US1622002A - Timer for electrically-operated devices - Google Patents
Timer for electrically-operated devices Download PDFInfo
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- US1622002A US1622002A US85413A US8541326A US1622002A US 1622002 A US1622002 A US 1622002A US 85413 A US85413 A US 85413A US 8541326 A US8541326 A US 8541326A US 1622002 A US1622002 A US 1622002A
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- Prior art keywords
- shaft
- spring
- winding
- movement
- indicating
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- G—PHYSICS
- G04—HOROLOGY
- G04F—TIME-INTERVAL MEASURING
- G04F3/00—Apparatus which can be set and started to measure-off predetermined or adjustably-fixed time intervals with driving mechanisms, e.g. dosimeters with clockwork
- G04F3/02—Apparatus which can be set and started to measure-off predetermined or adjustably-fixed time intervals with driving mechanisms, e.g. dosimeters with clockwork with mechanical driving mechanisms
- G04F3/027—Apparatus which can be set and started to measure-off predetermined or adjustably-fixed time intervals with driving mechanisms, e.g. dosimeters with clockwork with mechanical driving mechanisms using electrical contacts, e.g. for actuating electro-acoustic device
Definitions
- the improvements relate to mechanism for timing the operation of electrical and electrically controlled "devices. and are in the nature of improvements in the mechanism of my application for Letters Patent of the United States Serial No. 708,740 filed April 24, 1924.
- means for winding the spring of,the clock movement comprising a clutch which will permit the spring to be wound by the operation of a handle or the like until the spring is fully wound are shown.
- the winding handle in that mechanism is turned around the dial in counter clockwise direction, after being turned in clockwise direction to wind the spring, the spring will remain wound to an extent corresponding-with the clockwise movement of the handle, and will be' further wound if the handle is turned back and then turned clockwise agaimso that the spring will be wound on each clockwise turning of the handle until it is fully wound,
- the handle is so arranged and connected that it winds the spring only wlien the spring is unwound to a point where a lug or the like on the winding shaft will engage a lug connected with the handle, the indicator levers being otherwise frictionally operated as long as the clock iswound more than the requirements of the position of the indicator handle.
- the indicator hall-- die positively engages and winds the spring mechanism only'when it is not wound or rotated to a sufficient extent to return the indicator handle to home position, but does not wind 'it at all if it has been previously wound, as where the indicator handle has beenturned wholly or partly around the dial in clockwise direction and turned backagain by hand.
- This arrangement in sures a; suflicient winding to return the indicator to. normal or home position at all times, and at the same time insures against over winding, restricting the maximum winding of the spring toone revolution of the handle.
- Fig. 1 is a vertical lon itudinal section of timing mechanism embo ying the improvements, the actuating spring being enclosed
- Fig. 3 is a similar section on the line 3-3 of Fig. 1, looking in the direction indicated by the arrows but omitting the part 18;
- Fig. 4 is a back elevation of the part 18 and parts integral therewith.
- the winding indicator handle 1 is keyed on a hollow spindle 14 on the opposite end of which is keyed a collar 13 carrying a horizontally extending pin 12 for moving certain contact arms, and another horizontally extending pin 22 both pins extending rearwardly from the rear face of said collar.
- the pin 22 is adapted when the arm 1 is rotated clockwise to come in contact with the pin 21 projecting from the periphery of the disk 18 locked on the butt 24 of the winding post 15, and thereby to wind the spring (not shown) of the clock movement in the casin 28.
- the disk 2with its operating indicator arm 3 is loosel mounted. on. the spindle 14 between the co lar 13 and the hub 1" of the handle 1, and is adapted to be rotated by the said hub through the beveled surfaces 6 and 7 on sleeve 4 carrying disks 2 and 7 on the hub, forming a friction clutch which g neaaoea is held by the compression spring 31 strung on the spindle 14 and compressed between the extension 13 of the collar 13 and the disk 5"on the end of the sleeve 4.
- Rings 8 and 9 fixed on the sleeve 4 and collar 13 respectively operate the electrical contact arms to make and brake the circuit, as shown and described in the said application, these rings being secured to the flanges 10 and 11 respectively.
- the indicator handle 3 may be set to start the operation after a lapse of any desired time, and on reaching home position, and the indicator handle 1 to stop the operation after the lapse of an additional period and on reaching home position-all as set forth in said application-the arm 3 and its connected mechanism being rotated toward home position by the hub of the arm 1 through the said friction clutch.
