US3194899A - Pushbutton switch assembly - Google Patents

Pushbutton switch assembly Download PDF

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US3194899A
US3194899A US202791A US20279162A US3194899A US 3194899 A US3194899 A US 3194899A US 202791 A US202791 A US 202791A US 20279162 A US20279162 A US 20279162A US 3194899 A US3194899 A US 3194899A
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pushbutton
guideway
cam surface
movable
cam
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US202791A
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Howard P Stock
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Schneider Electric USA Inc
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Square D Co
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H13/00Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch
    • H01H13/70Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard
    • H01H13/72Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard wherein the switch has means for limiting the number of operating members that can concurrently be in the actuated position
    • H01H13/74Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard wherein the switch has means for limiting the number of operating members that can concurrently be in the actuated position each contact set returning to its original state only upon actuation of another of the operating members

Definitions

  • This invention relates to an interlocking pushbutton switch assembly, and particularly to a dual pushbutton switch assembly provided with an interlock for assuring roper movements of the pushbuttons relative to each other at all times, and with yieldable position retainers by which whichever pushbutton is in one of its predetermined operating positions is retained in that position under yieldable restraint, so as to remain in that position until forced out of that position ,by the interlock upon operation of the other push button.
  • the assemblage is one wherein both pushbuttons are urged outwardly by respective return springs and have portions which carry spring seated contacts, and in which, when one pushbutton is fully inserted in operating position, the interlock prevents the movement of the other pushbutton into the innermost operating position and constrains it to remain in a different position.
  • Another object is to provide a restraining means, which, when one pushbutton is in an innermost position, cooperates with the pushbutton to hold it in such position against the outward thrust of its return spring and the spring of its contact, but yieldably releases the pushbutton for movement in an outward direction upon predetermined inward movement being exerted on the other pushbutton and transferred by the interlock to the inwardly positioned pushbutton.
  • Another object is to provide a structure of this character in which the mechanism is included in a hollow body formed of detachable members, at least some of which are readily removable for affording access to the retaining means and the interlock so that each can be removed and replaced readily as required.
  • FIG. 1 is a top plan view of the switch embodying the principles of the present invention
  • FIG. 2 is a vfront elevation of'the switch illustrated in FIG. 1;
  • FIG. 3 is a right end in FIG. 1;
  • FIG. 4 is a vertical longitudinal sectional view taken on line 44 in FIGS. 1 and 5;
  • FIG. 5 is a vertical cross sectional View taken on the line 5-5 in FIG. 4;
  • FIGS. 6 and 7 are horizontal sectional views taken on the lines 6-6 and 7-7, respectively, of FIG. 4;
  • FIG. 8 is a horizontal sectional view through one of the pushbutton stems and is taken on the line 8-3 of FIG. 4.
  • the mechanism comprises a body 1 formed of two detachable members, a forward member 1a and a rearward member 1b. These members preferably are duplicates of each other, and are assembled by being engaged at their open sides along a plane extending through the axes of the two pushbutton s.
  • a forwardly and rearw-ardly extending H shape metal tie member 2 extends through the assembled members 1a and 1b in intersection relation to the plane.
  • Screws 3 extend through a supporting plate 4 and are in threaded engagement with the H-shaped tie member 2 at their inner ends, thus holding the two body members in assembled relation.
  • the plate 4 has notches 5 for receiving screws for mounting the switch in a conventional switch box B.
  • Each body member has external notches 6 which receive ribs 7 on elevation of the switch illustrated 3,194,899 Patented July 13, 1965 C ce the plate 4 for assisting in holding the body members firmly together.
  • the pushbutton It has an elongated stem 12 having a plurality of guide ribs 13 which extend endwise thereof and slidably engage the complementarily contoured inner walls of .a passage 1-4 in the upper portion of the body, so as to slidably support the stem for endwise movement relative to the body while assuring proper guided lineal movement of the pushbutton stem 12.
  • the pushbutton stem 12 has a flattened portion 15 through which is a rectangular opening 16 which receives a contact 17 having a reduced width central portion 18.
  • Thewidth of the opening is greater than that of the reduced width portion and less than that of the portions of the contact adjacent to the reduced width portion for preventing endwise displacement of the contact.
  • the contact is urged to the bottom of the opening by a suit-able spring 19 so that it can be placed in resilient pressure contact with the lower contacts 20 in the body upon inward movement of the pushbutton to a predeter- 1 body.
  • the lower end of the stem of the pushbutton 11 has a cam surface 26 identical with the cam surface 22 and facing toward the cam surface 22. These cam surfaces preferably are linear .and slope downwardly away from each other at equal angles to the paths of the pushbuttons.
