. The extreme downward end of this reciprocal motion is limited by the engagement of the stops ,11 with the top surface of the body member 14 and by the engagement'of the raised portion 18 with the underneath surface of the base portion 8. The extreme upward end of this reciprocal motion is limited by the engagement of a small snap ring 23 with the underneath surface of the body-member .14, this snap ring 23 being mounted in a circumferential groove in the lower part of the plunger 9. Any extended upward movement of the plunger 9 would cause the lamp holder unit 5 to move up ward with it as is described hereinafter.

The casing unit 6 includes a receptacle member 24 of Suitable dimensions for snugly and slidably receiving the lamp holder unit 5, the base portion 8 of the push button unit 4, and the lower part of the middle recessed portion 7 of the'push button unit 4. The receptacle member 24 has two flanges 25 on opposite sides thereof. Each of the flanges 25 has a hole 26 drilled therein for the purpose of admitting a screw 27. These screws 27 serve to fasten the casing unit 6 to the underneath surface of one of the control panels, such as the panel 3, as is represented in Fig. 2.

the lamp holder unit 5. Since the body member 14 is made of electrically conductive material, this side'of the lighting circuit continues through the body member 14 to the circular springs 17 and then to the shells of the One side of the receptacle member 24 is provided with 7 a vertical slot 28. A leaf spring 29 has its lower end fastened by means of rivets 30 to the casing unit 6 at such a location that the upper part of the leaf spring 29 is received within the slot 28 as is shown in Fig. 2. The leaf spring 29 is cr'imped transversely near its upper end as is indicated by the reference numeral 31 in Fig. 2. The .crimped portion 31 is so located on the leaf spring 29 that, when the push button unit 4 is inserted in the receptacle mcmber24, the crimped portion 31 snaps into the transverse groove 19 in the raised portion 18 .of the body member 14 of the lamp holder unit 5. This enables the receptacle member 24 to hold or .retain both the lamplholder unit '5 and the push button unit 4 subject to their removal therefrom in a manner described hereinafter.

As can be seen in Fig. 3, two conventional spring contact members32 are mounted on insulating material which .forms the bottom 24a of the receptacle member 24. The contact members 32 .are properly located for A pair of conventional circuit-controlling mechanical contacts 36 are secured to the lower part of the casing unit 6 by a clamp 37 which is fastened thereto by bolts 38. The clamp 37 is provided with an integral spring operating member 39 for operating the'contacts 36. This spring operating member 39 is positioned immediately beneath the bottom end of the plunger 9.

When the operating surface 1 of the push button unit 4 is manually depressed, it actuates the plunger -9 and causes it to move downward through the central bore 21 in the body member 14 of the lamp holder unit 5 thereby compressing the coiled spring 22' In moving downward, the bottom end of the plunger 9 engages the spring member 39 and pushes it down against the contacts 36. As was stated above, the extent of the dowm Ward travel of the plunger 9 is limited by the stops 11 on the base portion'8 of the push button unit 4 and also by the stop constituted by the raised portion 18' on the top of the body member 14 of the lamp holder unit 5.

Upon release of thee manually exerted pressure, the coiled spring 22 causes the plunger 9 and its push button unit 4 to move upward to their normal, or unoperated, positions. The extent of this upward movement is lim ited, as was explained above, by the engagement of the snap ring :23, which is on the lower part of the plunger 9, with the underneath surface of the body member 14 of the lamp holder unit 5. This upward movement of the plunger 9 allows the spring operating member 39 to return to its normal position.

.It can be understood that, for certain types of equipment, it is desirable to use a large number of circuit controllers, as is indicated in Fig, 1. As each of these push button circuit controllers includes two lamps 16, it can be seen that, with such a large number, it is probable that one or more of them will burn out from time to time. When this happens, it is imperative that. they be immediately removed and replaced. Since the top surface 1 of the push button unit 4 is flush with the surface of its associated control panel 3, as is shown in Fig. 2, it is not possible to remove it by manually grasping it. Furthermore, in some instances, the person who is attempting to replace a defectivelamp 16 might be wearing gloves which would render the procedure still more difficult. In addition, the pushbutt-on unit 4 is, at this time,

' being held in thereceptacle member 24 due to the enthe purpose .of engaging conventional button contacts 16a 7 on the ends or the lamps 16. Each of thespn'ng contacts 3.2 has .a terminal post 33 extending through the bottom 24a of the receptacle member 24 and protruding therefrom in order to facilitate their connection to separate electrical circuits which, since they form'no part of the present invention, are not shown in the drawing A contact clip 34 is secured to the lower part of an end'wall of tool 40 can be simphfied if the surrounding area of the gagement of the crimped portion 31 .of the leaf spring 29 with the. groove 19 .in the rais portion 18 of the body member 14 of the lamp holder unit 5. v p

However, due to the fact that the top operating face 1 has pro rudin edges 12 produced by the recessed portion 7 of the push button unit 4, the problem isgrcatly simplified; All that is necessary is to :insert a thin, flat 'edgeof a tool 40, such as a screw driver, into the space between the panel 3 and the operating surface lot the push button unit 4. When this is done, the operating surface 1 can be readily pried, or raised up, as is shown in Fig. 4, thereby disengaging the crimped portion 31 of the leaf'spring 29 from the groove 19 in the raised portion 18 of the body member 14. The insertion of the panel 3 is provided with beveled edges as is indicated by the reference numeral 41 in Fig. 4.

