US3144524A - Web actuated switch - Google Patents

Web actuated switch Download PDF

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Publication number
US3144524A
US3144524A US175718A US17571862A US3144524A US 3144524 A US3144524 A US 3144524A US 175718 A US175718 A US 175718A US 17571862 A US17571862 A US 17571862A US 3144524 A US3144524 A US 3144524A
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US
United States
Prior art keywords
sensing
web
contact
members
contact member
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Expired - Lifetime
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US175718A
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English (en)
Inventor
Melville S Hawley
Harold J Hershey
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AT&T Corp
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Bell Telephone Laboratories Inc
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Filing date
Publication date
Priority to NL289418D priority Critical patent/NL289418A/xx
Priority to BE628838D priority patent/BE628838A/fr
Application filed by Bell Telephone Laboratories Inc filed Critical Bell Telephone Laboratories Inc
Priority to US175718A priority patent/US3144524A/en
Priority to FR924722A priority patent/FR1353704A/fr
Priority to GB6983/63A priority patent/GB1025447A/en
Application granted granted Critical
Publication of US3144524A publication Critical patent/US3144524A/en
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H1/00Contacts
    • H01H1/12Contacts characterised by the manner in which co-operating contacts engage
    • H01H1/14Contacts characterised by the manner in which co-operating contacts engage by abutting
    • H01H1/24Contacts characterised by the manner in which co-operating contacts engage by abutting with resilient mounting
    • H01H1/26Contacts characterised by the manner in which co-operating contacts engage by abutting with resilient mounting with spring blade support
    • H01H1/28Assembly of three or more contact-supporting spring blades
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B19/00Programme-control systems
    • G05B19/02Programme-control systems electric
    • G05B19/04Programme control other than numerical control, i.e. in sequence controllers or logic controllers
    • G05B19/12Programme control other than numerical control, i.e. in sequence controllers or logic controllers using record carriers
    • G05B19/14Programme control other than numerical control, i.e. in sequence controllers or logic controllers using record carriers using punched cards or tapes
    • 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
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H43/00Time or time-programme switches providing a choice of time-intervals for executing one or more switching actions and automatically terminating their operations after the programme is completed
    • H01H43/02Details
    • H01H43/04Means for time setting
    • H01H43/08Means for time setting comprising an interchangeable programme part which is common for all programme steps, e.g. with a punched card

Definitions

  • This invention relates to switches and particularly to switches operated responsive to the presence of coding on a web moving relative to the switches.
  • Information is commonly stored on a web having a plurality of rows of spaced index positions by perforating particular index positions within each row, the information stored being directly related to the particular index position or positions within a row that are perforated.
  • the information is then retrieved from the web by passing it through a reading device that scans the web, detects the presence of the perforations, and translates the stored information.
  • the perforations in the web are commonly sensed in the reading device by means of a gang of electric brushes, the perforated web passing between the brushes and conductors underlying the brushes.
  • the individual brushes are aligned with the index position locations of the web, and when a perforation moves beneath a brush, the brush reaches through the perforation and makes contact with the conductor on the other side of the web.
  • the brushes are current carrying members, should a conductive body, rather than a nonconductive web be inadvertently inserted into the sensing device, serious damage to the device may result.
  • the pressure that the brushes may exert against the web is limited, since too high a contact pressure could result in the friction between the brushes and the web impeding the movement of the web and scratching or tearing the surface of the web.
  • the brushes are fixed members and therefore a small misalignment between the brushes and the perforations may result in the brushes not making contact through the perforations.
  • An object of this invention is to provide an encoded web responsive switch that does not suffer from the aforementioned disadvantages.
  • the switch comprises a dielectric separator that accommodates the encoded web along the front side thereof and has a plurality of contact members situated on the back side thereof.
  • the separator has a row of apertures therein that lie in a line transverse to the direction of the movement of the web, the apertures being in register with the index position locations on the web.
  • a dielectric sensing member is situated in each aperture, and each sensing member is independently movable normal to the web between a first position wherein it rests on the surface of the web and a second position wherein it is situated in a perforation in the web.
  • Each sensing member includes a roller at the front end thereof for making roiling contact with the web.
