US1160346A - Clock mechanism. - Google Patents
Clock mechanism. Download PDFInfo
- Publication number
- US1160346A US1160346A US87462914A US1914874629A US1160346A US 1160346 A US1160346 A US 1160346A US 87462914 A US87462914 A US 87462914A US 1914874629 A US1914874629 A US 1914874629A US 1160346 A US1160346 A US 1160346A
- Authority
- US
- United States
- Prior art keywords
- needle
- pendulum
- pole
- clock
- magnet
- 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
Links
Images
Classifications
-
- G—PHYSICS
- G04—HOROLOGY
- G04C—ELECTROMECHANICAL CLOCKS OR WATCHES
- G04C3/00—Electromechanical clocks or watches independent of other time-pieces and in which the movement is maintained by electric means
- G04C3/02—Electromechanical clocks or watches independent of other time-pieces and in which the movement is maintained by electric means wherein movement is regulated by a pendulum
- G04C3/027—Electromechanical clocks or watches independent of other time-pieces and in which the movement is maintained by electric means wherein movement is regulated by a pendulum using electromagnetic coupling between electric power source and pendulum
- G04C3/0278—Electromechanical clocks or watches independent of other time-pieces and in which the movement is maintained by electric means wherein movement is regulated by a pendulum using electromagnetic coupling between electric power source and pendulum the pendulum controlling the gear-train by means of static switches, e.g. transistor circuits
Definitions
- This invention relates to a clock mechanism of that class in which an oscillating pendulum is employed, and has for its object to provide the clock mechanism with means for directlytransforming the oscillationsof the pendulum into motion of continuous rotation, whereby the oscillatin-g pendulumjs employed as the driving member for the time train, yet 1s mechanwic'ally disconnected from the time train,
- Figure 1 is a side elevation and Fig. 2, a front elevation of a clock embodying this invention.
- Fig. 3 a detail of the magnetic coupler shown in Fig. 1.
- Fig. 4 a diagrammatic viewto illustrate the action of the magnetic coupler.
- Fig. 5, a modifiedform of magnetic coupler, and
- Fig. 6, a diagrammatic view to illustrate the action of the The upper portion of the needle a is concentric with the axis b?) and has fast on 1t a small worm c or equivalent device, for transmitting continuous rotary motion to a gear 65 wh1ch forms part of the time train of the clock 6, which time train may be such as now commonly employed in clocks.
- the needle a is magnetized by means of a permanent magnet 10, which also serves as a nearly frictionless bearing for the uppenend of the needle a, by attracting the pointed upper end of said needle against its lower pole face.
- the needle a is maintained in its proper relation to the axis ?5b, by means of a lower ofiset piece or crank 12, which is loosely mounted on a stationary pin or shaft 13, located in the axis 12-6 and supported by the bottom 14 of a casing 15 of non-magnetic material, in which the, needle a and the gear (1 are located.
- the casing 15 is provided as shown in.Fig.
- the non-magnetic casing 15 is of suiiicient size to enable the lower end of the needle 11 to be moved in a circular path.
- the per manent magnet 10 so as to inductively magnetize the needle a, but it is not desired to limit the invention in this respect, as the needle a may be made of hard steel and permanently magnetized, and mounted in suitable bearings to maintain it in the proper relation with respect to the axis of rotation bb.
- Rotation of the needle a is effected by two horseshoe magnets 20, 21, which are mounted upon the pendulum 22 to move therewith.
- the permanent magnets 20, 21, are attached to a bracket 23, which is secured to the pendulum by screws 24: or otherwise, so that the said magnets are in a plane perpendicular to the axis 6-?) and in close proximity to the lower end of the needle a, and said magnets are arranged with relation to the circular path in which the lower end of the needle a is moved, so as to form around a circle alternate magnetic poles marked N. S.
- the pendulum is not mechanically connected with the time train of the clock but is magnetieally coupled therewith, consequently the pendulum or the clock movement can be removed for purposes of shipping, or moving from one place to another, and again placed in position or replaced by a substitute movement means by unskilled labor without any danger of inuri'ng or deranging the clock or getting it p out of adjustment.