  • the body has a transverse guideway 28 so arranged so that the cam surfaces 22 and 26 are exposed in alignment with the opposite ends of the guideway, respectively.
  • Rigid force transmitting elements are disposed in the guideways and engage the cams.
  • these elements include two rolling elements 29 and 30 with a sliding-element 31 therebetween.
  • the overall length of the two rolling elements and sliding element, when they are in contact with each other endwise of the guideway 28 is such that they are at all times substantially in contact with both of the cam surfaces 22 and 26.
  • each pushbutton be urged outwardly by a return spring.
  • the pushbutton 10 is urged outwardly by a spring 32 and the pushbutton 11 by a spring 33.
  • pushbutton 10 inwardly it is to be retained against the force of the spring 32 and the added force of the spring 19.
  • yieldable restraining means are provided.
  • the two members or halves 1a and 1b of the body define, when assembled, two sockets 35 and 36.
  • a detent member 37 In the socket 35 is a detent member 37 and in the socket 36 is a detent member 38.
  • Springs 39 and 40 are provided in the sockets 35 and 36 behind the detents 37 and 38 and yieldably urge the detents outwardly toward the stems of the pushbuttons, respectively.
  • the stem of the pushbutton has on its inner face a channel 42 which, at the bottom, terminates in a latching shoulder 43. correspondingly, the stem of the pushbutton 11 has a channel 44 which at its bottom terminates in a latching shoulder 45.
  • the stem of the pushbutton 10 has a barrier surface 46 and the stem of the pushbutton 11 has a barrier surface 47.
  • its barrier surface engages the associated detent 37 or 38, as the case may be, and holds it in depressed condition in its socket.
  • the shoulder 43 is positioned so that when the pushbutton 10 is in its inserted operating position, the shoulder 43 is exposed just to the under side of the detent 37, whereupon the detent 37 is forced outwardly by its spring against the base of the channel 42 in overlying contact with the shoulder 43 and yieldably restrains the stem of the pushbutton 10 from moving outwardly.
  • the detent 38 engages the shoulder 45 of the stem of the pushbutton 11 when that pushbutton is in its inner operating position.
  • the strength of the springs 39 and 40 are so related to the other springs that they hold whichever pushbutton is in the inner operating position in that position against the force of the return springs, such as the spring 32 of the pushbutton 10 or the spring 33 of the pushbutton 11, plus the added force of the contact seating springs.
  • the cam surface 26 engages the rolling element 30 and applies force through it to the slidable element 31, the rolling element 29, and the cam 22.
  • this applied force becomes sufficient, it forces the pushbutton 10 outwardly, applying the shoulder 43 to the detent 37 with sufiicient force to cam the detent 37 back into its socket against the force of the spring 39.
  • Suitable bridges 48 and 49 in the body provide bottom walls of the sockets 35 and 36.
  • the contacts 20, 21, 24 and 25, with contact points thereon, are mounted in the body by press fitting them into suitable slots in the body. They are preferably tubular so as to permit wires brought through the walls of the terminal box B at suitable knockout points to be connected to them by conventional screws.
  • the entire assemblage can be inserted into the terminal box B.
  • An interlocked pushbutton mechanism comprising: a pair of body members, each open at one face, detachably secured together with their open faces juxtaposed and defining a hollow body with a guideway therein to which access can be gained when one of the body members is removed, a pair of pushbuttons, guide means in the body at opposite ends of the body, respectively, supporting each pushbutton for movement independently of the other in directions inwardly and outwardly of the body and transversely of the guideway, the guide means for each pushbutton including slideways on the inner surfaces of the body members, respectively, each pushbutton having a portion movable thereby and disposed within the body, and each portion having a cam surface thereon, the cam surface of one pushbutton being aligned with one end of the guideway and the cam surface of the other pushbutton being aligned with the other end of the guideway, said cam surfaces being positioned to approach and recede from their associated ends of the guideway upon movement of their associated pushbuttons in said directions, respectively, movable means in
  • said movable means include a pair of rigid rolling elements rollable endwise in the guideway and a rigid member movable endwise of, and disposed therebetween in, the guideway with its opposite ends engaging the rolling elements, respectively.
  • An interlocked pushbutton mechanism comprising: a hollow body, a guideway therein, a pair of pushbuttons, guide means in the body supporting each pushbutton for movement independently of the other in directions inwardly and outwardly of the body, transversely of the guideway at opposite ends of the guideway, respectively, cam means on the pushbuttons, respectively, movable means in the guideway and movable endwise thereof and having additional cam means at its ends, respectively, the additional cam means being cooperable with the cam means on the pushbutton adjacent the associated end of the movable means, respectively, to move each pushbutton outwardly of the body by force transmitted through the cam means and movable means when the other pushbutton is moved inwardly of the body, spring means for the pushbuttons, respectively, each spring means being arranged for continuously urging its associated pushbutton outwardly of the body with predetermined force, spring seated detent means for the pushbuttons, respectively, each spring seated detent means operatively interconnecting the body and its associated pushbutton, when the

