US 3884033 A
A multi-position switch particularly adaptable for an electronic watch comprises a movable plate or disk mounted within a cup-like body and rotatable about an axis to different positions for accomplishing various setting or operating modes. Fixed contacts on the inside of the switch plate are spaced apart but electrically connected so that when the plate is rotated to certain positions relative to its central axis the contacts are aligned for engagement with a particular pair of a series of terminals located on the inside planar surface of the switch body and connected through the body to the internal circuitry of the device. The interconnection of certain pairs of terminals accomplished by the contacts activates internal circuitry of the device to produce the desired operating function or mode.
Description (OCR text may contain errors)
United States Patent [1 1 Wood [111 3,884,033 [451 May 20, 1975 SWITCH FOR ELECTRONIC WATCH John R. Wood, San Jose, Calif.
 Assignee: American Micro-Systems, Inc.,
Santa Clara, Calif.
 Filed: Oct. 17, 1973  Appl. No.: 407,147
3,733,810 Girard 58/855 Primary Examiner-Edith SimmonsJackmon Attorney, Agent, or Firm-Owen, Wickersham &
Erickson l 5 7 ABSTRACT A multi-position switch particularly adaptable for an electronic watch comprises a movable plate or disk mounted within a cup-like body and rotatable about an axis to different positions for accomplishing various setting or operating modes. Fixed contacts on the inside of the switch plate are spaced apart but electrically connected so that when the plate is rotated to certain positions relative to its central axis the contacts are aligned for engagement with a particular pair of a series of terminals located on the inside planar surface of the switch body and connected through the body to the internal circuitry of the device. The interconnection of certain pairs of terminals accomplished by the contacts activates internal circuitry of the device to produce the desired operating function or mode.
'13 Claims, 13 Drawing Figures PATENTEB MAY 20 I975 SHEET 10F 3 Pmmwwz 3,884,033
SREETEUF'S HRS HOLD
SWITCH FOR ELECTRONIC WATCH BACKGROUND OF THE INVENTION Q Q This invention relates to a multi-position switch and more particularly to a switch that is well adapted for use with an electronic watch or some other relatively small electronic device.
With devices such as electronic watches, the overall size of the timing mechanism and driving circuit is a vital factor that can greatly affect its appearance, utility and marketability. One well known form of electronic watch generally comprises a crystal oscillator, and integrated circuit semi-conductor device providing the counter and driving circuitry, a coil, a battery and a digital display. In addition to these basic components a switching means is required in order to set the watch display to the proper time as when the battery is replaced. Although the integrated circuit art and other advances in the field of electronic miniaturization drastically reduced the size of the aforesaid basic watch components, it was heretofore still a serious problem to package the components in a space having overall dimensions and thickness small enough to be practical for a wrist watch or the like. Prior to the present invention, one setting switch commonly used for such watches was a standard rotary electronic switch with a stern and crown drive. This switch was relatively bulky in size and had to be accommodated inside the watch case with the other components, thereby contributing substantially to the total space required within the watch case. The present invention provides a multiposition switch for electronic watches that solves this space problem. Another form of setting means commonly used for watches was two push button switches. However, these were expensive to incorporate in a watch structure as well as being awkward to operate.
BRIEF SUMMARY OF THE INVENTION In accordance with the principles of the present in-. vention, my switch comprises a disk or plate located within a shallow cup-like switch body located on the back of the watch case rather than inside of the case. This disk is retained so as to be rotatable about its central axis to any preselected position, and on its inside surface are projections forming electrical contacts. On the inside-planar surface of the switch body are a plurality of spaced apart electrical terminals connected to conductors of a predetermined shape and these termi-.
nals extend through the switch body to the appropriate electronic circuit components within the watch case. The contacts on the back of the disk are so spaced and arranged that in various rotational positions of the disk certain of the contacts will be aligned with and contact certain combinations of the electronic terminals. Thus, when the disk or switch plate is positioned selectively the aligned contacts and terminals engage to provide electrical continuity between the engaged terminals, thereby activating the internal circuitry connected thereto to produce the desired function. For a watch using my switch the different rotational positions marked on the back of the watch case indicate when the contacts will be aligned with the terminals for causing the hour display to advance, the minute display to advance, or to hold the display or to merely run in its normal operating mode.
