US753881A - Electric snap-switch. - Google Patents

Electric snap-switch. Download PDF

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Publication number
US753881A
US753881A US15316003A US1903153160A US753881A US 753881 A US753881 A US 753881A US 15316003 A US15316003 A US 15316003A US 1903153160 A US1903153160 A US 1903153160A US 753881 A US753881 A US 753881A
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Prior art keywords
dial
switch
spindle
snap
handle
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US15316003A
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Gerald W Hart
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Hart Manufacturing Co
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Hart Manufacturing Co
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H19/00Switches operated by an operating part which is rotatable about a longitudinal axis thereof and which is acted upon directly by a solid body external to the switch, e.g. by a hand
    • H01H19/02Details
    • H01H19/10Movable parts; Contacts mounted thereon
    • H01H19/20Driving mechanisms allowing angular displacement of the operating part to be effective in either direction
    • H01H19/24Driving mechanisms allowing angular displacement of the operating part to be effective in either direction acting with snap action

Definitions

  • My invention relates to electric snapswitches, and particularly to a construction including a dial which shall indicate to the user whether the circuit is on or off.
  • the object of my invention is to'provide in a snap-switch a dial which, as above indicated, I5 informs the user of the condition of the circuit.
  • the dial is not gradually moved with the operating-handle, but will snap from one position to the other after-the manner of the interior switch mechanism.
  • Other advantages, such as removability of the dial and freedom of friction, will be apparent to the mechanic skilled in the art from a reading of the following description.
  • Figure 1 I have shown a plan view of a snap-switch; in Fig. 2, a similar view with the cover, dial, and operating-handle removed;
  • Fig. 3 is a plan view of the face of the dial.
  • Fig. 4 is a View of the under side of the dial.
  • FIG. 5 is a cross-section of the parts shown in 3 Figs. 1 and 2.
  • Figs. 6, 7 and 8 illustrate detached details of construction in successive positions.
  • the snap-switch illustrated in the accompanying drawings is an embodiment of the in- Vention set forth in the United States Letters Patent issued to Jacob S. Gibbs, No. 557,198, dated March 31, 1896, and hence need be but briefly described herein, since a more detailed description may be found therein.
  • 4 7 1 is the base, which is usually made circu lar in outline and of suitable insulating material.
  • binding-posts to which the ends of incoming and outgoing circuit-wires may be attached.
  • the binding-posts 2 are connected with the metallic poles 3, which I shall term the lower stationary contact members.
  • the binding-posts 4 are connected with metallic poles 5, which I shall term upper stationary contact members.
  • a stationary ratchetwheel 6 On the base at the center is a stationary ratchetwheel 6, having teeth forming one part of a locking device which serves to hold the commutator-block 9 until a coil-spring 11, which may be mounted upon a suitable central spin-- dle 8, is suificiently tense to properly throw orsnap the block 9 from the on to the oif position, or vice versa.
  • V On the base at the center is a stationary ratchetwheel 6, having teeth forming one part of a locking device which serves to hold the commutator-block 9 until a coil-spring 11, which may be mounted upon a suitable central spin-- dle 8, is suificiently tense to properly throw orsnap the block 9 from the on to the oif position, or vice versa.
  • the commutator-block 9 is rotatably supported upon the spindle 8, and said block carries or includes metallic contact pieces or clips 10 10, arranged so that when the block'is rotated to certain positions they metallically connect the pairs of upper and lower stationary contacts and when rotated into another position disconnect said contacts.
  • One end of the spring 11 is connected with the spindle 8, while the other end is connected with A the block 9, so that when the handle 81 is turned the spring tends to-wind up torotate the block at the proper moment.