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  • Push-Button Switches (AREA)

Description

July 13, 1965 H. P. STOCK PUSHBUTTON SWITCH ASSEMBLY 2 Sheets-Sheet 1 Filed June 15, 1962 R) b m W v V P 4 B W, 424 ATTORNEY.
a ir! 9 a 3 \L .w a 6 r ya July 13, 1965 H. P. STOCK PUSHBUTTON SWITCH ASSEMBLY Filed June 15, 1962 32 4 il !I m m I i; 17 [m m .20 20 jJI .L
' l a 284J 15 b 2 Sheets-Sheet 2 fly? INVENTOR. Jliwwl fl BY2MM I ATTORNEY United States Patent 3,194,899 PUSHBUTTON SWITCH ASSEMBLY Howard P. Stock, Brookfield, Wis, assiguor to Square D Company, Park Ridge, 111., a corporation of Michigan Filed June 15, 1962, Ser. No. 202,791 3 Claims. (Cl. 200-) This invention relates to an interlocking pushbutton switch assembly, and particularly to a dual pushbutton switch assembly provided with an interlock for assuring roper movements of the pushbuttons relative to each other at all times, and with yieldable position retainers by which whichever pushbutton is in one of its predetermined operating positions is retained in that position under yieldable restraint, so as to remain in that position until forced out of that position ,by the interlock upon operation of the other push button.
More specifically, the assemblage is one wherein both pushbuttons are urged outwardly by respective return springs and have portions which carry spring seated contacts, and in which, when one pushbutton is fully inserted in operating position, the interlock prevents the movement of the other pushbutton into the innermost operating position and constrains it to remain in a different position.
Another object is to provide a restraining means, which, when one pushbutton is in an innermost position, cooperates with the pushbutton to hold it in such position against the outward thrust of its return spring and the spring of its contact, but yieldably releases the pushbutton for movement in an outward direction upon predetermined inward movement being exerted on the other pushbutton and transferred by the interlock to the inwardly positioned pushbutton.
Another object is to provide a structure of this character in which the mechanism is included in a hollow body formed of detachable members, at least some of which are readily removable for affording access to the retaining means and the interlock so that each can be removed and replaced readily as required.
, ,Various other objects and advantages will become apparent from the following description, wherein reference is made to the drawings, in which:
FIG. 1 is a top plan view of the switch embodying the principles of the present invention;
FIG. 2 is a vfront elevation of'the switch illustrated in FIG. 1;
FIG. 3 is a right end in FIG. 1;
FIG. 4 is a vertical longitudinal sectional view taken on line 44 in FIGS. 1 and 5;
FIG. 5 is a vertical cross sectional View taken on the line 5-5 in FIG. 4;
FIGS. 6 and 7 are horizontal sectional views taken on the lines 6-6 and 7-7, respectively, of FIG. 4; and
FIG. 8 is a horizontal sectional view through one of the pushbutton stems and is taken on the line 8-3 of FIG. 4.
Referring to the drawings, the mechanism comprises a body 1 formed of two detachable members, a forward member 1a and a rearward member 1b. These members preferably are duplicates of each other, and are assembled by being engaged at their open sides along a plane extending through the axes of the two pushbutton s. A forwardly and rearw-ardly extending H shape metal tie member 2 extends through the assembled members 1a and 1b in intersection relation to the plane. Screws 3 extend through a supporting plate 4 and are in threaded engagement with the H-shaped tie member 2 at their inner ends, thus holding the two body members in assembled relation. The plate 4 has notches 5 for receiving screws for mounting the switch in a conventional switch box B. Each body member has external notches 6 which receive ribs 7 on elevation of the switch illustrated 3,194,899 Patented July 13, 1965 C ce the plate 4 for assisting in holding the body members firmly together.
Carried by the body 1 are two duplicate pushbuttons 10 and 11. The pushbutton It) has an elongated stem 12 having a plurality of guide ribs 13 which extend endwise thereof and slidably engage the complementarily contoured inner walls of .a passage 1-4 in the upper portion of the body, so as to slidably support the stem for endwise movement relative to the body while assuring proper guided lineal movement of the pushbutton stem 12.
At its lower end, the pushbutton stem 12 has a flattened portion 15 through which is a rectangular opening 16 which receives a contact 17 having a reduced width central portion 18. Thewidth of the opening is greater than that of the reduced width portion and less than that of the portions of the contact adjacent to the reduced width portion for preventing endwise displacement of the contact. The contact is urged to the bottom of the opening by a suit-able spring 19 so that it can be placed in resilient pressure contact with the lower contacts 20 in the body upon inward movement of the pushbutton to a predeter- 1 body. The lower end of the stem of the pushbutton 11 has a cam surface 26 identical with the cam surface 22 and facing toward the cam surface 22. These cam surfaces preferably are linear .and slope downwardly away from each other at equal angles to the paths of the pushbuttons.
