US2310090A - Time switch - Google Patents
Time switch Download PDFInfo
- Publication number
- US2310090A US2310090A US424271A US42427141A US2310090A US 2310090 A US2310090 A US 2310090A US 424271 A US424271 A US 424271A US 42427141 A US42427141 A US 42427141A US 2310090 A US2310090 A US 2310090A
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- United States
- Prior art keywords
- conductor
- face plate
- contact
- disc
- arm
- 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
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- G—PHYSICS
- G04—HOROLOGY
- G04C—ELECTROMECHANICAL CLOCKS OR WATCHES
- G04C23/00—Clocks with attached or built-in means operating any device at preselected times or after preselected time-intervals
- G04C23/14—Mechanisms continuously running to relate the operation(s) to the time of day
- G04C23/16—Mechanisms continuously running to relate the operation(s) to the time of day acting only at one preselected time or during one adjustable time interval
Definitions
- My invention relates to time switches and more particularly to a time switch of the type which is adjusted by relative movement of interdigitated conductor and insulation parts in the form of helixes or split circles.
- Fig. 1 is a front elevation of a time switch embodying the invention
- Fig. 2 is a side elevation, partly in vertical 5 section, of the time switch shown in Fig. 1;
- Fig. 3 is a detail section taken on line 3-3 in Fig. 2;
- Fig. 4. is a detail view of the cover disc or insulation adjustment part
- Fig. 5 is a detail view showing one side of the mounting disc for the conductor part
- Fig. 6 is a detail view showing the other side of the mounting disc
- Fig. 7 is a perspective view of the track or conductor part.
- Fig. 8 is a detail view of a setting arm in an operative position.
- a timepiece i which may be a spring clock, synchronous motor clock, or other similar device, is indicated only in general outline.
- the timepiece considered here is a 24 hour clock having a minute spindle II and a concentric square hour shaft I2.
- the time switch unit has a circular face plate I3, a circular back plate I4, and an intermediate ring I5, held together and, if desired, to the clock unit by four stud bolts I6.
- the intermediate disc I and the plates I3 and id are spaced by sleeves or bushings I1 and IS on the stud bolts I6.
- the face plate I3 and back plate I4 have aligned central openings through which project the shafts ii and I2 of the clock unit I0. Minute and hour hands I9 and respectively are attached to the outer ends of the shafts II and is provided with a binding post 22'.
- a rotating contact which for the purpose of balance comprises an insulating disc 23 mounted so as to rotate with the clock hour spindle I2- and carrying a twoprongedcontact member 24.
- One prong of contact member 24 rides on the circular conductor track 2 I' on the back plate I 4.
- a split insulator disc 21 On the inside hub 26 and behind the face plate I3 is mounted a split insulator disc 21.
- the shape of this disc is shown in Fig. 4. It has a slit 28 from the periphery radially inward to one end of a semi-circular slot 29.
- the slot 29 encircles on one side a center portion 30 which may be attached to a flange on the inner end of hub 26 by rivets or the like.
- On the inner end of the outer hub 25 is secured a conductor mounting disc 3!. Opposite sides of this disc are shown in Figs. 5 and 6.
- has a straight slit 32 from the periphery radially inward to one end of a semi-circular slot 33. Slot 33 halfway surrounds a center part 34 which may be secured to a flange on the inner end of hub 25 by rivets or the like.
- a helical conductor member 35 having slightly over two complete turns.
- Conductor 35 is laced through slit 32 in mounting disc 3I- and has one turn secured to one face of this disc as seen in Fig. 5, the remainder of the conductor comprising slightly over a turn being locatedon the other side of disc 3
- the helical conductor member 35 may be made of a good resilient selfsupporting material such as phosphor bronze.
- are formed with a slight spread at the slits 28 and 32 so as to form helical discs, and are located close together between the rear of the front plate I3 and the intermediate annular partition I5 s that when the discs 2'I and 3I are revolved relatively in opposite directions they mesh or interdigitate in known manner.