- the winding of the spring to the extent produced by one revolution is the maximum that can be attained bythe present mechanism. In most cases the period will be less than half the maximum. Therefore, when the indicating armor handle 1 is moved less than a full revolution the spring will be wound to a corresponding extent, and only sufiicient to move the said arm to its home orstopping position. If, however the arm has been previously turned beyond that point and turned back manually it will not wind the spring at all, as the pin 22 will not rotate far enough to come in contact with the pin 21. If the spring is partly wound, but not to the extent desired, the pin 22 will engage the pin 21 when it has reached the polnt corresponding with the winding of the spring and wind the spring to the desired additional extent.
- the frictional connection between the shaft 15 and the indicator handle 1 is through the spring 16 sprung on the shaft and held under compression between the head of the screw 17 and the bottom shoulder 1" of the recess of the hub handle.
- the shaft 15 is hollow, and is interiorly threaded at its outer end, to receive the threaded shank of the head 17. As this connection is stronger than the frictional .clutch, the
- the disk 18 is keyed on the butt of the shaft 15 by means of the lugs 25 on opposite sides of? the central opening of the disk through which the shaft 15 passes, the fiat sides of these lugs engaging the fiat sides 24 of 24.
- the beveled surfaces 19 and 20 of the disk 18 and collar 13, respectively, are so arranged that they slide freely one on the other.
- large fixed disk 27 has an annular flange 26 through which the butt 24 ofthe shaft 15 passes, and the shaft may be secured to the spring within the casing 28 in the'nnnah. .1
- a ratchet wheel 29 to'hold the wind of the spring.
- A. main shaft 30 extending therefrom is provided to connect the same with suitable chronometer mechanism for accurately timing the unwinding movement of the spring and the resulting counter clockwise movement of the indicatorhandles 1 and 3 and their connected mecha: nism propelled thereby.
- a shaft adapted to rotate to wind and to be oppositely rotated on the unwinding of a spring device, means connected with said shaft for measuring and indicating the winding and unwinding movement thereof, connecting devices between said shaft and said means ermitting independent movement of said shaft, a art in rigid relation to said means and anot er part in the. path of rotation of said first part in rigid relation to said shaft.
- a shaft adapted to rotate to wind and to be oppositely rotated on the unwinding of a spring device, means connected with said shaft, for measuring and indicating the winding and unwinding movement thereof,
- a shaft adapted to rotate to wind and to be oppositely rotated on the unwinding of.
- a spring device means connected with said shaft for measuring and indicating the windingand unwinding movement thereof. connecting devices between said shaft and said means permitting independent movementof said means with respect to said shaft, a part in rigid relation to said means, another part in the pat-h of rotation of said first part in rigid relation to said shaft, and a fixed stop in the path of both of said members.
- a shaft adapted to be rotated to wind and to be oppositely rotated on the unwinding of a spring device, means connected with said shaft for measuring and indicating the windin and unwinding movementthereof, connecting devices between said shaft and said means permitting independent move ment of said means with respect to said shaft, a partin rigid relation to said means, another part in the path of rotation of said first part in rigid relation to said shaft, a second means for measuring and indicating the rotary movement of said shaft movable thereon and movable with respect to the first-named indicating and measuring means.
- a shaft adapted to be rotated to wind and to be oppositely rotated on the unwinding of a spring device, means connected with said shaft for measuring and indicating the winding and unwinding movement thereof, connecting devices between said shaft and said means rmitting independent movement of said means with respect to said shaft, a part in rigid relation to said means, another part in the path of rotation of said first part in rigid relation to said shaft, a second means for measuring and indicating the rotary movement of said shaft movable thereon and movable with respect to the first-named indicating and measuring means, said second indicating means being connected wtli the shaft through said first indicating means.
- a rotary winding shaft means for indicating circumferentiall the extent of movement of said shaft within 360 degrees
- means associated with said indicating means for moving said shaft in winding direction comprising a fixedmember on said last means and a fixed member on said shaft in the path of rotation thereof, a clutch connection between said last member and the shaft permitting movement of the former by the latter in unwinding direction. and a stop limiting the rotary movement of all said parts within 360 degrees.
