US995797A - Electric clock. - Google Patents
Electric clock. Download PDFInfo
- Publication number
- US995797A US995797A US59319410A US1910593194A US995797A US 995797 A US995797 A US 995797A US 59319410 A US59319410 A US 59319410A US 1910593194 A US1910593194 A US 1910593194A US 995797 A US995797 A US 995797A
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- US
- United States
- Prior art keywords
- contact member
- frame
- arm
- spider
- aforesaid
- 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
- 230000007246 mechanism Effects 0.000 description 18
- 230000033001 locomotion Effects 0.000 description 16
- 241000239290 Araneae Species 0.000 description 15
- 230000003534 oscillatory effect Effects 0.000 description 10
- 238000010276 construction Methods 0.000 description 1
- 230000000979 retarding effect Effects 0.000 description 1
- 239000011435 rock Substances 0.000 description 1
- 210000002303 tibia Anatomy 0.000 description 1
Images
Classifications
-
- G—PHYSICS
- G04—HOROLOGY
- G04C—ELECTROMECHANICAL CLOCKS OR WATCHES
- G04C1/00—Winding mechanical clocks electrically
- G04C1/02—Winding mechanical clocks electrically by electromagnets
- G04C1/028—Winding mechanical clocks electrically by electromagnets with linearly moving armature
Definitions
- This invention relates to that class of elec inotive force of the primary battery genorally employed in the present class of clocks and with which the noise and friction of the partsin action is reduced to a minimum, all as will hereinafter more fully appear.
- z- Figure 1 is a rear elevation of an ordinary form of clock mechanism having the present invention applied.
- Fig. 2 is a horizontal sectional elevation ot'the same on line ai s, Fi 1.
- Figs. 3 and 4. are detail sectional elevations of the present circuit making and breaking mechanism in two ditlercnt positions, the operating arm thereof being removed.
- Fig. 5 is a detail sectional elevation on line a2--m, Fig. 2, showing. the pawl and ratchet connection between the operating frame and the ratchet wheel of the primary shaft of the clock mechanism.
- Fig. 6, is detail perspective View of operating spider.
- Fig. 7 is a similar View oi the secondary contact memshe];
- l represents the primary driving shaft of the clock mechanism.
- Said shaft is journaled in the usual clock frame and has operative connection with the clock hands by the usual train of gear wheels, and like connection. with the escapement by a corresponding train of gear wheels as usual in clock movements.
- the shaft 1 projects at the rear of the clock mechanism to form a bearing trunnion for the parts of the circuit making mechanism hereinafter described.
- S is a secoiulary ari'n (in the :ijiioresaid frame 3. and upon which carried a s illif pawl ai'lapted to engage the. al'owsaid ratchet. dish 2 and ti nsniit there-lo the move ment of the armature in one dire tion.-
- the frame 11 is a spring pawl carrit'nl by ihc clock frai'ne and engaging the aforesaid ratchet between the-forks being adapted to receive the aforesaid lateral stud. 10.0f the frame 3, and the parts are preferably so proportioned that there is some play between the parts with a corresponding initial lost mo tion in the operation of the frame 3 upon the spider 12, so that said frame 3 may gain momentum before operatively engaging the spider 12.
- Said member 17 is the primary contact member or arm above referred to, and which is pivoted near one end on the supporting frame of the mechanism. Near its pivot end said memher is provided with an anglelug 18 against which the spring hereinafter described has bearing.
- Said member 17 comprises an approximately straight middle portion 19 and an inverted U shape end portion 20, as shown, and extends into the path of the aforesaid lifting toe15, which in its active throw bears beneath the portion 19 to lift' the same, the lifting action continuing until the end of the portion 19 is reached, when the said member or arm is free to descend under the stress of the spring hereinafter described, and with the lifting too 15 free to move in the recess of the inverted U shape portion 20.
- the free end of its in vertcd U shape portion 20 is adapted to have electric contact with the secondary contact member hereinafter described.
- 21 is a spring attached to the supporting frame of the mechanisms and adapted to bear againstthe angle lug 1801 the primary contact member 17 to cifcct a rapid movement thereof in the active throw of the same above described.
- Said secondary contact ancmbcr has a depending arm 23 which projects into the path of the wiper arm 16 before described for operative engagement therewith, and an opposed arm 24, that is forked to form a pair of prongs.