After the operating surface 1 has been thus raised up, it can be firmly grasped so that the push button unit 4 can be readily pulled out, bringing with it the lamp holder unit 5 due to its above-described engagement with the snap ring 23 on the plunger 9. Next, by simply rotating the lamp holder unit 5 about the plunger 9, convenient access to the defective lamp 16 may be had. The lamp 16 can now be easily pushed out of its retaining bore as is shown in Fig. 6. A new lamp 16 can quickly be inserted into the bore 15 and pushed up until a flange 42 at the bottom of the lamp 16 engages the underneath surface of the body member 14 of the lamp holder unit 5.

The push button unit 4 and its attached lamp holder unit 5 can now be readily inserted into the receptacle member 24 of the casing unit 6 and pushed down until the crimped portion 31 of the leaf spring 29 snaps into place in the groove 19 in the raised portion 18 of the lamp holder unit 5.

In order to insure that the units 4 and 5 are inserted into the correct receptacle 24, the receptacle member 24 is provided with a keying pin 43 which is so positioned as to slide in the keying slot in the body member 14 of the lamp holder unit 4. Each of the circuit controllers has a similar keying pin and slot placed at a dilferent location so as to obtain individual identification. If desired, more than one keying pin and slot may be used to identify any one 'of the circuit controllers.

As was stated above, this circuit controller provides separate visual indications of the different conditions of a controlled circuit, such as function not available, function is available, and function has been performed or is operating. For example, when neither of the lamps 16 is illuminated, this could serve as an indication that the particular function identified by the legend at the right on the operating surface 1 is not available. When the lamp 16 as the right side of the plunger 9 is illuminated, its rays will light the above-mentioned legend but, due to the barrier constituted by the partition 13, the indicia at the left on the operating surface 1 will not be illuminated. This condition could signify that the function is available. When both of the lamps 16 are illuminated, such as after the plunger 9 has effected the operation of the mechanical contacts 36. both the indicia and the legend will be illuminated. This lighting of the entire operating surface 1 could signify that the particular function has been performed or is operating.

What is claimed is:

l. A circuit controller comprising in combination circuit-controlling contacts, a plunger for operating said contacts. an actuator attached to said plunger for effecting movement thereof, a lamp for illuminating said actuator, and a lamp holder rotatably mounted on said plunger and formed with an opening therein for receiving said lamp.

2. A circuit controller in accordance with claim 1 and further comprising a receptacle member for receiving therein said lamp holder, and means for facilitating the removal of said lamp holder from said receptacle memher. said means including an instrumentality attached to said plunger for forcing said rotatably mounted lamp holder to follow an extended movement of said plunger.

3. In combination, a control panel having a top surface, a circuit controller comprising a push button unit having a top operating surface, a casing unit for receiving therein said push button unit, and instrumentalities for fastening said casing unit to said control panel with said operating surface of said push button unit flush With said top surface of said control panel, said push button unit having means forming at least one protruding edge on said operating surface for facilitating its extraction from said casing unit, said means including a recessed portion of said push button unit located immediately beneath said operating surface and attached thereto.

4. A circuit controller comprising a push button unit having an actuating surface, a base portion attached to the bottom of said actuating surface, a lamp holder unit having a bore formed therein and extending completely through said lamp holder unit near one end thereof and adapted to slidably receive a lamp, said lamp holder unit having another bore formed therein and extending completely through the middle of said lamp holder unit, and a plunger attached to the middle of the bottom of said base portion of said push button unit for actuation by said top actuating surface, said plunger extending downward therefrom through said second-mentioned bore for rotatably supporting said lamp holder unit thereon.

5. A circuit controller in accordance with claim 4 and further comprising a. coiled spring encircling a portion of said plunger and seated within said second-mentioned bore for supporting said push button unit for reciprocal movement thereof.

6. A circuit controller in accordance with claim 4 and further comprising means in said lamp holder unit for supporting said push button unit for reciprocal movement thereof, and instrumentalities for limiting the ex tent of the reciprocal movement of said push button unit in one direction, said instrumentalities including stop members formed integrally at each end of said base portion of said push button unit and adapted to engage said lamp holder unit, and means for limiting the extent of the reciprocal movement of said push button unit in another direction, said last-mentioned means including a member positioned beneath said lamp holder unit and attached to said plunger.