- the radius of the conductor member 35 is substantially the same as the radius of the conductor member 2
- limits relative rotation of discs 21 and 3
- a stop is provided for limiting relative movement of discs 21 and 3
- the radial position of slit 28 determines the point in the travel of contact 24 at WhlCh the contact will hit conductor 35 and thus complete an electrical path between binding posts 22 and 31.
- the radial position of slit 32 determines the point in the path of rotation of contact 24 that this contact leaves conductor 35, thus opening the electrical path between binding posts 22 and 31. Since the contact 24 is rotated bythe hour spindle
- setting arms 38 and 39 For setting the positions of discs 21 and 3
- the arms 38 and 39 are located between the time indicating hands
- each arm 38 and 39 has a leaf spring 40 attached thereto.
- One end of leaf spring 40 is attached to arm 38 by a rivet or other suitable fastening device.
- the other end of leaf spring 40 is turned outward to form a suitable hand grip 4
- Tabs 42 project inward from leaf spring 49 adjacent the end 4
- a suitably roughened track may be provided on face plate
- leaf spring 49 is grasped by the grip 4
- FIG. 8 This operative position of leaf spring49 is illustrated in Fig. 8.
- arm 39 can be set to a desired position.
- arm 38 When arm 38 is set to a position overlying arm 39, so that the switch is open all the time or closed all the time, the tabs 42 on lever 38 overlie both the lever 38 and lever 39.
- the switch assembly is enclosed by a cylindrical case 43.
- a removable face cover may be provided if desired in any of various known manners.
- Conductors 44 and 45 may be connected to binding posts 22 and 31 for connection of the time switch in an electric circuit to be controlled. I
- a time switch comprising a 24 hour clock mechanism having concentric minute and hour spindles, a switch unit having a back plate and a face plate secured in spaced apart relation, said plates having central openings through which project said clock spindles, time indicating hands on the ends of said spindles in front of said face plate, said face plate having indicia of time thereon, a contact in the space between said plates and operated by said hour spindle to rotate in a circular path, a circular conductor on said back plate providing a connection from an electric circuit to said contact, a helical conductor also in the space between said plates so as to be contacted by said contact, an insulator member in the form of a helix having one turn and meshed with said helical conductor, said insulator member and helical conductor being rotatably mounted for mutually independent movement so as to expose any size segment 'of said conductor to said contact at any desired place in the path of travel of the contact, a second connection for an electric circuit including a fixed contact within
- a helical conductor having at least two turns so that one turn is always exposed, and an electrical connection including a fixed contact located to contact said exposed turn.
- helical discs In a time switch of the type having a revolving contact and an adjustable circular track formed by interdigitated helical discs, one of which serves as an insulator, and the other of which carries a helical conducting member, helical discs, each of said helical discs having a radial slit communicating at its inner end with a semi-circular slot surrounding one-half of a hub portion of the disc, said slots beirg located in the discs so as to stop relative rotation of the discs in one direction when said slits are substantially aligned.
- a time switch of the type having a rotating contact and an adjustable conducting track therefor formed by interdigitated helical insulating and conducting members, a timer having concentric hour and minute spindles, a face plate through which said spindles project and having time indicating indicia thereon, said rotating contact and adjustable track being located behind said face plate and concentrically around said spindles, adjusting members for said track projecting through and journalled in said face plate concentrically around said spindles and having manually adjustable parts in front of said face plate, and time indicating hands on said spindles also in front of said face plate.
- a time switch of the type having a rotating contact and an adjustable track therefor formed by interdigitated helical conductor and insulation members, a face plate bearing time indicia, time indicating hands in front of said face plate, and adjusting members for said track having arms located in front of said face plate, each of said arms having an element engaging said face plate and releasable therefrom to permit rotation of the arm.
- a time switch having a clock element, a switch mechanism of the type comprising a rotatable contact and an adjustable track therefor formed by interdigitated helical conductor and insulating members, a face plate mounted in spaced relation from said clock element, said switch mechanism being located in the space between said face plate and said clock element, said clock element having hour and minute spindles projecting through the center of said face plate, said rotatable contact being connected to be driven by said hour spindle, time indicating hands on said spindles in front of said face plate, and members for adjusting said track also projecting through said face plate and journalled concentrically around said spindles in said face plate and having arms projecting radially in front of said face plate.