  • suitable mechanism comprising, for example, a pinion 13,borne by the spindle 8 and meshing with the bolt 14.
  • the bolt is carried by and has a sliding movement in the lower side of the commutator-block 9, and when the parts arein the proper position and operated the bolt moves into or out of engagement with the teeth 6 on the base.
  • One face of each tooth may be abrupt to present a holding-shoulder for said bolt.
  • the normal position of the bolt is retractedso as to engage with the lowest part of the I abrupt face of a tooth.
  • the pinion is turned, moving the bolt outwardly until it becomes freed from the particular tooth with which it is in contact.
  • the spring is made more tense.
  • the spring unwinding, the bolt retracted and engaging with the next tooth on the ratchetwheel.
  • i 16 is an antifriction-disk concentric with the dial 15, but independently rotatable. This supplemental disk is carried by the dial 15- for example, by means of a bushing 17.
  • a socket 19 On the lower side of the dial 15 and independent of the supplemental disk 16 is a socket 19, shaped to fit onto a hub-like extension 20 of the commutatorblock 9.
  • This hub-like extension may be of an irregular shape, permitting only of the proper attachment of the dial to the hub.
  • this hub-like extension might correspond to the outline of the socket indicated in Fig. 4:.
  • a convenient means of securing one end of the spring 11 to the spindle 8 comprises a slotted washer 8, keyed or otherwise attached to the spindle 8, so that it will turn therewith. To this washer may be secured one end of the spring. Since it is essential to have means for holding the dial in place, I have provided the antifriction-disk 16, which may rest upon the washer 8, as seen in Fig. 5. This disk may be held down in any suitable way-tor example, by means of the handle 81.
  • the means of connection between the dial and its support is such that these parts are locked against independent rotative movement; but this means does not pre vent the longitudinal movement of said parts for the purpose of removing the dial to give access to the underlying parts.
  • a base bearing contact mechanism for making or breaking a circuit through said contacts, said mechanism comprising a rotary member, a spindle coacting with said rotary member and means whereby said spindle can be given a partial rotation independent of said rotary member, a dial carried by the rotary member, an antifriction device carried by said dial but revoluble independently thereof, and means for holding said antifriction-disk against said spindle.
  • a snap-switch in combination,- a base bearing contact mechanism for making or breaking a circuit through said contacts, said mechanism comprising a rotary member, a spindle coacting with said rotary member and means whereby said spindle can be given a partial rotation independent of said rotary member, a dial carried by the rotary member, an antifriction device carried by said dial but revoluble independently thereof, and means for holding said antifriction-disk against said spindle, said dial being detachably connected with said rotary member.
  • a rotary snap-switch an indicatingdial, a rotative support therefor said dial being carried by said support, means for connecting said parts forcausing them to rotate together but permitting disconnection of said parts by longitudinal movement, and separate means for holding said parts against acciden-- tal disengagement.
  • a dial In a rotary snap-switch, a dial, a rotative sleeve said dial being supported on said sleeve, means to hold said dial against inde-' pendent rotative movement relatively thereto but notagainst longitudinal movement relatively thereto, an actuating-spindle within said sleeve and projecting through said dial, an operating-handle carried by said spindle and standing above said dial to prevent the accidental removal of the latter.
  • an indicatingdial comprising a disk-like member arranged to carry indicating characters, a central opening in said disk-like member, a smaller antifriction disk located in said opening, and means securing both said disk-like members together said means permitting the free and independent rotation of one disk relatively to the other.
  • a rotative pole carrying member an indicating dial, means for connecting said dial to said member to prevent independent rotation of said parts said means of connectionpermittingdisengagement of said parts by a sliding movement of one relatively to the other.