- the outer of said prongs carries a lateral stop pin 25, while the inner prong carries a yielding or rocl iugjcoutact plate 24' localcd in tho. path of thc frcc. end of the inverted U shape portion 20 of l l l.
- spring plate 27 is formed the primary contact member 17 above described. While said contact plate 26 may be fixed, it is preferred that the same be of the rocking type shown, in order that the same may rock during the active sliding move ment of the before described contact point, and with a view to insure eflf'ective electric contact with a minimum amountof friction.
- ling mechanism for electric clocks of an is-- cillatory frame receiving motion from an electro-m 'nct, an oscillatory spider operati It, v s :ly connected to said frame and provided with alifting toe and a wiper arm, a v1bratory primary contact member arranged in primary contact member and a lower arm arranged in the path of the, aforesaid wiper arm, and means for retarding the movement of the secondary cont-act member, sub-- stantially as set forth.
- .talhe combination in a circuit controlling mechanism for electric clocks, of an oscillatory frame receiving motion from an clcctro-niagnet, an oscillatory spider operatively connected to said frame and provided with a lifting toe and a wiper arm, a vibratory primary contact member arranged in the path of said liftingtoe and having a free end constituting a contact point, a sec ondary contact member pivoted in approximately rightangle relation to the primary contact member and having a lower arm arianged in the path of the aforesaid wiper arm and.
- an npper arm forked'to provide a pair of branches, a rocker plate carried by one of said branches, a lateral stud carried by the other of said branches, and a spring plate adapted to retard the movement of said secondary member by contact with the aforesaid lateral stud, substantially as set forth.
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- Physics & Mathematics (AREA)
- Electromagnetism (AREA)
- General Physics & Mathematics (AREA)
- Electromagnets (AREA)
Description
G E. MATHIESEN.
ELECTRIC CLOCK.
APPLICATION FILED NOV.19, 1910.
A n v I z "7 I 7 I 1% v M f and JKIQV 2 wave 71/ I -7 "a a M a wax a controlled mechanism of the clock.
UNITED STATES PATENT osmon.
CARL E. MATHIESEN, OF CHICAGO, ILLINOT ELECTRIC CLOCK.
Specification of Letters Patent. Patented J 11119 20, 1911.
Application filed November 19, 1910. Serial No. 593,194.
To all whom it may concern:
Be it known that; I, CARL E. Mmmnsnu.
a citizen of the United States of America, and a resident of Chicago, in the county of Cook and State of Illinois, have invented certain new and useful Improvements in Electric Clocks, of which the following is a specification.
This invention relates to that class of elec inotive force of the primary battery genorally employed in the present class of clocks and with which the noise and friction of the partsin action is reduced to a minimum, all as will hereinafter more fully appear.
In. the accompanying drawings z-Figure 1, is a rear elevation of an ordinary form of clock mechanism having the present invention applied. Fig. 2, is a horizontal sectional elevation ot'the same on line ai s, Fi 1. Figs. 3 and 4., are detail sectional elevations of the present circuit making and breaking mechanism in two ditlercnt positions, the operating arm thereof being removed. Fig. 5, is a detail sectional elevation on line a2--m, Fig". 2, showing. the pawl and ratchet connection between the operating frame and the ratchet wheel of the primary shaft of the clock mechanism. Fig. 6, is detail perspective View of operating spider. Fig. 7 is a similar View oi the secondary contact memshe];
Similar numerals of reference indicate like parts in the several views. 4
Referring to the drawings, l represents the primary driving shaft of the clock mechanism. Said shaft is journaled in the usual clock frame and has operative connection with the clock hands by the usual train of gear wheels, and like connection. with the escapement by a corresponding train of gear wheels as usual in clock movements. In the construction shown in. the drawings the shaft 1 projects at the rear of the clock mechanism to form a bearing trunnion for the parts of the circuit making mechanism hereinafter described.
2 is a ratchet disk mounted upon the aforesaid driving shaft 1 and connected thereto either in a positive manner by a cross pin or the like, or in a yielding manner by an interposed spring connection between the parts, in accordance with the particular type of electric clocks to which the present invention may beapplied. Both of said connections are quite common to electric clocks now on the market and are equally adapted for use in connection with the novel circuit making mechanism of the present invention.