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- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Storing, Repeated Paying-Out, And Re-Storing Of Elongated Articles (AREA)
Description
March 22 1927. 1,622,002
E. A. RUTENBER TIMER FOR ELECTRICALLY OPERATED DEVICES Filed Feb. 2, 1926 gave 41 f0 1 Patented Mar. 22, 1927.
UNITED STATES PATENT OFFICE.
EDWIN BUTENBEB, OF MILWAUKEE, WISCONSIN, ASSIGNOR TO A. J. LIN'DEIANN & HOVERSEN COMPANY, OF MILWAUKEE, WISCONSIN, A CORPORATION OF WIS- v CONSIN.
TIMER FOR ELECTRICALLY-OPEBATED DEVICES.
Application filed February 2, 1926. Serial No. 85,418.
The improvements relate to mechanism for timing the operation of electrical and electrically controlled "devices. and are in the nature of improvements in the mechanism of my application for Letters Patent of the United States Serial No. 708,740 filed April 24, 1924. In the said application means for winding the spring of,the clock movement comprising a clutch which will permit the spring to be wound by the operation of a handle or the like until the spring is fully wound are shown. If the winding handle in that mechanism is turned around the dial in counter clockwise direction, after being turned in clockwise direction to wind the spring, the spring will remain wound to an extent corresponding-with the clockwise movement of the handle, and will be' further wound if the handle is turned back and then turned clockwise agaimso that the spring will be wound on each clockwise turning of the handle until it is fully wound,
when the clutch will slip and prevent win'ding. In the present improvements, the handle is so arranged and connected that it winds the spring only wlien the spring is unwound to a point where a lug or the like on the winding shaft will engage a lug connected with the handle, the indicator levers being otherwise frictionally operated as long as the clock iswound more than the requirements of the position of the indicator handle. In other words, the indicator hall-- die positively engages and winds the spring mechanism only'when it is not wound or rotated to a sufficient extent to return the indicator handle to home position, but does not wind 'it at all if it has been previously wound, as where the indicator handle has beenturned wholly or partly around the dial in clockwise direction and turned backagain by hand. This arrangement in sures a; suflicient winding to return the indicator to. normal or home position at all times, and at the same time insures against over winding, restricting the maximum winding of the spring toone revolution of the handle. I
The improvements are illustrated in the accompanying drawings, in which- Fig. 1 is a vertical lon itudinal section of timing mechanism embo ying the improvements, the actuating spring being enclosed Fig. 3 is a similar section on the line 3-3 of Fig. 1, looking in the direction indicated by the arrows but omitting the part 18; and
Fig. 4 is a back elevation of the part 18 and parts integral therewith.
The parts not shown or described herein are substantially the same in construction and operation as the corresponding parts shown and described in the said ap lication, to which reference is made for a nil illustration and description thereof.
The winding indicator handle 1 is keyed on a hollow spindle 14 on the opposite end of which is keyed a collar 13 carrying a horizontally extending pin 12 for moving certain contact arms, and another horizontally extending pin 22 both pins extending rearwardly from the rear face of said collar. The pin 22 is adapted when the arm 1 is rotated clockwise to come in contact with the pin 21 projecting from the periphery of the disk 18 locked on the butt 24 of the winding post 15, and thereby to wind the spring (not shown) of the clock movement in the casin 28. If the arm '1, however, is turned a full clockwise revolution both pins 21 and 22 will be stopped by contact with the stop 23 fixed on and extending from the stationary flanged disk 27, and the winding movement of the arm thus checked. It now the arm is released the clock movement will return it to home position, causing it to travel through a complete circle, which in the present mechanism will require twelve hours. Completing the circle, and reaching home position, the electric circuit will be broken by the arm through suitable mechanism, shown in said application, and the electrically controlled cooking or otheroperation sto ped.