- the pendulum 22 is shown as hung upon a pin 30, see Fig. 1, extended through a-leaf spring 31 which is attached to the frame of the clock.
- the pendulum can be unhooked from the pin 30 and replaced thereon by unwith the pendulum, and while this arrangement may be preferred, it is not desired to limit the invention in this respect, as only one of the magnets may be secured to the pendulum to move therewith, after the manner shown in Fig. 5, wherein the magnet 20 is shown as movable with the pendulum and the magnet 21 is stationary, being secured to the clock casing or other support.
- magnet 20 is made larger than the magnet 21 and is located at a lower level, so that its. poles can pass under the poles of the smaller magnet 21.
- the needle a has its upper and attracted to the under side of the pole N of the mag net 21, while its lower end is passed through a bracket 36 attached to the pole'N of said magnet, and is provided with a. crank or arm 37 which constitutes the movable N pole of the needle.
- the needle w is provided with the worm c which is designed to engage the gear d of the time train.
- the needle a is rotated clockwise as represented inv Fig.1 6, wherein positions Nos. 1 to 8 of the movable magnet 20 are indicated.
- the relation of the poles N, S, of'the moving magnet 20 to the poles N 5 of the fixed magnet 21 is such that when the'magnet 210 is in its extreme right hand position No. .3, in Fig. 6, the pole N of the needle 0; will be attracted strongly by the pole S of magnet 12%. agd will take up the position shown in As the pendulum swings toward the left andreaches the position No. t, the repulsion of pole N which is nearer the plane of the pole N of the needle a than is the pole S of magnet 21, will move the needle slightly net, will completely overpower the attraction of pole S of'magnet 2l and will force the pole N of the needle to move into the osition No. 7. As the pendulum swings ack again toward theright, the pole N of the needleinits effort to follow the pole S,
- both magnets 20, 21 are movable with the pendulum, whereas in Fi 5 and 6, only one magnet as 20 is mova 1e with the pendulum.
- the magnets 20, 21 cooperate with the magnetized needle to form a magnetic coupler for operatively connecting the oscillating or reciprocating driving member, herein shown as the pendulum 22, with a rotatable mem- 40 her herein shown as the gear (Z of the time train, and while this feature is especially serviceable foruse in clocks, it is not desired to limit the invention in this respect.
- a revoluble member connected with the gear train of the clock and carrying a magnetic pole outside of its axis of revolution, magnets cooperating with said revolublemember and one of which. is mounted upon the pendulum of the clock to'ind'uce motion of complete rotation in said revoluble member by reciprocation of the permanent magnetic field across the axis of rotation of said pole.
- a clock in combination, a time train, a pendulum mechanically disconnected from said time train, means for oscillating, said pendulum, and means for magneticallycouplingsaid pendulum with said time train to drive the. latter by said oscillating pendulum.
Landscapes
- Physics & Mathematics (AREA)
- Engineering & Computer Science (AREA)
- Electromagnetism (AREA)
- Power Engineering (AREA)
- General Physics & Mathematics (AREA)
- Transmission Devices (AREA)
Description
WI T NE SSE S:
H. E. WARREN.
CLOCK MECHANISM.
APPLICATION FILED NOV. 30. I914.
Patented Nov. 16, 1915.
3 SHEETSSHEET 1.
[NVE/VTOR.
H. E. WARREN.
CLOCK MECHANISM.
APPLICATION FILED NOV. 30. 1914.
Patented Nov. 16, 1915.
3 SHEETSSHEET 2.
WITNESSES: INVENT OR.
H. E. WARREN.
CLOCK MECHANISM.
APPLICATION FILED NOV. 30. 1914.
1,160,346. Patented Nov. 16, 1915.
3 SHEETSSHEET 3- S No.3. 32/
WITNESSES: INVENTOR.
HENRY E. WARREN, or A'SHLAND, MASSACHUSETTS.
CLOCK MECHANISM.
Specification of Letters Patent.
Patented Nov. 16, 1915.
Application filed November 30, 1914. Serial No. 874,629.