Between the cam surfaces, the body has a transverse guideway 28 so arranged so that the cam surfaces 22 and 26 are exposed in alignment with the opposite ends of the guideway, respectively. Rigid force transmitting elements are disposed in the guideways and engage the cams. In the form illustrated, these elements include two rolling elements 29 and 30 with a sliding-element 31 therebetween. The overall length of the two rolling elements and sliding element, when they are in contact with each other endwise of the guideway 28 is such that they are at all times substantially in contact with both of the cam surfaces 22 and 26. Since one pushbutton is to be out while the other is in, they are in con-tact concurrently with the upper portion of the cam of the pushbutton which is inwardly and the lower portion of the cam of the pushbutton which is outwardly. Since this distance is fixed and these elements are substantially incompressible endwise, it is apparent that when either pushbutton is moved to its inward operating position, the other pushbutton is in an outward operating position. It is impossible to have both pushbuttons in their inner position at the same time.
It is desirable that each pushbutton be urged outwardly by a return spring. For example, the pushbutton 10 is urged outwardly by a spring 32 and the pushbutton 11 by a spring 33. However, it is desirable also that when either pushbutton is in, a fully inserted position that it be retained in that position yieldably so as not to be moved outwardly by its spring or by the pressure of the spring of its contact. For example, with pushbutton 10 inwardly, it is to be retained against the force of the spring 32 and the added force of the spring 19. The same is true of the pushbutton 11 and its springs when it is in the inward position. For this purpose, yieldable restraining means are provided. Since they are the same for both pushbuttons, that for the pushbutton 10 only will be described in detail. The two members or halves 1a and 1b of the body define, when assembled, two sockets 35 and 36. In the socket 35 is a detent member 37 and in the socket 36 is a detent member 38. Springs 39 and 40, respectively, are provided in the sockets 35 and 36 behind the detents 37 and 38 and yieldably urge the detents outwardly toward the stems of the pushbuttons, respectively. The stem of the pushbutton has on its inner face a channel 42 which, at the bottom, terminates in a latching shoulder 43. correspondingly, the stem of the pushbutton 11 has a channel 44 which at its bottom terminates in a latching shoulder 45. Also, the stem of the pushbutton 10 has a barrier surface 46 and the stem of the pushbutton 11 has a barrier surface 47. In the outward position of either pushbutton, its barrier surface engages the associated detent 37 or 38, as the case may be, and holds it in depressed condition in its socket. The shoulder 43 is positioned so that when the pushbutton 10 is in its inserted operating position, the shoulder 43 is exposed just to the under side of the detent 37, whereupon the detent 37 is forced outwardly by its spring against the base of the channel 42 in overlying contact with the shoulder 43 and yieldably restrains the stem of the pushbutton 10 from moving outwardly. Correspondingly, the detent 38 engages the shoulder 45 of the stem of the pushbutton 11 when that pushbutton is in its inner operating position.
The strength of the springs 39 and 40 are so related to the other springs that they hold whichever pushbutton is in the inner operating position in that position against the force of the return springs, such as the spring 32 of the pushbutton 10 or the spring 33 of the pushbutton 11, plus the added force of the contact seating springs. However, when the pushbutton 11 is forced downwardly, the cam surface 26 engages the rolling element 30 and applies force through it to the slidable element 31, the rolling element 29, and the cam 22. When this applied force becomes sufficient, it forces the pushbutton 10 outwardly, applying the shoulder 43 to the detent 37 with sufiicient force to cam the detent 37 back into its socket against the force of the spring 39. Suitable bridges 48 and 49 in the body provide bottom walls of the sockets 35 and 36.