The disk 2with its operating indicator arm 3 is loosel mounted. on. the spindle 14 between the co lar 13 and the hub 1" of the handle 1, and is adapted to be rotated by the said hub through the beveled surfaces 6 and 7 on sleeve 4 carrying disks 2 and 7 on the hub, forming a friction clutch which g neaaoea is held by the compression spring 31 strung on the spindle 14 and compressed between the extension 13 of the collar 13 and the disk 5"on the end of the sleeve 4. Rings 8 and 9 fixed on the sleeve 4 and collar 13 respectively operate the electrical contact arms to make and brake the circuit, as shown and described in the said application, these rings being secured to the flanges 10 and 11 respectively. With this arrangement, the indicator handle 3 may be set to start the operation after a lapse of any desired time, and on reaching home position, and the indicator handle 1 to stop the operation after the lapse of an additional period and on reaching home position-all as set forth in said application-the arm 3 and its connected mechanism being rotated toward home position by the hub of the arm 1 through the said friction clutch.
As a full revolution of the arm 1 will very rarely be required and as the period represented thereby is the maximum period during which operation Will be automatically maintained, the winding of the spring to the extent produced by one revolution is the maximum that can be attained bythe present mechanism. In most cases the period will be less than half the maximum. Therefore, when the indicating armor handle 1 is moved less than a full revolution the spring will be wound to a corresponding extent, and only sufiicient to move the said arm to its home orstopping position. If, however the arm has been previously turned beyond that point and turned back manually it will not wind the spring at all, as the pin 22 will not rotate far enough to come in contact with the pin 21. If the spring is partly wound, but not to the extent desired, the pin 22 will engage the pin 21 when it has reached the polnt corresponding with the winding of the spring and wind the spring to the desired additional extent.
The frictional connection between the shaft 15 and the indicator handle 1 is through the spring 16 sprung on the shaft and held under compression between the head of the screw 17 and the bottom shoulder 1" of the recess of the hub handle. The shaft 15 is hollow, and is interiorly threaded at its outer end, to receive the threaded shank of the head 17. As this connection is stronger than the frictional .clutch, the
The disk 18 is keyed on the butt of the shaft 15 by means of the lugs 25 on opposite sides of? the central opening of the disk through which the shaft 15 passes, the fiat sides of these lugs engaging the fiat sides 24 of 24. In order that the indicator handle 1 may be moved in both directions without winding or unwinding the spring when the pins 21 and 22 are not in contact, the beveled surfaces 19 and 20 of the disk 18 and collar 13, respectively, are so arranged that they slide freely one on the other. The
large fixed disk 27 has an annular flange 26 through which the butt 24 ofthe shaft 15 passes, and the shaft may be secured to the spring within the casing 28 in the'nnnah. .1
manner, and on the opposite projecting end of this shaft is a ratchet wheel 29 to'hold the wind of the spring. A. main shaft 30 extending therefrom is provided to connect the same with suitable chronometer mechanism for accurately timing the unwinding movement of the spring and the resulting counter clockwise movement of the indicatorhandles 1 and 3 and their connected mecha: nism propelled thereby.
What I claim is:
1. In a device of the character described, a shaft adapted to rotate to wind and to be oppositely rotated on the unwinding of a spring device, means connected with said shaft for measuring and indicating the winding and unwinding movement thereof, connecting devices between said shaft and said means ermitting independent movement of said shaft, a art in rigid relation to said means and anot er part in the. path of rotation of said first part in rigid relation to said shaft.
2. In a device of the character described. a shaft adapted to rotate to wind and to be oppositely rotated on the unwinding of a spring device, means connected with said shaft, for measuring and indicating the winding and unwinding movement thereof,
connectingdevices between said shaft and said means permitting lndependent movement of said means with respect to said shaft, a part in rigid relation to said means,
another part in the ath of rotation of said first part in rigid re ation to said shaft and i1; fixed stop in the path of one of said memers.
3. In a device of the character described, 1
a shaft adapted to rotate to wind and to be oppositely rotated on the unwinding of. a spring device, means connected with said shaft for measuring and indicating the windingand unwinding movement thereof. connecting devices between said shaft and said means permitting independent movementof said means with respect to said shaft, a part in rigid relation to said means, another part in the pat-h of rotation of said first part in rigid relation to said shaft, and a fixed stop in the path of both of said members.
. 4. In a device of the character described, a
shaft adapted to be rotated to wind and to be oppositely rotated on the unwinding of a spring device, means connected with said shaft for measuring and indicating the winding and unwinding movement thereof, connecting devices between said shaft and said means permitting independent movement of said means with respect to said shaft, a part in rigid relation to said means, another part in the path of rotationof said first part inrigid relation to said shaft, a second means for measuring and indicating the rotary movement of said shaft movable thereon.