It is therefore a general object of the present invention to provide an improved multi-position switch, cs-
pecially for use on relatively small electronic devices such as electronic watches.
Another object of the present invention is to provide a controllable multi-position switch for electronic watches that is located outside of the interior cavity formed by the watch case, thereby providing more space within the case for the other essential watch components.
Another object of my invention is to provide a multiposition switch for electronic watches that eliminates the need for a turnable stern that projects outwardly from the case of the watch.
Yet another object of the present invention is to provide a controllable switch for electronic watches that is easy to operate, yet one that is relatively more reliable and trouble free than conventional watch switches and not easily operated inadvertently or damaged by extraneous forces that may be applied to the watch.
Still another object of the present invention is to provide a controllable multi-position switch particularly adaptable for electronic watches which can be economically manufactured with a high degree of precision.
Another more specific object of the present invention is to provide an improved switch for electrically operated devices wherein interconnected contacts -on a movable disk member are alignable at different settable positions for engagement with terminal members of the switch in different combinations to provide various operational or functional modes for the circuitry con- BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an enlarged front view of an electronic watch embodying the principles of the present invention;
FIG. 2 is an enlarged rear view of the watch of FIG.
FIG. 3 is a furtherenlarged plan view showing the general layout of components for the watch of FIGS. 1 and 2 before they are installed in the case;
FIG. 4 is a view in section taken along line 44 of FIG. 3;
FIG. 5 is a view in section taken along line 55 of FIG. 3;
FIG. 6 is a further enlarged view in section of the entire watch of FIGS. 1 and 2 taken along line 66 of FIG. 2;
FIG. 7 is a greatly enlarged fragmentary view in section showing the switch for the watch of FIGS. 1 and 2 according to the invention;
FIG. 8 is a view taken along line 88 of FIG. 7 showing the relative location of the contact points and terminals for the switch in one operating position with other operating positions shown in phantom;
FIG. 9 is a view in section similar to FIG. 7 showing another form of switch according to my invention;
FIG. 10 is a view in section taken along line 10-10 of FIG. 9
FIG. 11a is a view in section of still another form of my switch having a push-in connect feature;
FIG. 11b is a view similar to FIG. lIa showing the i switch in the activated position; and
FIG. 12 is a view in section taken along line 12l2 of FIG. 11a.
DETAILED DESCRIPTION OF EMBODIMENTS terial such as a relatively thin metal that can be formed to a desired shape. FIG. 2 shows the rear case plate 16 for the watch within which is mounted a switch 18 embodying the principles of the present invention. As shown, the rear plate is marked with appropriate indicia at circumferential locations around the switch to show the various positions for setting the hour display (HRS), the minute display (MIN), and for the hold and run positions. These are the normal setting functions that heretofore were accomplished by a standard stern and crown drive connected to a conventional rotary electronic switch located inside of the watch case.
FIGS. 3 are enlarged views showing the arrangement of the various interconnected watch components for an electronic watch that must be packaged together and housed within the case 12. As shown in FIG. 3, the package is extremely compact and includes a substrate or mounting board 20 of ceramic or plastic material having a generally rectangular shape with a recess 22 on its planar top surface within which is mounted an integrated circuit semi-conductor device 24 comprising the clock logic and drive circuitry. Conductive paths 26 formed on the top surface of the substrate using standard printed circuit techniques extend to a series of connection pads 28 at one end thereof. A cover 30 fits over the recess 22 and the integrated circuit device 24 therein and is secured, as by bonding, to the substrate 20. A spacer 32 made of a suitable dielectric material is located around or at opposite ends of the cover and hasthe same thickness. Mounted on top of the device cover and the spacer is the digital display package 14 which is preferably one using a so-called liquid crystal material. Since the construction of such display devices is well known to those skilled in the art it need not be described here. Adjacent to one end of the display is another recess 36 in the substrate which is open on its bottom or back side, and within this recess is the battery 38 for the watch. Along one side of the display and circuit device is a third recess 40 in the substrate within which are mounted the crystal device 42 and the coil 44. Thus, it is seen that all of the essential components of the electronic watch system except the switch may be packaged as one internal assembly and these components are electrically interconnected by suitable conductors (not shown) using conventional interconnect techniques such as printed circuit conductors on the substrate with appropriate soldered or bonded connections and terminals.