  • Each sensing member further includes portions, situated on the back side of the separator, for engaging a datum bar common to all sensing members. The datum bar merely rests on the engaging portions of the sensing members, and thus the sensing members are individually movable relative to "ice the datum bar. Because there are at least two sensing members in a first position at all times, the datum bar is maintained a substantially constant distance from the web.
  • the stationary contact member rests on and biases the datum bar toward the engaging portions of the sensing member, the stationary contact member being maintained a substantialiy constant distance from the web by the datum bar.
  • the moving contact member rests on the back end of the sensing member and biases the sensing member against the web, the moving contact member moving with the sensing member when it moves between its first and its second position.
  • the transferring contact member extends behind both the stationary and the moving contact members and is biased toward the web.
  • the moving contact member When a sensing member is resting on a nonperforated portion of the web and therefore is in its first position, the moving contact member is spaced a greater distance from the web than the stationary contact member, and the transferring contact member thus engages the moving contact member.
  • a perforation passes in front of the sensing member and the bias of the moving contact member moves the sensing member into the perforation, thereby placing the sensing member in its second position, the moving contact member is closer to the web than the stationary contact member, and the transferring contact member engages the stationary contact member.
  • the sensing member moves from its first to its second position, the transferring contact member moves with the moving contact member until the transferring contact member is arrested by its engagement with the stationary contact member, making contact therewith.
  • the moving contact member continues its forward movement with the sensing member, and thus immediately thereafter it breaks contact with the transferring contact member.
  • a feature of this invention resides in the contact members being isolated and insulated from the web by dielectric sensing members and a dielectric separator, thereby eliminating the possibility of the contact members being contaminated by dirt on the web or the device with which the switch is associated being damaged by a conductive body coming into contact with the contact members.
  • Another feature of this invention resides in the sensing members having wheels for making rolling contact with the Web, thereby permitting the use of high contact pressures between the sensing members and the web without fear of abrading the surface or interfering with the movement of the Web.
  • a further feature of this invention resides in the sensing members being movable relative to the contact members associated therewith, thereby allowing the sensing members to move into perforations in the web that are slightly misaligned.
  • a still further feature of this invention resides in the datum bar being supported by the sensing members at a substantially constant distance from and parallel to the surface of the web, thereby making the switch insensitive to Web thickness.
  • Still another feature of this invention resides in the separation between contact members being automatically determined by the dimensions of the sensing members and the datum bar, thereby eliminating the costly operation of adjusting contact separation by bending the contact members.
  • FIG. 1 is a perspective View of a first embodiment of the switch with some parts broken away and moved out of position for greater clarity;
  • FIG. 2 is a sectional view of the switch showing the positions of a single grouping of contact members when the sensing member associated therewitn is situated on a nonperforated portion of the web;
  • FIG. 3 is a view similar to FIG. 2 except showing the positions of the contact members when the sensing member associated therewith is situated in a perforation in the web;
  • FIG. 4 is a fragmentary perspective view of a second embodiment of the switch.
  • the switch comprises a dielectric separator E6 having an entryway if for receiving an encoded web 12.
  • the web includes a plurality of parallel rows of spaced index positions 14, and information is coded on the web by perforating one or sore index positions in each row.
  • the entryway 11 in conjunction with a pair of side guide rails 15 and a guide wall 36 direct the web along a front surface 17 of the separator and direct the rows of index positions on the web transverse to a row of apertures 18 in the separator, only the aperture at the far right being clearly visible.
  • the number of apertures 13 is equal to the number of index positions 1-; in each row, and when the web is moving along the front of the separator, the apertures lie in a line parallel to the rows of index positions, and the individual apertures are in register with the individual index positions in each row.
  • the top and bottom surfaces of the apertures 13 are respectively extended rearwardly by means of a shelf 29 and a comb 22 projecting from the back side of the separator.
  • a dielectric sensing member 24 is accommodated by each aperture 13 in tie separaor i
  • Each sensing member comprises a head 25, a shaft 23 that extends rearwardly from the head, and an arm 30 that extends laterally at the junction of the head the shaft.
  • Each sensing member is positioned with the head thereof extending through one of the apertures and with the arm and shaft thereof located on the back of the separator.