3 is an oscillating frame loosely mounted on the aforesaid shaft 1 and. inwing a series oi radial arms for operative connection as follows: 41.- is an arm on said frame connected by link 5 with the armature G oi the solenoid electro-nlagnet 7, by which inter-- mittcnt oscillatory reciproca on is imparted to the frame 3 in the operatimi of the clock.
While the arrangement above described and shown in the drawings is preferred. it. is within the scope of. the present invention to use any other rn-dinmry type of tElGffl'lO-llli'tf3 net and armature connections to the arm. 4 of the oscillatory frame 3 a1": esaid.
S is a secoiulary ari'n (in the :ijiioresaid frame 3. and upon which carried a s illif pawl ai'lapted to engage the. al'owsaid ratchet. dish 2 and ti nsniit there-lo the move ment of the armature in one dire tion.-
lt) is a lateral stud on the aforesaid frame Slfor operative erwgernent with the tibia torv spider hcrcinat+=r descrihml.
11. is a spring pawl carrit'nl by ihc clock frai'ne and engaging the aforesaid ratchet between the-forks being adapted to receive the aforesaid lateral stud. 10.0f the frame 3, and the parts are preferably so proportioned that there is some play between the parts with a corresponding initial lost mo tion in the operation of the frame 3 upon the spider 12, so that said frame 3 may gain momentum before operatively engaging the spider 12.
14- is a bracketextension on the spider 12, for the pivotal attachment of a lifting toe 15, by which the hereinafter described primary contact member is periodically raised in the operation of the mechanism.
16 is a wiper arm forming a part of the spider 12 and projecting thereform in a direction opposite to the aforesaid extension 14. Said wiper arm is adapted for'operative engagement with the secondary contact member hereinafter described.
17 is the primary contact member or arm above referred to, and which is pivoted near one end on the supporting frame of the mechanism. Near its pivot end said memher is provided with an anglelug 18 against which the spring hereinafter described has bearing. Said member 17 comprises an approximately straight middle portion 19 and an inverted U shape end portion 20, as shown, and extends into the path of the aforesaid lifting toe15, which in its active throw bears beneath the portion 19 to lift' the same, the lifting action continuing until the end of the portion 19 is reached, when the said member or arm is free to descend under the stress of the spring hereinafter described, and with the lifting too 15 free to move in the recess of the inverted U shape portion 20. In the described descent of the arm or member 17, the free end of its in vertcd U shape portion 20 is adapted to have electric contact with the secondary contact member hereinafter described.
21 is a spring attached to the supporting frame of the mechanisms and adapted to bear againstthe angle lug 1801 the primary contact member 17 to cifcct a rapid movement thereof in the active throw of the same above described.
22 is the companion or secondary contact member above referred to; also pivoted on the supporting frame, and extending in substantially right-angle relation to the primary contact member 17 above described. Said secondary contact ancmbcr has a depending arm 23 which projects into the path of the wiper arm 16 before described for operative engagement therewith, and an opposed arm 24, that is forked to form a pair of prongs. The outer of said prongs carries a lateral stop pin 25, while the inner prong carries a yielding or rocl iugjcoutact plate 24' localcd in tho. path of thc frcc. end of the inverted U shape portion 20 of l l l.
27 is a horizontal spring plate attached at one end to the supporting frame of the mechanism, with its free end formed with a hook 28. Adjacent to said hook 28, the with a curved portion or ridge 29 which projects into the path of the lateral stop pin of the sec ondary contact member 22, before described, to afford yielding resistance to the movement of said pin into and out of engagement with said hook- 4 Assuming the parts are in the position shown in Figs. 1 and 2, and the clock mechanism running, the operation is as follows: The lifting toe 15 moving to the right, in the drawings, under the normal stress heretofore described, gradually lifts the primary.
described contact is ot'vcry short duration and takes place as'the' armature 6 of the elcctro-magnet 7. nears its down position, and is adapted to close the circuit on said electro-magnet, to cause the same to lift the armature again. The described upward movement of the armature (3, is adapted, through the intermediate connections above described, to restore the mechanisms to the position first described, and in such returns of the parts, the pivoted lifting too 15 of the operating spider 12, is adapted to flex to the right and freely pass the. shoulder tori-nod by the intersection of the straight:
and U shape nn- lions 19 and 20 of the pri mary contact member 17. At thesame time the wiper arm 16 of said operating: spider, contacts with the lower arm 23 of thesecondary contact member 22 to move the up per forked cud of said member 22, to the lct'l and back to its original position against 1. The combination in a circuit control.
ling mechanism for electric clocks, of an is-- cillatory frame receiving motion from an electro-m 'nct, an oscillatory spider operati It, v s :ly connected to said frame and provided with alifting toe and a wiper arm, a v1bratory primary contact member arranged in primary contact member and a lower arm arranged in the path of the, aforesaid wiper arm, and means for retarding the movement of the secondary cont-act member, sub-- stantially as set forth.