' To all whom it may concern:
Be it known that I, HENRY E- WARREN, a citizen of the United States, residing in Ashland, in the county of Middlesex and State of Massachusetts, have invented an Improvement in Clock Mechanism, of which the following description, in connection with the accompanying drawings, is a specification, like characters onthe drawings representing like parts.
This invention relates to a clock mechanism of that class in which an oscillating pendulum is employed, and has for its object to provide the clock mechanism with means for directlytransforming the oscillationsof the pendulum into motion of continuous rotation, whereby the oscillatin-g pendulumjs employed as the driving member for the time train, yet 1s mechanwic'ally disconnected from the time train,
which is especially advantageous in portable clocks, such for instance as the type commonly known as mantle clocks, as the pendulum or the works of the clock are capable of being removed from the clock when it is desired to move, ship or transport the clock and can be replaced by unskilled labor without danger of disarrangement of the clock which would interfere with its accuracy.
In the present instance -I have shown the invention as embodied in a clock in which the pendulum is mechanically disconnected from the time train but is magnetically coupled thereto so as to produce rotation of the time train by reciprocation or oscillation of the pendulum.
These and other features of the invention will be pointed out in the claims at the end of this specification.
Figure 1 is a side elevation and Fig. 2, a front elevation of a clock embodying this invention. Fig. 3, a detail of the magnetic coupler shown in Fig. 1. Fig. 4, a diagrammatic viewto illustrate the action of the magnetic coupler. Fig. 5, a modifiedform of magnetic coupler, and Fig. 6, a diagrammatic view to illustrate the action of the The upper portion of the needle a is concentric with the axis b?) and has fast on 1t a small worm c or equivalent device, for transmitting continuous rotary motion to a gear 65 wh1ch forms part of the time train of the clock 6, which time train may be such as now commonly employed in clocks. The needle a is magnetized by means of a permanent magnet 10, which also serves as a nearly frictionless bearing for the uppenend of the needle a, by attracting the pointed upper end of said needle against its lower pole face. The needle a is maintained in its proper relation to the axis ?5b, by means of a lower ofiset piece or crank 12, which is loosely mounted on a stationary pin or shaft 13, located in the axis 12-6 and supported by the bottom 14 of a casing 15 of non-magnetic material, in which the, needle a and the gear (1 are located. The casing 15 is provided as shown in.Fig. 2, with a partition wall 16, which separates the easing into a lower chamber 17 in which the needle a is located and an upper chamber 18 in which the permanent magnet 10 is located, and said wall is provided with an opening for the passage through it of the pointed upper end of the needle to make contact with the permanent magnet 10. The non-magnetic casing 15 is of suiiicient size to enable the lower end of the needle 11 to be moved in a circular path.
It may be preferred to employ the per manent magnet 10 so as to inductively magnetize the needle a, but it is not desired to limit the invention in this respect, as the needle a may be made of hard steel and permanently magnetized, and mounted in suitable bearings to maintain it in the proper relation with respect to the axis of rotation bb.
Rotation of the needle a is effected by two horseshoe magnets 20, 21, which are mounted upon the pendulum 22 to move therewith. In the present instance the permanent magnets 20, 21, are attached to a bracket 23, which is secured to the pendulum by screws 24: or otherwise, so that the said magnets are in a plane perpendicular to the axis 6-?) and in close proximity to the lower end of the needle a, and said magnets are arranged with relation to the circular path in which the lower end of the needle a is moved, so as to form around a circle alternate magnetic poles marked N. S. N S The lines of force from the mag- Just as soon as the pendulum begins to swing to the right, the N pole of the needle 0; will be deflected in a counter clockwise direction in the efiort to continue pointing toward pole S and will be moved into the position N o. 2. Very soon, however, the pendulum will reach a position when the repulsion from pole N and the attraction of pole S of magnet 21, will overpower the attraction of pole S and the repulsion of pole N of magnet 20 and the pole N of needle 0;, will continue its counter-clockwise rotation and reach the position No. 3. For any further motion of the pendulum toward the right, the pole N of theneedle a will continue to point toward the pole 5*, but as the pendulum reverses its motion and begins to swing back again toward the left, the pole N of needle a will continue its counter-clockwise rotation, reaching successively the positions Nos. 4 and 5. Further left hand motion of the pendulum will bring about the strong repulsion of pole N of needle a by pole N and the attraction by pole S, so that the pole of .the needle a will take the position No. 6, and
as the left hand motion of the pendulum continues, the magnetic forces will continue the contra-clockwise motion of the needle a until it reaches the position No. 7 which is 180 from the position No. 3. The -pendulumnow swings back again toward the right, and the pole N of the needle a will continue rotary motion and will pass through theposition No. 8 toposition No. 1, the point of beginning. It will be observed, that a complete reciprocation or oscillation of the pendulum has brought about a single rotation in a counter clockwise direction of the needle 0:, and it therefore, follows, that for any number of complete reciprocations or oscillations of the endulum, there will be the same number oi rotary turns of the needle in a single direction. By reversing the magnet poles of the needle a, the needle (1 would be rotated in the opposite direction, that is, clockwise.