Extending through the bottom surface of the substrate and from the logic circuitry are two wires 46 and 48 which are necessary for the various switching functions, namely set hours, set minutes, hold and normal run. These wires extend through feedthrough fittings 50 in the substrate to the back side of the switch 18. When the set hours or set minutes positions are activated the circuitry will advance the hour or minute portion of the display until the desired digits are displayed at which point the switch may be disconnected. In the hold position the display is essentially disconnected so that it will remain on one indication until a synchronizing point is reached at which time the hold is released and the display commences to advance normally. The run position is for the normal operating mode for the watch circuit.
Turning to FIG. 6, theinternal components package 20 is shown installed within the case 12, as in a typical watch installation. A lens 52 at the front of the watch may be retained against the edges 54 of an opening in the front of the case 12 by a generally annular internal face plate 56. The components package is supported within the case such as by fasteners (not shown) so that the display 14 is properly positioned in back of the lens. The back case plate 16 containing the switch 18 has an edge 58 that may be retained by a pressed fit along a complementary edge of the case sidewall. A removable cover member 60 is provided in the back case plate for access to the battery 38.
In the embodiment of my invention shown in FIGS. 7 and 8, the switch 18 is made as a separate subassembled unit and is installed within an opening in the back case plate 16. It may be held in place by any suitable means such as epoxy adhesive 64 preferably placed around the inside edge of the opening. The switch comprises a cup-shaped body that may be formed from some suitable material such as beryllium copper and it has a generally planar bottom side 66 with a uniform, integral sidewall 68. Supported within the switch body is an actuator disk 70 which may be formed from a rigid, preferably non-magnetic metal such as stainless steel. This disk has a recess around its upper edge forming a circular shoulder 72 and extending diametrically across its top surface is a slot 74 capable of receiving the edge of a suitable turning instrument such as a coin. Extending from the underside of the disk in this embodiment of the switch are a pair of spaced apart projections 76 which serve to retain and position a conductive wiper member 78 on the disk. The wiper member may be in the form of a thin sheet of metal and has a pair of contact members 80 and 82 that are bent downwardly from the underside of the disk 72 which are spaced 180 apart. At the outer edge of the wiper member are radially extending portions 84 which provide contacts with the cup-like body member. In the form shown, these edge portions are also bent downwardly to engage the bottom inner surface of the body bottom 68 just inside of its sidewall. Since the contact members 80 and 82 are all part of the wiper member and integral with the portions 84 they are also ground contacts. The disk is held within the body member by an upper edge flange 86 of the sidewall which is bent inwardly over an annular gasket member 88 that fits within the peripheral recess of the disk on the shoulder 72 formed thereby. This seal is preferably made of some nonconductive material that affords a minimum amount of frictional resistance to the actuator disk 72, such as a polytetrafluoroethylene material. Thus, the disk may be rotatable within the body member by a suitable instrument inserted within the disk slot 76. Fixed to the inside bottom surface of the switch body is a thin dielectric sheet 90 having on it a pair of terminal areas 92 and 94 each having a predetermined size and shape and formed from a layer of conductive metal. These conductive areas surround a pair of spaced apart terminals 96 and 98 which extend above insulated feedthroughs 100 and 102 located in the bottom of the switch body and are connected to the leads 46 and 48 extending into the feed-throughs. In this embodiment, it is assumed that the internal circuitry of the watch or the device being controlled is provided with a relatively large pullup resistor. Thus, when a wiper contact, which is also connected to a plus ground through the case, contacts the terminal, it will cause that terminal to assume a plus or ground polarity, which will provide the same voltage level or signal to the logic circuitry. As shown in FIG. 8, the conductive areas around their respective terminals are shaped so that they may be contacted by one wiper contact in various rotational positions of the actuator disk. Assuming that the terminals are located on a diametral line on the circular sheet 90 extending through the 9200,0c1ock and 3:00 oclock points, (assuming that the bottom surface of the watch body is a clock face) the area 92 connected to the terminal 96 extends to the 8:00 oclock and 11:00 oclock positions. The area 94 connected to the terminal 98 extends to the 4:00 oclock and 5:00 oclock positions. The terminals 96 and 98 are spaced closer to the center axis of the sheet 90 than are the contacts 80 and 