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- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Electromechanical Clocks (AREA)
Description
F 3- A. e. KALAYDJIAN 2,310,090
TIME SWITCH Filed Dec. 24, 1941 2 Sheets-Sheet 1 INVENTOR G 14 ATTORNEY Feb. 2, 1943.
A.- 5. KALAYDJIAN TIME SWITCH Filed Dec. 24, 1941 2 Sheets-Sheet 2 R O T N E I. lNV
Patented Feb. 2, 1943 UNlT ED STATES PATENT OFFICE TIME SWITCH Antoine G. Kalaydjian, New York, N. Y.
Application December 24, 1941, Serial No. 424,271
(01. zoo-as) 6 Claims.
My invention relates to time switches and more particularly to a time switch of the type which is adjusted by relative movement of interdigitated conductor and insulation parts in the form of helixes or split circles.
It is an object of the invention to provide a time switch of this type having an improved electrical connection to the adjusting conductor, improved form of interdigitated parts, and improved adjustment of such parts resulting in a simple, compact time switch.
In the drawings:
Fig. 1 is a front elevation of a time switch embodying the invention;
Fig. 2 is a side elevation, partly in vertical 5 section, of the time switch shown in Fig. 1;
Fig. 3 is a detail section taken on line 3-3 in Fig. 2;
Fig. 4. is a detail view of the cover disc or insulation adjustment part;
Fig. 5 is a detail view showing one side of the mounting disc for the conductor part;
Fig. 6 is a detail view showing the other side of the mounting disc;
Fig. 7 is a perspective view of the track or conductor part; and
Fig. 8 is a detail view of a setting arm in an operative position.
Referring to Figs. 1 and 2 of the drawings, a timepiece i which may be a spring clock, synchronous motor clock, or other similar device, is indicated only in general outline. The timepiece considered here is a 24 hour clock having a minute spindle II and a concentric square hour shaft I2. The time switch unit has a circular face plate I3, a circular back plate I4, and an intermediate ring I5, held together and, if desired, to the clock unit by four stud bolts I6. The intermediate disc I and the plates I3 and id are spaced by sleeves or bushings I1 and IS on the stud bolts I6.
The face plate I3 and back plate I4 have aligned central openings through which project the shafts ii and I2 of the clock unit I0. Minute and hour hands I9 and respectively are attached to the outer ends of the shafts II and is provided with a binding post 22'. In front of 55 the back plate I4 is located a rotating contact which for the purpose of balance comprises an insulating disc 23 mounted so as to rotate with the clock hour spindle I2- and carrying a twoprongedcontact member 24. One prong of contact member 24 rides on the circular conductor track 2 I' on the back plate I 4.
In the central opening in the face plate I3 are rotatably journaled concentric hubs 25 and 26. On the inside hub 26 and behind the face plate I3 is mounted a split insulator disc 21. The shape of this disc is shown in Fig. 4. It has a slit 28 from the periphery radially inward to one end of a semi-circular slot 29. The slot 29 encircles on one side a center portion 30 which may be attached to a flange on the inner end of hub 26 by rivets or the like.
On the inner end of the outer hub 25 is secured a conductor mounting disc 3!. Opposite sides of this disc are shown in Figs. 5 and 6. Disc 3| has a straight slit 32 from the periphery radially inward to one end of a semi-circular slot 33. Slot 33 halfway surrounds a center part 34 which may be secured to a flange on the inner end of hub 25 by rivets or the like.
In Fig. 7 there is shown a helical conductor member 35 having slightly over two complete turns. Conductor 35 is laced through slit 32 in mounting disc 3I- and has one turn secured to one face of this disc as seen in Fig. 5, the remainder of the conductor comprising slightly over a turn being locatedon the other side of disc 3| as seen in Fig. 6. The helical conductor member 35 may be made of a good resilient selfsupporting material such as phosphor bronze.