It will thus be seen that the pendulum is not mechanically connected with the time train of the clock but is magnetieally coupled therewith, consequently the pendulum or the clock movement can be removed for purposes of shipping, or moving from one place to another, and again placed in position or replaced by a substitute movement means by unskilled labor without any danger of inuri'ng or deranging the clock or getting it p out of adjustment. In the present instance the pendulum 22 is shown as hung upon a pin 30, see Fig. 1, extended through a-leaf spring 31 which is attached to the frame of the clock. By reference to Fig. 1, it will be seen, that the pendulum can be unhooked from the pin 30 and replaced thereon by unwith the pendulum, and while this arrangement may be preferred, it is not desired to limit the invention in this respect, as only one of the magnets may be secured to the pendulum to move therewith, after the manner shown in Fig. 5, wherein the magnet 20 is shown as movable with the pendulum and the magnet 21 is stationary, being secured to the clock casing or other support.
In the arrangement shown in Fig. 5, the
The needle a has its upper and attracted to the under side of the pole N of the mag net 21, while its lower end is passed through a bracket 36 attached to the pole'N of said magnet, and is provided with a. crank or arm 37 which constitutes the movable N pole of the needle. The needle w is provided with the worm c which is designed to engage the gear d of the time train. The needle a is rotated clockwise as represented inv Fig.1 6, wherein positions Nos. 1 to 8 of the movable magnet 20 are indicated.
The relation of the poles N, S, of'the moving magnet 20 to the poles N 5 of the fixed magnet 21 is such that when the'magnet 210 is in its extreme right hand position No. .3, in Fig. 6, the pole N of the needle 0; will be attracted strongly by the pole S of magnet 12%. agd will take up the position shown in As the pendulum swings toward the left andreaches the position No. t, the repulsion of pole N which is nearer the plane of the pole N of the needle a than is the pole S of magnet 21, will move the needle slightly net, will completely overpower the attraction of pole S of'magnet 2l and will force the pole N of the needle to move into the osition No. 7. As the pendulum swings ack again toward theright, the pole N of the needleinits effort to follow the pole S,
will continue its motion in a clockWisedirection, passing successively through positions Nos. 8, 1 and 2, and finally the poles N S of magnet will have moved far enough away 15 from the pole N of the needle, so that the attraction of the ole S of the fixed mag-- net 21, will excee the combined attraction of the poleS and'the repulsion of the polNe N of the'movable magnet 20, and thepo 2 0 of the needle will be turned into the position No. 3, having now completed one revolution while the pendulum has made one complete reciprocation or oscillation. Obviously this action will be repeated for every complete reciprocation or oscillation of the pendulum, so that the rotations of the needle will measure the reciprocations or oscillations of the pendulum.
In the arrangement shown in Figs. 1 to so 4 both magnets 20, 21 are movable with the pendulum, whereas in Fi 5 and 6, only one magnet as 20 is mova 1e with the pendulum.
In both cases, it will be observed that the magnets 20, 21, cooperate with the magnetized needle to form a magnetic coupler for operatively connecting the oscillating or reciprocating driving member, herein shown as the pendulum 22, with a rotatable mem- 40 her herein shown as the gear (Z of the time train, and while this feature is especially serviceable foruse in clocks, it is not desired to limit the invention in this respect.