  • each sensing member 2.4 tapers to a blunt point at the front end thereof and is bifurcated, and a wheel 32 is situated between and journaled in the bifurcations, the wheel being located so that a smail portion of the wheel extends to the fore of the head.
  • the axis of rotation of the wheel extends parallel to the plane of the separator 13 and transverse to the length of the guide rails 15.
  • the wheel is adapted to malte rolling contact with the facing surface of the web as the web moves along the front of the separator, the front of the wheel providing the sensing member with a web engaging surface 33.
  • the shafts 28 of the sensing members 24 are respectively accommodated by apertures 34 in a dielectric datum bar 36 that is positioned over the shafts, the datum bar being situated between the shelf 2i and the comb 22.
  • the height of the datum bar is slightly less than the distance between the shelf and the comb, and the length of the bar is slightly less than the distance between a pair of side walls 37.
  • the apertures 34 in the datum bar are slightly larger than the shafts 23 of the sensing members.
  • the apertures 18 in the separator are slightly larger than the largest dimensions of the heads 26 of the sensing members 24, and consequently the individual sensing members are movable relative to the separator.
  • the apertures in the separator in conjunction with the shelf 2t and the comb 22 interact with the heads of.
  • the sensing members and the apertures 33 in the datum bar 35 interact with the shafts 2b of the sensing members to tend to limit the movement of the sensing members to a direction perpendicular to the plane of the separator.
  • due to the taper of the heads they advantageously have a preselected amount of freedom of movement parallel to the plane of the separator. This movement of the heads results in the sensing members pivoting about their shafts at the point of intersection of the shafts with the datum bar.
  • the arms 30 of the sensing members 24 are located intermediate the datum bar 36 and the rear surface of the separator 10, and the distance between the ends of the arms is greater than the width of the apertures 18 in the separator and the apertures 34 in the datum bar.
  • the front surfaces of the arms provide the sensing members with separator engaging surfaces 33 that cooperate with sensing member engaging surfaces 40 on the separator to limit the forward movement of the sensing members.
  • the rear surfaces of the arms provide the sensing members with datum bar engaging surfaces 42 that cooperate with a sensing member engaging surface 44 on the datum bar to deflect the datum bar rearwardly when the sensing members are deflected rearwardly.
  • the separator engaging surfaces 33 and the datum bar engaging surfaces 42 curve convexly so as not to interfere with the above-mentioned freedom of. movement when either of the surfaces are in engagement with the surfaces cooperating therewith.
  • the sensing member engaging surface 44 of the datum bar 36 is biased toward the datum bar engaging surfaces 42 of the sensing members 24 and the separator engaging surfaces 38 of the sensing members are biased toward the sensing member engaging surfaces 40 of the separator 10 by a plurality of groupings of cantilever wire spring contact members.
  • An individual grouping of contact members is associated with each sensing member, and each grouping comprises a stationary contact member 46, a moving contact member 48, and a transferring contact member 56.
  • the stationary contact member 46 of each grouping is biased against positions protruding from a rear surface 52 of the datum bar, the rearward surface of the protruding portions providing the datum bar with contact engaging surfaces 54.
  • the moving contact member 48 of each grouping is spaced from the stationary contact member and is biased against the rear surface of the shaft 23 of the sensing member with which it is associated, the rear surface of the shaft providing the sensing memer with a contact engaging surface 56.
  • the transferring contact member 50 of each grouping is situated to the rear of both the stationary contact member and the moving contact member and is biased theretoward, the transferring contact member being bifurcated to increase the reliability and reduce the noise of the switch.
  • the lower ends (not shown) of the contact members are secured in their proper position by any well known means such as being potted in a dielectric material, while the upper unsecured ends of the contact members are maintained in the proper transfer spatial relationship by the comb 22.
  • the teeth of the comb besides maintaining the spacing between contact members serve to limit the movement of the contact members to a direction perpendicular to the plane of the separator.
  • the distance between the web engaging surface 33 and the we 13) separator engaging surface 38 of each sensing member 24 is greater than the distance between the front surface 17 and the sensing member engaging surfaces 40 of the separator 10, whereby when the separator engaging surface 38 of the sensing member rests against the sensing member engaging surfaces 40 of the separator, the front end of the sensing member protrudes beyond the front surface of the separator.