The split discs 21 and 3| are formed with a slight spread at the slits 28 and 32 so as to form helical discs, and are located close together between the rear of the front plate I3 and the intermediate annular partition I5 s that when the discs 2'I and 3I are revolved relatively in opposite directions they mesh or interdigitate in known manner. The radius of the conductor member 35 is substantially the same as the radius of the conductor member 2| on the back plate I4 and these radii are the same as the radius of rotation of the revoluble contact 24. When theslits 28 and 32 of discs 21 and 3| are aligned, the full circle of conductor 35 on the face of member 3| is exposed. The other prong of contact 24 rides on this exposed part of conductor 35. By rotating the discs 21 and SI relatively through a full revolution, the slits 28 and 32 are again aligned but with the full extent of conductor 35 covered by the insulator disc 21 so that contact 24 isopen. In any other relative positions of discs 21 and 3|, a part of conductor 35 is exposed to contact 24.
On the back of face plate I3 is secured a fixed contact 39 having a binding post 31. Contact 36 rides on the part of conductor 35 which is at all times exposed in the form of a complete circle on the back of disc 3| as seen in Fig. 6.
Interlocking of the closed ends of slots 29 and '33 in discs 21 and 3| limits relative rotation of discs 21 and 3| in one direction. By turning the end of conductor 35 outward at the edge of slit 32 so as to engage the edge of slit 23 in disc 21, a stop is provided for limiting relative movement of discs 21 and 3| to one revolution in the other direction.
By changing the rotative position of disc 21, the radial position of slit 28 determines the point in the travel of contact 24 at WhlCh the contact will hit conductor 35 and thus complete an electrical path between binding posts 22 and 31. By changing the rotative position of disc 3|, the radial position of slit 32 determines the point in the path of rotation of contact 24 that this contact leaves conductor 35, thus opening the electrical path between binding posts 22 and 31. Since the contact 24 is rotated bythe hour spindle |2 of the clock'unit the switch closing and opening times are thus adjusted by the described manipulation of discs 21 and 3|.
For setting the positions of discs 21 and 3|, there are provided setting arms 38 and 39. Arm 39 is secured at one end to the inner hub 26 so that rotation of arm 38 turns hub 23 and disc 21 attached thereto. Arm 39 is secured at one end to the other concentric hub 25 so that turning of arm 39 turns hub 25 and the conductor mounting disc 3| attached thereto. The other ends of arms 38 and 39 project outward to the vicinity of the index circle on the face plate |3. The arms 38 and 39 are located between the time indicating hands |9 and 29 and the face plate l3. Arm 38 is located outward of arm 39 so that arm 38 may be moved into a position in which it overlies arm 39. The time indicating hands l9 and 29 clear both arms 38 and 39.
' -As shown in Figs. 1 and 8, each arm 38 and 39 has a leaf spring 40 attached thereto. One end of leaf spring 40 is attached to arm 38 by a rivet or other suitable fastening device. The other end of leaf spring 40 is turned outward to form a suitable hand grip 4|. Tabs 42 project inward from leaf spring 49 adjacent the end 4|.and overlie the sides of arm 38 so as to frictionally engage the surface of the face plate I3. A suitably roughened track may be provided on face plate |3 to increase the holding action of tabs 42 on the face plate. To turn arm 38, leaf spring 49 is grasped by the grip 4| and pulled outward to disengage tabs 42 from the surface of plate l3 so that the arm 38 can be revolved to a desired position. This operative position of leaf spring49 is illustrated in Fig. 8. In a similar manner arm 39 can be set to a desired position. When arm 38 is set to a position overlying arm 39, so that the switch is open all the time or closed all the time, the tabs 42 on lever 38 overlie both the lever 38 and lever 39. The switch assembly is enclosed by a cylindrical case 43. A removable face cover may be provided if desired in any of various known manners. Conductors 44 and 45 may be connected to binding posts 22 and 31 for connection of the time switch in an electric circuit to be controlled. I
Various changes and modifications may be made within the scope of the invention as set forth in the following claims.