In assembling the mechanism, it is only necessary to place the stems of the pushbuttons in one body member 1b of the body in their proper position therein, insert the rolling elements 29 and 3t) and the sliding element 31, insert the detents 37 and 38 and their springs 39 and 40 in the partial sockets 35 and 36 in the member 1b, insert the element 2 so that its narrow central portion lies between the bases of the springs 39 and 40, and then place the body member la in place thereon, pressing the members la and 1b firmly together. The pushbuttons both are depressed slightly and the screws inserted through the members In and 112, respectively, and screwed firmly into the member 2, whereby the body members are connected together and to the supporting plate 4 and held in position. The contacts 20, 21, 24 and 25, with contact points thereon, are mounted in the body by press fitting them into suitable slots in the body. They are preferably tubular so as to permit wires brought through the walls of the terminal box B at suitable knockout points to be connected to them by conventional screws.
In this condition, after the wires are connected, the entire assemblage can be inserted into the terminal box B.
Having thus described my invention, I claim:
ll. An interlocked pushbutton mechanism comprising: a pair of body members, each open at one face, detachably secured together with their open faces juxtaposed and defining a hollow body with a guideway therein to which access can be gained when one of the body members is removed, a pair of pushbuttons, guide means in the body at opposite ends of the body, respectively, supporting each pushbutton for movement independently of the other in directions inwardly and outwardly of the body and transversely of the guideway, the guide means for each pushbutton including slideways on the inner surfaces of the body members, respectively, each pushbutton having a portion movable thereby and disposed within the body, and each portion having a cam surface thereon, the cam surface of one pushbutton being aligned with one end of the guideway and the cam surface of the other pushbutton being aligned with the other end of the guideway, said cam surfaces being positioned to approach and recede from their associated ends of the guideway upon movement of their associated pushbuttons in said directions, respectively, movable means in the guideway and movable endwise thereof and being substantially incompressible endwise thereof, and said movable means being of such length relative to the space between said cam surfaces that one cam surface must be in receded position when the other is in the approached position, and that the movable means transfers sufficient force from each cam surface, as it approaches its associated end of the guideway, to the other cam surface to cause said other cam surface to recede from the end of the guideway associated with said other cam surface, and complementary contact means including stationary contacts in the body and movable contacts carried by the pushbuttons, respectively, and cooperable with the stationary contacts in the body.
2. The mechanism according to claim 1 wherein said movable means include a pair of rigid rolling elements rollable endwise in the guideway and a rigid member movable endwise of, and disposed therebetween in, the guideway with its opposite ends engaging the rolling elements, respectively.
3. An interlocked pushbutton mechanism comprising: a hollow body, a guideway therein, a pair of pushbuttons, guide means in the body supporting each pushbutton for movement independently of the other in directions inwardly and outwardly of the body, transversely of the guideway at opposite ends of the guideway, respectively, cam means on the pushbuttons, respectively, movable means in the guideway and movable endwise thereof and having additional cam means at its ends, respectively, the additional cam means being cooperable with the cam means on the pushbutton adjacent the associated end of the movable means, respectively, to move each pushbutton outwardly of the body by force transmitted through the cam means and movable means when the other pushbutton is moved inwardly of the body, spring means for the pushbuttons, respectively, each spring means being arranged for continuously urging its associated pushbutton outwardly of the body with predetermined force, spring seated detent means for the pushbuttons, respectively, each spring seated detent means operatively interconnecting the body and its associated pushbutton, when the associated pushbutton is in its inward position, under yielding force sufficient to constrain the associated push button from movement outwardly of the body by its spring means, and to release its associated pushbutton when the force of the associated spring means is augmented by additional force applied to the other pushbutton to move it inwardly and transmitted from the other pushbutton to said associated pushbutton through the cooperation of the cam means and movable means.
References Cited by the Examiner UNITED STATES PATENTS 1,196,637 8/16 Apple 200-159 FOREIGN PATENTS 607,670 3/46 Great Britain.
BERNARD A. GILHEANY, Primary Examiner.