It is preferred to inclose the magnetized 46 needle a in a dust-tight casing of non-magnetic material to (protect the same from dust and handling an also to inclose the gear (1 insaid casing.
1 .The caslngdoes not. interfere with the 60- action of'the magnets upon the needle, be-
. cause the magnetic lines of force pass freely Qthroughi'the'fwalls of the casing. The
amount of energy takenjfrom the pendulum to drive the clock movement by means of the magnetic coupler is very slight and is practically constant. It may be preferred to transmit the rotary movement of the needle to the clock movement by a worm and gear,
for the reciprocating or oscillating member of the magnetic coupler, and while it may be preferred to make the rotatable member in the form of a needle, it is not desired t limit the invention in this respect.
Claims: i f
1. In a pendulum driven clock, in combination, a revoluble member connected with the gear train of the clock and carrying a magnetic pole outside of its axis of revolution, magnets cooperating with said revolublemember and one of which. is mounted upon the pendulum of the clock to'ind'uce motion of complete rotation in said revoluble member by reciprocation of the permanent magnetic field across the axis of rotation of said pole. i
2. -In a clock, in combination, a time train, a pendulum mechanically disconnected from said time train, means for oscillating, said pendulum, and means for magneticallycouplingsaid pendulum with said time train to drive the. latter by said oscillating pendulum.
3. In a clock, in combination, atime train,
disconnected. members for directly transforming the oscillations of said pendulum.
into motion of continuous rotation infithe time tra'in, one of said members being connected 'with said pendulum and the other with the said time train.
In testimony whereof, I have signedmy name to this specification in thepresence' of two subscribing witnesses.
HENRY E. WARREN. Witnesses: I
Y JAB. H. CHURCHILL,
J. Mmzrnr.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US87462914A US1160346A (en) | 1914-11-30 | 1914-11-30 | Clock mechanism. |
US59190A US1283430A (en) | 1914-11-30 | 1915-11-02 | Apparatus for converting reciprocating motion into continuous rotary motion. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US87462914A US1160346A (en) | 1914-11-30 | 1914-11-30 | Clock mechanism. |
Publications (1)
Publication Number | Publication Date |
---|---|
US1160346A true US1160346A (en) | 1915-11-16 |
Family
ID=3228386
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US87462914A Expired - Lifetime US1160346A (en) | 1914-11-30 | 1914-11-30 | Clock mechanism. |
Country Status (1)
Country | Link |
---|---|
US (1) | US1160346A (en) |
-
1914
- 1914-11-30 US US87462914A patent/US1160346A/en not_active Expired - Lifetime
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US2843742A (en) | Device for maintaining mechanical oscillations | |
US1160346A (en) | Clock mechanism. | |
US2548731A (en) | Reversible step motor | |
US2350741A (en) | Indicating instrument having magnetic biasing means | |
US2111550A (en) | Time limit control | |
US2499316A (en) | Magnetic motor for visual indicator units | |
US2852725A (en) | Electrically-maintained vibratory oscillator | |
US1283430A (en) | Apparatus for converting reciprocating motion into continuous rotary motion. | |
US3040225A (en) | Impelling and pulse control system for electronic pendulum clocks | |
US2323796A (en) | Electric clock | |
US3605401A (en) | Electronically powered clock | |
US3354329A (en) | Magnet arrangement for electric and electronic clocks | |
US3161813A (en) | Magnetic oscillator controlled motor | |
US3095690A (en) | Contact and index system for an electric watch | |
US3360703A (en) | Oscillating electric motor | |
US1070577A (en) | Electromagnetic drive for secondary clocks or the like. | |
US2184668A (en) | Synchronized clock escapement | |
US1508205A (en) | Clock motor | |
US2948104A (en) | Electrically driven clockwork | |
US2761982A (en) | Electrical impulse transmitter with magneto-electrical self-control | |
US2979647A (en) | Switch circuit and actuating mechanism | |
US2586520A (en) | Numeral wheel aligning mechanism | |
US3386237A (en) | Winding apparatus for an electric clock | |
US3452536A (en) | Chart drive | |
US686507A (en) | Electric meter. |