5. In a device of the character described, a shaft adapted to be rotated to wind and to be oppositely rotated on the unwinding of a spring device, means connected with said shaft for measuring and indicating the windin and unwinding movementthereof, connecting devices between said shaft and said means permitting independent move ment of said means with respect to said shaft, a partin rigid relation to said means, another part in the path of rotation of said first part in rigid relation to said shaft, a second means for measuring and indicating the rotary movement of said shaft movable thereon and movable with respect to the first-named indicating and measuring means.
6. In a device of the character described, a shaft adapted to be rotated to wind and to be oppositely rotated on the unwinding of a spring device, means connected with said shaft for measuring and indicating the winding and unwinding movement thereof, connecting devices between said shaft and said means rmitting independent movement of said means with respect to said shaft, a part in rigid relation to said means, another part in the path of rotation of said first part in rigid relation to said shaft, a second means for measuring and indicating the rotary movement of said shaft movable thereon and movable with respect to the first-named indicating and measuring means, said second indicating means being connected wtli the shaft through said first indicating means.
7. The combination of a spring actuated and spring winding shaft, a member rigidly connected to rotate therewith, a second membar connected to rotate therewith a connection between said shaft and said second member permitting relative movement of the latter thereon, a member rigidly connected with said second member, said first member on the shaft being in the path of rotation thereof, a third member mounted on said shaft and movable therewith, a connection therefor permitting movement of said third member relative to all of the other members and contact devices carried by each of the said second and third members, whereby the said second member may be moved to rotate the shaft in winding direction and both second and third members may be moved by said shaft separately and simultaneously in unwinding direction.
8. The combination of a spring winding and spring actuated shaft, a device for indicating the winding and unwinding movement of said shaft, a sleeve on said shaft upon which said indicating member is fixed, a second member for indicatng the movement of the shaft, a sleeve surrounding said shaft and said first-named sleeve upon which it is mounted, and positive means connecting said shaft with one of said indicating members for rotating said shaft in winding direction.
9. The combination of a spring winding and spring actuated shaft, a device for indicating the winding and unwinding movement ofvsaid shaft, a sleeve on said shaft upon which said indicatin member is fixed, a second member for indicating the movement of the shaft, a sleeve surrounding said shaft and said first-named sleeve upon which it is mounted, positive means connecting said shaft with one of said indicating members for rotating said shaft in winding direction and a flexible connection between one of said members and said shaft permitting said shaft to move said member in unwinding direction and permitting said member to move on the said shaft in both directions.
10. In a device of the character described, a rotary winding shaft, means for indicating circumferentiall the extent of movement of said shaft within 360 degrees, means associated with said indicating means for moving said shaft in winding direction comprising a fixedmember on said last means and a fixed member on said shaft in the path of rotation thereof, a clutch connection between said last member and the shaft permitting movement of the former by the latter in unwinding direction. and a stop limiting the rotary movement of all said parts within 360 degrees.
Witness my hand this 29th day of J anuary, 1926, at the city of Milwaukee, in the county of Milwaukee, State of Wisconsin,
EDWIN A. RUTENBER.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US85413A US1622002A (en) | 1926-02-02 | 1926-02-02 | Timer for electrically-operated devices |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US85413A US1622002A (en) | 1926-02-02 | 1926-02-02 | Timer for electrically-operated devices |
Publications (1)
Publication Number | Publication Date |
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US1622002A true US1622002A (en) | 1927-03-22 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US85413A Expired - Lifetime US1622002A (en) | 1926-02-02 | 1926-02-02 | Timer for electrically-operated devices |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2674664A (en) * | 1950-04-17 | 1954-04-06 | Roy E Clubb | Combination switch |
US2868901A (en) * | 1959-01-13 | Ihfervalometer | ||
US2916569A (en) * | 1956-10-10 | 1959-12-08 | Cons Electronics Ind | Direct reading time delay relay |
-
1926
- 1926-02-02 US US85413A patent/US1622002A/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2868901A (en) * | 1959-01-13 | Ihfervalometer | ||
US2674664A (en) * | 1950-04-17 | 1954-04-06 | Roy E Clubb | Combination switch |
US2916569A (en) * | 1956-10-10 | 1959-12-08 | Cons Electronics Ind | Direct reading time delay relay |
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