2. The combination in a circuit controlling mechanism for electric clocks, of an oscillatory frame receiving motion from an electro-magnct, an oscillatory spider opera tively coni'iectcd to said. frame and provided with a lifting toe and a wiperarm, a vibratory primary contact member arranged in the path of said lifting toe and having an approximately straight middle portion and inverted U shape endportion the free end of which constitutes a-eontact point, a secondary contact member pivoted in approximately rightangle relation to the pri mary contact member andhaving an upper arm arranged in the path of the free end of the primary contact member and a lower arm arranged izrthe path of the aforesaid wiper arm, and a spring plate having a curved portion adapted to. retard the move ment of the secondary contact men'iber, substantially as setforth,
The combination in a circuit controb ling mechanism for electric clocks, of an oscillatory frame receiving motion from an electro'magnet, an oscillatory spider operatively connected to said frame, said spider having a wiper arm and a lifting toe pivot-ally attached to the spider, a vibratory primary contact member arranged in the ----p ath co f said liftingtoe and having, a free end donstituting "a contact point, a secondary contact member pivoted 1n approximately right-angle relation to the primary contact. member and having an upper arm arranged in the path of the free end of the primary contact member and lower arm arranged in the path of the aforesaid wiper arm, and a spring plate having a curved portion adapted to retard the movements of the secondary contact member, substantially as set forth.
.talhe combination in a circuit controlling mechanism for electric clocks, of an oscillatory frame receiving motion from an clcctro-niagnet, an oscillatory spider operatively connected to said frame and provided with a lifting toe and a wiper arm, a vibratory primary contact member arranged in the path of said liftingtoe and having a free end constituting a contact point, a sec ondary contact member pivoted in approximately rightangle relation to the primary contact member and having a lower arm arianged in the path of the aforesaid wiper arm and. an npper arm forked'to provide a pair of branches, a rocker plate carried by one of said branches, a lateral stud carried by the other of said branches, and a spring plate adapted to retard the movement of said secondary member by contact with the aforesaid lateral stud, substantially as set forth.
5. The combination in a circuit. controlling mechanism for electric clocks, of an os cillatory frame receiving motion from an electro-magnet, an oscillatory spider operatively connected to said frame and provided with a lifting-toe and a wiper arm, a vibratory primary contact member arranged in the path of said lifting toe and having an approximately straight middle portion and an inverted U shape end portion the free end of which constitutes a contact point, a secondary contact member pivoted in approximately right angle relation to the primary contact member and having a lowerarm arranged in the path of the aforesaid Wiper arm and an upper arm forked to providea pair of branches, a rocker plate carried by one of said branches, a lateral stud carried by the other of said branches,
and a spring plate adapted to retard the Contact Inemberand having a lower arm arranged in the path of "the aforesaid wiper arm. and an upper arm forked to provide a. pair of branches, a rocker p? 9 carried by one of said branches, a his siud carried by the other ojfsaid brzmches and a spring plate adapted to retard the zncvement of said secan lary member by 0011mm; With the aforgsaid lateral stud, substantialiy as sea "ort Signed at Chicago, IHinois, this 16th day of Novaxnber 1910. r
. CARL E. MA.THIESEI T.
Witzwsses ROBERT BURNS? OTTO W. JURGENS.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US59319410A US995797A (en) | 1910-11-19 | 1910-11-19 | Electric clock. |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US59319410A US995797A (en) | 1910-11-19 | 1910-11-19 | Electric clock. |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| US995797A true US995797A (en) | 1911-06-20 |
Family
ID=3064129
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| US59319410A Expired - Lifetime US995797A (en) | 1910-11-19 | 1910-11-19 | Electric clock. |
Country Status (1)
| Country | Link |
|---|---|
| US (1) | US995797A (en) |
-
1910
- 1910-11-19 US US59319410A patent/US995797A/en not_active Expired - Lifetime
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