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  • Switch Cases, Indication, And Locking (AREA)

Description

No. 753,881. PATENTEDMAR. a, 1904. l G. w., HART: w T ELECTRIC SNAP SWIITGH.
E IODBL' APPLICATION FILED APR. 18, 1903.
Rms vzrzns co. vncToumou WASHINGTON. a. c
R No. 753,881.
UNITED STATES Patented. March a, 1904.
PATENT OFFICE.
GERALD W. HART, or wEsT HARTFORD, CONNECTICUT, ASSIGNOR T THE HART MANUFACTURING COMPANY,
CORPORATION OF NEW JERSEY.
OF HARTFORD, ooNNECTIoUT, A
ELECTRIC SNAP-SWITCH.
SPECIFICATION forming part of Letters Patent No. 753,881, dated March 8, 1904. Application filed April 18, 1903. Serial No. 153,160. (No model.)
To all whom it may concern:
Be it known that I, GERALD W. HART, a citizen of the United States, residing at West Hartford, in the county'of Hartford, State of Connecticut, have invented certain new and useful Improvements in Electric .Snap- Switches, of ,which the following is a full, clear, and exact description.
My invention relates to electric snapswitches, and particularly to a construction including a dial which shall indicate to the user whether the circuit is on or off.
The object of my invention is to'provide in a snap-switch a dial which, as above indicated, I5 informs the user of the condition of the circuit. The dial is not gradually moved with the operating-handle, but will snap from one position to the other after-the manner of the interior switch mechanism. Other advantages, such as removability of the dial and freedom of friction, will be apparent to the mechanic skilled in the art from a reading of the following description. In Figure 1 I have shown a plan view of a snap-switch; in Fig. 2, a similar view with the cover, dial, and operating-handle removed; Fig. 3 is a plan view of the face of the dial. Fig. 4 is a View of the under side of the dial. Fig. 5 is a cross-section of the parts shown in 3 Figs. 1 and 2. Figs. 6, 7 and 8 illustrate detached details of construction in successive positions. v The snap-switch illustrated in the accompanying drawings is an embodiment of the in- Vention set forth in the United States Letters Patent issued to Jacob S. Gibbs, No. 557,198, dated March 31, 1896, and hence need be but briefly described herein, since a more detailed description may be found therein.
4 7 1 is the base, which is usually made circu lar in outline and of suitable insulating material. I
' 2 and 4 are binding-posts to which the ends of incoming and outgoing circuit-wires may be attached. The binding-posts 2 are connected with the metallic poles 3, which I shall term the lower stationary contact members. The binding-posts 4 are connected with metallic poles 5, which I shall term upper stationary contact members. When these pairs of upper and lower stationary contacts are joined by metallic pieces, the circuit. is completed, and when not it is open. On the base at the center is a stationary ratchetwheel 6, having teeth forming one part of a locking device which serves to hold the commutator-block 9 until a coil-spring 11, which may be mounted upon a suitable central spin-- dle 8, is suificiently tense to properly throw orsnap the block 9 from the on to the oif position, or vice versa. V
7 is a bushing or hub extension of theratchetwheel 6, mounted in the base 1, rotatably supporting the spindle 8. Upon the upper end of said spindle is secured a handle 81 of any convenient form. The commutator-block 9 is rotatably supported upon the spindle 8, and said block carries or includes metallic contact pieces or clips 10 10, arranged so that when the block'is rotated to certain positions they metallically connect the pairs of upper and lower stationary contacts and when rotated into another position disconnect said contacts. One end of the spring 11 is connected with the spindle 8, while the other end is connected with A the block 9, so that when the handle 81 is turned the spring tends to-wind up torotate the block at the proper moment. To cause said'block to rotate step by step quickly, suitable mechanism is provided, comprising, for example, a pinion 13,borne by the spindle 8 and meshing with the bolt 14. The bolt is carried by and has a sliding movement in the lower side of the commutator-block 9, and when the parts arein the proper position and operated the bolt moves into or out of engagement with the teeth 6 on the base. One face of each tooth may be abrupt to present a holding-shoulder for said bolt. The normal position of the bolt is retractedso as to engage with the lowest part of the I abrupt face of a tooth. As the handle is revolved the pinion is turned, moving the bolt outwardly until it becomes freed from the particular tooth with which it is in contact. Dur-' ing the rotation the spring is made more tense. Hence when the bolt becomes freed from the ratchet-wheel the commutator-block is thrown quickly around into the next position, the spring unwinding, the bolt retracted and engaging with the next tooth on the ratchetwheel.
The parts thus far described are substantially those set forth in the aforesaid Gibbs patent.
15 is a dial bearing thereon suitable designating Words or characters for example, On and Off. These words correspond in number to the teeth in the ratchet-wheel, which in turn correspond to the number of steps necessary to a complete revolution of the rotatable commutator-block 9. i 16 is an antifriction-disk concentric with the dial 15, but independently rotatable. This supplemental disk is carried by the dial 15- for example, by means of a bushing 17.
18 is the cover, which may be provided with a suitable window, as shownin Fig. 1, through which the designating word or character is visible to the user. On the lower side of the dial 15 and independent of the supplemental disk 16 is a socket 19, shaped to fit onto a hub-like extension 20 of the commutatorblock 9. This hub-like extension may be of an irregular shape, permitting only of the proper attachment of the dial to the hub. For example, in cross-section this hub-like extension might correspond to the outline of the socket indicated in Fig. 4:. When this socket is fitted onto the hub, it in effect keys it thereto, so that it is movable only with said commutator-block. A convenient means of securing one end of the spring 11 to the spindle 8 comprises a slotted washer 8, keyed or otherwise attached to the spindle 8, so that it will turn therewith. To this washer may be secured one end of the spring. Since it is essential to have means for holding the dial in place, I have provided the antifriction-disk 16, which may rest upon the washer 8, as seen in Fig. 5. This disk may be held down in any suitable way-tor example, by means of the handle 81.