82 on the wiper 78. Thus, as shown in FIG. 8, when the switch actuator disk 70 is set in the Run position and contacts 80 and 82 are in the 9:00 oclock and 3:00 oclock positions and are not contacting the terminal contact areas 92 and 94. Thus, both of the terminals are kept at the electrical state (negative) which allows the logic circuit to run in its normal operating mode. Now, if the actuator disk is turned to the Hold position, the contacts 80 and 82 of the wiper are at the 10:00 oclock and 4:00 oclock positions on the sheet 90. The contact 80 at 10:00 oclock is not in contact with the conductive area 92 but the contact 82 is in contact with the area 94. Because of the internal pullup resistor, previously mentioned, the terminal 96 is at its normal (negative) condition, while the terminal 98 assumes a grounded or positive state, as a result of the switch. This combination produces a hold on the timing circuitry. When the switch disk is moved to the reset minutes position (MIN), both contacts 80 and 82 are in contact with their respective conductive areas 92 and 94 and the terminals 96 and 98 are both at the positive or grounded state which causes the circuitry to periodically advance the minutes on the display at some predetermined clock rate. Similarly, when the switch disk is moved to the reset hours position (HRS), the contact 80 engages the area 92 and produces a positive or grounded state on the terminal 96 while the contact 82 does not contact the area 94 and leaves the terminal 98 at its negative state. This combination causes circuitry to advance the hour display section at a clocked rate to facilitate setting the watch.
FIGS. 9 and 10 show another form of rotary switch 18a embodying the principles of my invention wherein four terminals instead of two are provided within the switch. Here, one terminal 96.connected to the logic circuitry is centrally located and the other three terminals are spaced equally from it and 120 apart, one of this embodiment, no pullup resistors are required for the internal circuitry and no continuous ground contact between the case and the disk must be made, as by the extended wiper portions 84. The switch 18a could be made as a separate unit similar to the switch 18, but as shown in FIG. 9, it may also be made with a body that is integral with a back cover plate 16a of the watch case. Here, the switch body is formed as a circular cuplike recess which extends inwardly from the cover plate. An actuator disk a is retained within the recess and held against an annular non-conductive spacer 11 l by a split retaining ring 112 which is seated in a groove in the wall 114 of the recess. The actuator disk has a peripheral shoulder 72a which retains a nonconductive gasket member 88a that fits under the ring 112. The disk 700 has a transverse open slot 74 on its outer surface and is otherwise similar to the disk 70 of the previous embodiment. Fixed to the underside of the disk 70a is a conductive wiper member 116 having four bent down portions to form a central contact 118 and three other contacts 120, 122 and 124 which are spaced apart from each other and at the same distance from the central contact. These contacts are shown in phantom in FIG. 10. The spacing of these contacts is such that at different rotational positions of the actuator disk the various terminals will be connected to either a power source or to ground. The central contact 118 is aligned with and in constant contact with the central terminal 96 which is connected to the logic circuitry. Fixed to the inside bottom surface of the switch body is a dielectric layer 126 to which the four terminals 96, 98, 104 and 108 are attached. Around each of the outer terminals is a layer of conductive material formed as an area of a predetermined shape so as to provide the desired engagement between one of the disk contacts and a terminal as the actuator disk is rotated to different positions. The shape of these three conductive areas 130, 132 and 134 around the terminals 104, 108 and 98 is also shown in FIG. 10. As indicated in this view, terminal 104 and its conductive area 130 are connected to the negative power supply of the device; terminal 108 and its conductive area 132 are connected to ground potential; and terminal 98 and its conductive area 134 are connected to the internal logic or control circuitry. Thus, as shown, when the switch is in the Run position none of the contacts is on the power terminal 104, but they are aligned with and engaging the ground terminal 108 and the logic circuit terminals 96 and 98, thereby putting them at ground or potential and causing the watch to run normally. When the switch is moved to the reset minutes position, logic terminals are connected by engaging contacts to the power terminal, thereby causing them to supply a negative signal to the logic circuit and advance the minutes display. In the Hold position, the terminal 98 is not connected to power and remains at its negative potential, while the logic terminal 96 is connected to ground, thereby causing the logic circuitry to hold the display at one point. At the reset hours I-IRS position the polarity of the logic terminals is reversed to cause the logic circuitry to advance the hours display.