What is claimed is:
l. A time switch comprising a 24 hour clock mechanism having concentric minute and hour spindles, a switch unit having a back plate and a face plate secured in spaced apart relation, said plates having central openings through which project said clock spindles, time indicating hands on the ends of said spindles in front of said face plate, said face plate having indicia of time thereon, a contact in the space between said plates and operated by said hour spindle to rotate in a circular path, a circular conductor on said back plate providing a connection from an electric circuit to said contact, a helical conductor also in the space between said plates so as to be contacted by said contact, an insulator member in the form of a helix having one turn and meshed with said helical conductor, said insulator member and helical conductor being rotatably mounted for mutually independent movement so as to expose any size segment 'of said conductor to said contact at any desired place in the path of travel of the contact, a second connection for an electric circuit including a fixed contact within the space between said plates, said helical conductor having at least two complete turns so that one of said turns is at all times exposed to contact with said fixed contact, the mountings for said insulator member and helical conductor including hubs journalled concentrically around said clock spindles in said face plate, and setting arms attached to said hubs in front of said face plate.
2. In a time switch having a revolving contact and an adjustabletrack formed by interdigitated conductor and insulating helixes, a helical conductor having at least two turns so that one turn is always exposed, and an electrical connection including a fixed contact located to contact said exposed turn.
3. In a time switch of the type having a revolving contact and an adjustable circular track formed by interdigitated helical discs, one of which serves as an insulator, and the other of which carries a helical conducting member, helical discs, each of said helical discs having a radial slit communicating at its inner end with a semi-circular slot surrounding one-half of a hub portion of the disc, said slots beirg located in the discs so as to stop relative rotation of the discs in one direction when said slits are substantially aligned.
4. In a time switch of the type having a rotating contact and an adjustable conducting track therefor formed by interdigitated helical insulating and conducting members, a timer having concentric hour and minute spindles, a face plate through which said spindles project and having time indicating indicia thereon, said rotating contact and adjustable track being located behind said face plate and concentrically around said spindles, adjusting members for said track projecting through and journalled in said face plate concentrically around said spindles and having manually adjustable parts in front of said face plate, and time indicating hands on said spindles also in front of said face plate.
5. In a time switch of the type having a rotating contact and an adjustable track therefor formed by interdigitated helical conductor and insulation members, a face plate bearing time indicia, time indicating hands in front of said face plate, and adjusting members for said track having arms located in front of said face plate, each of said arms having an element engaging said face plate and releasable therefrom to permit rotation of the arm.
6. A time switch having a clock element, a switch mechanism of the type comprising a rotatable contact and an adjustable track therefor formed by interdigitated helical conductor and insulating members, a face plate mounted in spaced relation from said clock element, said switch mechanism being located in the space between said face plate and said clock element, said clock element having hour and minute spindles projecting through the center of said face plate, said rotatable contact being connected to be driven by said hour spindle, time indicating hands on said spindles in front of said face plate, and members for adjusting said track also projecting through said face plate and journalled concentrically around said spindles in said face plate and having arms projecting radially in front of said face plate.
ANTOINE G. KALAYDJ IAN
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US424271A US2310090A (en) | 1941-12-24 | 1941-12-24 | Time switch |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US424271A US2310090A (en) | 1941-12-24 | 1941-12-24 | Time switch |
Publications (1)
Publication Number | Publication Date |
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US2310090A true US2310090A (en) | 1943-02-02 |
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ID=23682069
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US424271A Expired - Lifetime US2310090A (en) | 1941-12-24 | 1941-12-24 | Time switch |
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US (1) | US2310090A (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2932702A (en) * | 1958-09-05 | 1960-04-12 | Zenith Radio Corp | Clock-controlled timing apparatus |
US3028456A (en) * | 1959-03-06 | 1962-04-03 | Raymond D Smith | Backsettable rotary time switch |
-
1941
- 1941-12-24 US US424271A patent/US2310090A/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2932702A (en) * | 1958-09-05 | 1960-04-12 | Zenith Radio Corp | Clock-controlled timing apparatus |
US3028456A (en) * | 1959-03-06 | 1962-04-03 | Raymond D Smith | Backsettable rotary time switch |
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