7. A circuit controller comprising a push button unit having a top actuating surface, a base portion attached to the bottom of said actuating surface, a lamp holder unit having two bores formed therein, each of said bores extending completely through said lamp holder unit near a respectively different end thereof and adapted to slidably receive a lamp, said lamp holder unit having a third bore formed therein and extending completely through the middle of said lamp holder unit, and a plunger attached to the middle of the bottom of said base portion of said push button unit for actuation by said top actuating surface, said plunger extending downwardly through said third bore for rotatably supporting said lamp holder unit thereon.

8. A circuit controller in accordance with claim 7 and further comprising means in said lamp holder unit for supporting said push button unit for reciprocal movement thereof, and .instrumentalities for limiting the extent of the reciprocal movement of said push button unit, said instrumentalities including a raised portion formed integrally on said lamp holder unit and adapted to engage said push button unit, said third bore extending through said raised portion, and said raised portion being spaced apart from said two end bores.

9. A circuit controller in accordance with claim 8 and further comprising a receptacle member for slidably receiving therein said lamp holder unit and at least a portion of said push button unit, means for retaining said units in place in said receptacle, said means includ ing a slot formed in said receptacle member, a leaf spring having a first part fastened to said receptacle member and having a second part received within said slot, said second part of said leaf spring having a crimped portion, and a groove formed in said raised portion of said lamp holder unit for engaging and retaining therein said crimped portion of said leaf spring.

References Cited in the file of this patent UNITED STATES PATENTS 2,462,767 OReilly Feb. 22, 1949 2,544,535 Kennedy Mar. 6, 1951 2,680,794 Ballou can, June 8, 1954

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US2462767 *Jun 17, 1946Feb 22, 1949O'reilly John JAccelerator pedal and switch
US2544535 *Jun 11, 1947Mar 6, 1951Philco CorpSwitching apparatus
US2680794 *Aug 5, 1948Jun 8, 1954Fed Electric Prod CoPush button station
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3049646 *Apr 3, 1959Aug 14, 1962Honeywell Regulator CoMounting arrangement for an electrical device
US3093718 *Sep 21, 1960Jun 11, 1963Northern Ordnance IncIndicating push button type signal light assembly
US3117207 *Nov 29, 1960Jan 7, 1964Michael BaldasareCombined push button and light signal for electrical switches
US3157771 *Jan 10, 1961Nov 17, 1964Illinois Tool WorksLighted push button switch assembly
US3196218 *Jan 2, 1962Jul 20, 1965Weston Instruments IncDual actuator switch mechanism
US3197598 *May 24, 1962Jul 27, 1965Korry Mfg CoSelf-locking push button switch operating device
US3247352 *Feb 12, 1962Apr 19, 1966Reiner Ind IncModular electrical components having means for side-by-side physical and electrical inter-connection
US3508043 *Aug 1, 1967Apr 21, 1970Gen ElectricLocking mechanism
US3509300 *Jan 25, 1968Apr 28, 1970Robertshaw Controls CoPushbutton means with pullout pushin release
US3511954 *Jan 25, 1968May 12, 1970Robertshaw Controls CoPushbutton assembly means,casing,and locking means
US3514564 *Jan 25, 1968May 26, 1970Robertshaw Controls CoIlluminated push-button switch construction with safety set and reset mechanism
US3517148 *Jan 25, 1968Jun 23, 1970Robertshaw Controls CoPushbutton switch construction with safety set mechanism
US3522402 *Apr 18, 1968Aug 4, 1970Robertshaw Controls CoIlluminated switch construction with releasing slidable cam
US3528099 *Jan 25, 1968Sep 8, 1970Robertshaw Controls CoLocking and release means in a switch assembly
US3604878 *May 22, 1969Sep 14, 1971Korry Mfg CoLatch mechanism for releasably engaging pushbutton caps in electrical devices
US4370532 *Feb 23, 1981Jan 25, 1983Illinois Tool Works Inc.Lighted electrical pushbutton switch
US4533804 *Mar 27, 1981Aug 6, 1985Itt Industries, Inc.Push button slide switch
US4535396 *Aug 20, 1984Aug 13, 1985Aerospace Optics, Inc.Sunlight readable illuminated indicia display devices
US4683359 *Mar 13, 1986Jul 28, 1987Eaton CorporationIlluminated switch assembly with combined light and light shield
US4954668 *Jul 22, 1988Sep 4, 1990Mitsubishi Denki Kabushiki KaishaApparatus for resetting appliance
DE1293286B *Dec 11, 1961Apr 24, 1969Illinois Tool WorksBeleuchteter Druckknopf-Schaltmechanismus
DE3322775A1 *Jun 24, 1983Jan 17, 1985Swf Auto Electric GmbhSchaltgeraet
DE3346594A1 *Dec 23, 1983Jul 11, 1985Swf Auto Electric GmbhElectrical switch, especially for motor vehicles
Classifications
U.S. Classification200/314, 200/529
International ClassificationH01H9/16
Cooperative ClassificationH01H9/162, H01H2009/183
European ClassificationH01H9/16B1