From the foregoing it is obvious that when in operation the handle is turned the antifriction-disk 16 will turn therewith, being held between the handle and the washer 8, but the dial 15 will remain stationary with the commutator-block 9. At the proper moment, however, and when the commutator block snaps into the next position the dial moves with it and exposes through'the window in the case 18 the designating word or character. It is obvious there is no appreciable friction between the dial 15 and the handle, spindle, or washer. The handle 81 may be aflixed to the spindle by an ordinary screw-thread, and when the same is removed the cover 18 may be removed and the dial slipped off. By having the same, in effect, keyed to the commutatorblock it is impossible for the user to reassemble these parts Without having the dial indicate correctly in subsequent use.
The part 9, which has been termed a commutator-block, is in the form shown a sleeve, sometimes called a pole-sleeve, in that it carries the switch-blade. In the particular form shown it is this sleeve that supports the dial. It is obvious that my invention may be modified without departure from the spirit or scope of the claims, my main purpose being to provide a simple and effective means for removably securing to the switch mechanism an indicating-dial which may be easily applied or removed when the handle and switchcover are taken off. The means of connection between the dial and its support is such that these parts are locked against independent rotative movement; but this means does not pre vent the longitudinal movement of said parts for the purpose of removing the dial to give access to the underlying parts.
What I claim is 1. In a snap-switch in combination, a base bearing contact mechanism for making or breaking a circuit through said contacts, said mechanism comprising a rotary member, a spindle coacting with said rotary member and means whereby said spindle can be given a partial rotation independent of said rotary member, a dial carried by the rotary member, an antifriction device carried by said dial but revoluble independently thereof, and means for holding said antifriction-disk against said spindle.
2. In a snap-switch in combination,- a base bearing contact mechanism for making or breaking a circuit through said contacts, said mechanism comprising a rotary member, a spindle coacting with said rotary member and means whereby said spindle can be given a partial rotation independent of said rotary member, a dial carried by the rotary member, an antifriction device carried by said dial but revoluble independently thereof, and means for holding said antifriction-disk against said spindle, said dial being detachably connected with said rotary member.
3. In an electric snap-switch in combination, contact members, a rotary member carrying means for making and breaking the circuit through said contact members, and having an irregular-shaped top,a spindle arranged to have partially-independent rotation relatively to said rotary member, a dial bearing designating words or characters, a socket secured to said dial to fit on the top of and be detachably connected with said rotary member, and means for preventing the independent rotation of said rotary member and dial, and means for holding said dial in place when the parts are assembled, and a cover having a window arranged to expose one of said designating words or characters.
4:. In combination with a rotary snap-switch ing carried by said support, means for con-- necting said parts for causing them to rotate together but permitting disconnection of said parts by longitudinal movement.
6. In a rotary snap-switch, an indicatingdial, a rotative support therefor said dial being carried by said support, means for connecting said parts forcausing them to rotate together but permitting disconnection of said parts by longitudinal movement, and separate means for holding said parts against acciden-- tal disengagement.
7. In a rotary snap-switch, a dial, a rotative sleeve said dial being supported on said sleeve, means to hold said dial against inde-' pendent rotative movement relatively thereto but notagainst longitudinal movement relatively thereto, an actuating-spindle within said sleeve and projecting through said dial, an operating-handle carried by said spindle and standing above said dial to prevent the accidental removal of the latter.
8. In an electric snap-switch, a central rotative actuating-spindle, a handle thereon, a
rotative sleeve surrounding said spindle and means of connection between said parts whereby the rotation of the former rotates the latter, an indicating-dial removably mounted on said sleeve below said handle and held from accidental disengagement therefrom by the presence of said handle, and means whereby said dial is locked against independent rotative movement relatively to said sleeve.
9. In an electric snap-switch, an indicatingdial comprising a disk-like member arranged to carry indicating characters, a central opening in said disk-like member, a smaller antifriction disk located in said opening, and means securing both said disk-like members together said means permitting the free and independent rotation of one disk relatively to the other.
10. In an electric snap-switch, a rotative pole carrying member, an indicating dial, means for connecting said dial to said member to prevent independent rotation of said parts said means of connectionpermittingdisengagement of said parts by a sliding movement of one relatively to the other.
Signed at Hartford, Connecticut, this 16th day of April, 1903.
- GERALD W. HART.
Witnesses:
F. B. SEXTON, R. D. CHAPIN.
US15316003A 1903-04-18 1903-04-18 Electric snap-switch. Expired - Lifetime US753881A (en)

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