Claims (1)

1. AN INTERLOCKED PUSHBUTTON MECHANISM COMPRISING: A PAIR OF BODY MEMBERS, EACH OPEN AT ONE FACE, DETACHABLY SECURED TOGETHER WITH THEIR OPEN FACES JUXTAPOSED AND DEFINING A HOLLOW BODY WITH A GUIDEWAY THEREIN TO WHICH ACCESS CAN BE GAINED WHEN ONE OF THE BODY MEMBERS IS REMOVED, A PAIR OF PUSHBUTTONS, GUIDE MEANS IN THE BODY AT OPPOSITE ENDS OF THE BODY, RESPECTIVELY, SUPPORTING EACH PUSHBUTTON FOR MOVEMENT INDEPENDENTLY OF THE OTHER IN DIRECTIONS INWARDLY AND OUTWARDLY OF THE BODY AND TRANSVERSELY OF THE GUIDEWAY, THE GUIDE MEANS FOR EACH PUSHBUTTON INCLUDING SLIDEWAYS ON THE INNER SURFACES OF THE BODY MEMBERS, RESPECTIVELY, EACH PUSHBUTTON HAVING A PORTION MOVABLE THEREBY AND DISPOSED WITHIN THE BODY, AND EACH PORTION HAVING A CAM SURFACE THEREON, THE CAM SURFACE OF ONE PUSHBUTTON BEING ALIGNED WITH ONE END OF THE GUIDEWAY AND THE CAM SURFACE OF THE OTHER PUSHBUTTON BEING ALIGNED WITH THE OTHER END OF THE GUIDEWAY, SAID CAM SURFACES BEING POSITIONED TO APPROACH AND RECEDE FROM THEIR ASSOCIATED ENDS OF THE GUIDEWAY AND MOVEMENT OF THEIR ASSOCIATED PUSHBUTTON IN SAID DIRECTIONS, RESPECTIVELY, MOVABLE MEANS IN THE GUIDEWAY AND MOVABLE ENDWISE THEREOF AND BEING SUBSTANTIALLY INCOMPRESSIBLE ENDWISE THEREOF, AND SAID MOVABLE MEANS BEING OF SUCH LENGTH RELATIVE TO THE SPACE BETWEEN SAID CAM SURFACES THAT ONE CAM SURFACE MUST BE IN RECEDED POSITION WHEN THE OTHER IS IN THE APPROACHED POSITION, AND THAT THE MOVABLE MEANS TRANSFERS SUFFICIENT FORCE FROM EACH CAM SURFACE, AS IT APPROACHES ITS ASSOCIATED END OF THE GUIDEWAY, TO THE OTHER CAM SURFACE TO CAUSE SAID OTHER CAM SURFACE TO RECEDE FROM THE END OF THE GUIDEWAY ASSOCIATED WITH SAID OTHER CAM SURFACE, AND COMPLEMENTARY CONTACT MEANS INCLUDING STATIONARY CONTACTS IN THE BODY AND MOVABLE CONTACTS CARRIED BY THE PUSHBUTTONS, RESPECTIVELY, AND COOPERABLE WITH THE STATIONARY CONTACTS IN THE BODY.
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3281544A (en) * 1964-11-20 1966-10-25 Switchcraft Push rod mechanism with accumulative lock apparatus
US4695691A (en) * 1985-01-14 1987-09-22 Aktieselskabet Laur.Knudsen Nordisk Elektricitets Selskab Switch housing having fixed external nuts for attachment of contacts and terminals

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1196637A (en) * 1915-04-14 1916-08-29 Vincent G Apple Switch.
GB607670A (en) * 1946-03-11 1948-09-02 Dowty Equipment Ltd Improvements in push button control devices

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1196637A (en) * 1915-04-14 1916-08-29 Vincent G Apple Switch.
GB607670A (en) * 1946-03-11 1948-09-02 Dowty Equipment Ltd Improvements in push button control devices

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3281544A (en) * 1964-11-20 1966-10-25 Switchcraft Push rod mechanism with accumulative lock apparatus
US4695691A (en) * 1985-01-14 1987-09-22 Aktieselskabet Laur.Knudsen Nordisk Elektricitets Selskab Switch housing having fixed external nuts for attachment of contacts and terminals

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