In a further modification of my invention a switch 18b is shown in FIGS. 11a, 11b and 12 wherein a disk actuator 70b is rotatable to a pre-selected position and then is movable inwardly as by thumb pressure to make contacts with terminals within the switch. Here, a switch body similar to the embodiment of FIGS. 7 and 8 is provided which is secured within a cover plate of the device. The leads 46 and 48 from the logic or control circuitry of the device and leads 106 and 110 from a ground and negative power source extend through the bottom of the switch body to four terminals 96, 98, 104 and 108 that are spaced apart and fixed to a dielectric sheet 126b on the body in a manner similar to the terminals of FIGS. 9 and 10. However, here, no conductive areas around the terminals are provided and each is connected to its respective lead which is surrounded by an insulating feed-through in the switch bottom. On the underside of the actuator disk 70b of this switch 18b are a series of six projections 118b, 120b, 122b, l24b 126b and 128b, forming contacts that are spaced apart in a manner similar to the wiper contacts of the previous embodiment. Here, the contact 118b is the central contact and in the position shown in FIG. 12, the other contacts are located at 3:00, 6:00, 8:00, 1 1:00 and 12:00 oclock locations relative, to each other. The actuator disk 70b is supported within the switch body on a resiliently yieldable ring .140 which is made from a suitable elastomeric matefria l. Normally, this latter ring maintains the actuator ..the selected position (e.g. Hold or Reset Hours, etc.) and then is pressed inwardly. This causes a compression of the ring 140 and an axial movement of the disk which allows certain disk projections to make contact with aligned terminals. For example, in the Run posi- .tion shown in FIG. 12, the contact 12012 is in contact with the ground terminal 108, and the contacts ll8b and 122b are in contact with the logic terminals 96 and 98. Thus, both are at ground potential, thereby maintaining the watch i n the Run mode. A rotary movement and inward pressure on the disk 70b to another position will cause a different combination of contacts with the terminals to provide the desired operating mode as previously described. As soon as. the pressure is released the contacts are broken. This version of my switch prevents the possibility of leaving the switch closed in one position for an undesired length of time.
' From the foregoing it should be readily apparent that t h'e present invention provides a highly versatile switch thatcan be made relatively small and compact and yet provide a multiplicity of functions or switch positions. Although a limited number of terminals are employed on the illustrated examples of my switch, it is of course possible to provide additional terminals and by contacting different combinations of such terminals which contacts on the switch actuator and even greater num- .ber of switch functions may be provided. Also, while the invention has been described in terms of embodiments particularly adaptable for use in an electronic watch it may be highly useful on a wide variety of electrically operated devices, especially where a disclosures of switch positions is desired.
scription herein are purely illustrative and are not intended to be in any sense limiting.
1. An electrically operated timepiece comprising a plurality of components including a mounting board, an electrical circuit means fixed to said board, an oscillator means and a battery connected to said circuit means, and a housing means for supporting said components therein including front and rear wall members with a display means displaying at least hours and minutes mounted in said front wall member and connected to said circuit means.
switch means situated in said rear wall member and connected therethrough to said circuit means for setting the hours and minutes on said display means, said switch means comprising a thin disklike body forming a relatively shallow recess and extending inwardly from one of said wall members, said body having a planar bottom portion with a plurality of spaced apart terminals thereon each connected by conductors through said bottom portion to said circuit means, a rotatable actuator disk supported within said shallow recess with contact means on its underside for contacting individual terminals and interconnecting preselected pairs of terminals in different combinations when the disk is placed in various rotational positions for thereby controlling said display means.
2. The timepiece as described in claim 1 wherein said disk-like body is a separately prefabricated member which is secured within an opening in said rear wall member so that said actuator disk is substantially flush with rear wall member.
3. The timepiece described in claim 1 wherein said disk-like body is formed as an integral part of said rear wall member.
4. The timepiece as described in claim 1 wherein said contact means are wiper members that project downwardly from the underside of said actuator disk for engaging saidterminals in different combinations at different positions of said disk.
5. The timepiece as described in claim 3 wherein said contact means are projections on the underside of said disk and resiliently yieldable means under said disk for normally preventing said contacts from engaging said terminals until external axial pressure is applied to said disk.
6. The timepiece as described in claim 4 wherein said wiper members are downwardly bent portions of a thin metal plate fixed to the underside of said actuator disk, said plate having outer edge portions forming a ground contact with said body.
7. The timepiece as described in claim 1 including a thin dielectric sheet fixed to said planar bottom portion, said terminals being supported by and exposed along the upper surface of said sheet, and conductive area means on said sheet, connected to said terminals and extending therefrom and having a predetermined irregular shaped pattern so as to be contacted by said contact means and thereby interconnect different combinations of terminals when said actuator disk is rotated to various preselected positions.
8. The timepiece as described in claim 7 wherein there are two said terminals, each with a conductive area means on said dielectric sheet, and said actuator disk is provided with two said wiper means spaced apart.
9. The timepiece as described in claim 8 wherein one of said conductive area means on said dielectric sheet extends radially outwardly from one said terminal to cover a radial area of at least 30 from the center of said sheet and the other said area means has a pair of radially extending portions from its terminal which are substantially 90 apart.
10. The timepiece as described in claim 8 wherein there are three said terminals each with a conductive area means and a central terminal on said dielectric sheet, and said contact means on said actuator disk has four downwardly extending projections.
11. The timepiece as described in claim 10 wherein first and second conductive area means on said dielectric sheet both have two radially extending portions spaced about 90 apart from the center of said sheet, and a third said area means has a radially extending portion covering a segmental area of 30 from the center of said sheet. I
12. In an electronically operated watch having internal components including a mounting board, an electric circuit means fixed to said board, an oscillator means and a battery connected to said circuit means, a housing means for supporting said components therein including front and rear wall members connected by a peripheral sidewall and a display means including hour and minute indications mounted in said front member and connected to said circuit means, a
rotary switch means situated in said rear wall member and connected therethrough to said circuit means for setting the hours and minutes on said display means, said switch means comprising:
a relatively thin, disk-like body forming a shallow recess and extending inwardly from said rear wall member, said body having a planar bottom portion partially covered by dielectric material, a plurality of terminals on said bottomportion each being exposed on the surface of said dielectric material and connected therethrough to said circuit means, a ro tatable actuator disk supported within said shallow recess of said body, contact means on the underside of said actuator disk for contacting individual terminals and interconnecting preselected pairs of terminals in different combinations when the disk is placed in various rotational positions for thereby controlling said display means.
13. The watch as described in claim 12 wherein said dielectric material is a thin sheet attached to the bottom surface of said disk-like body and a thin layer of conductive material formed as conductive areas connected to and extending from said terminals and having predetermined shapes so that various combinations of terminals will be contacted by said contact means when said actuator disk is placed in different preselected positions.
UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent No 5,88Lb O33 Dated May 1975 Inventor(s) I It is certified that error appears in the above-identified patent and that said Letters Patent are hereby corrected as shown below:
Column 7, line, 55, "which" should read with Column 7, line 61, "disclosures" should read multiplicity I Signed and Sealed this Third Day of August 1976 [SEAL] Arrest:
RUTH C. MASON C. MARSHALL DANN Allesll'ng Officer (mnmissimu'r u /'Patenrs u u/ Trademarks UNITED STATES PATENT OFFICE QEHFEQATE 0F CQECIUN Patent No. 5,884,033 Dated May a 1975 John R Wood Inventor(s) It is certified that error appears in the above-identified patent and that said Letters Patent are hereby corrected as shown below:
Column 7, line 55, "which" should read with Column 7, line 61, "disclosures" should read multiplicity Signed and ficaled this Third Day of August 1976 [SEAL] Arrest:
RUTH C. MASON C. MARSHALL DANN Altesling Officer Commissioner nfPaIenIs (rm! Trademarks