  • Each sensing member is thereby in a position to be deflected rearwardly by the movement of a web 12 along the front of the separator and to move into a perforation in the web when such appears therebefore.
  • the distance between the datum bar engaging surface 42 and the contact engaging surface 56 of each sensing member 24 is greater than the distance between the sensing member engaging surface 44 and the contact engaging surface 54 of the datum bar 36, whereby when the sensing member engaging surface 44 of the datum bar rests on the datum bar engaging surface of a sensing member, the contact engaging surface 54 of the datum bar is forward of the contact engaging surface 56 of the sensing member.
  • the distance between the contact engaging surface 56 of the sensing member 24 and the contact engaging surface 54 of the datum bar 36 when the datum bar is in the above position is less than the distance moved by the sensing member when it moves from the surface of an encoded web 12 into a perforation in the web.
  • the distance between the contact engaging surface 56 of the sensing member and the rear surface 52 of the datum bar when the datum bar is in the above position is slightly greater than the distance moved by the sensing member when it moves from the surface of the encoded web into a perforation in the web.
  • the sensing members 24 are deflected rearwardly by the web.
  • the moving contact members 48 resting on the contact engaging surfaces 56 of the sensing members are deflected rearwardly.
  • the stationary contact members 46 which rest on the contact engaging surfaces 54 of the datum bar 36 and bias the sensing member engaging surface 44 of the datum bar against the datum bar engaging surfaces 42 of the sensing members, are also deilected rearwardly. Since in this position the contact engaging surfaces 54 of the datum bar are forward of the contact engaging surfaces 56 of the sensing members, the stationary contact members 46 are forward of the moving contact members 48 and the transferring contact members 50 thereby engage the moving contact members.
  • the bias of the moving contact member 48 acting on the sensing member causes the sensing member to tilt upward and commence to move into the perforation before the perforation is directly before it.
  • the moving contact member 48 in engagement with the sensing member and the transferring contact member 50 in engagement with the moving contact member move with the sensing member.
  • the stationary contact member 46 in engagement with the datum bar does not move since the sensing members 24 not having a perforation therebefore maintain the datum bar a constant distance from the facing surface of the web.
  • the transferring contact member 50 moves with the moving contact member 48 until the motion of the transferring contact member is arrested by its engagement with the stationary contact member 46 and for an instant the transferring contact member St) is in engagement with both the moving contact member 48 and the stationary contact member as. Immediately thereafter, however,
  • the moving contact member 48 breaks with the transfer ring contact member, since the moving contact member continues to follow the forward motion of the sensing member. And when, as shown in FIG. 3, the sensing member is fully positioned in the perforation in the web, the moving contact member 48 is positioned forward of the stationary contact member 46 and the transferring contact member 5% is therefore in engagement with the stationary contact member.
  • the sensing member 24 positioned in the perforation tends to remain in the perforation, the sensing member following the movement of the web as long as it is able and thereby extending the period of time during which the transferring contact member 50 is in engagement with the stationary contact member 45 and out of engagement with the moving contact member 48.
  • the upper edge of the perforation engages the wheel 32 of the sensing member and commences to deflect the sensing member rearwardly.
  • the moving contact member 48 is, consequently, also moved rearwardly and eventually the sensing member moves the moving contact member into engagement with the transferring contact member 50.
  • the transferring contact member is again in engagement with both the moving contact member and the stationary contact member 46 but immediately thereafter the moving contact member lifts the transferring contact member off of the stationary contact member and moves it a spaced distance therefrom.
  • sensing members 24 since not all the sensing members 24 detect and move into perforations in the web 12 at one time, there is a plurality of sensing members resting on the facing surface of the web at all times. These sensing members maintain the datum bar 36 and thereby the stationary contact members 4-6 at a constant distance from and parallel to the surface of the web. Therefore as long as the perforations in the web are substantially the same size, whereby the sensing members and thereby the moving contact members 48 move a substantially constant distance forward upon the movement of the sensing members into a perforation, the thickness of the web may vary and the web may be warped longitudinally without affecting the gaps between the contact members.
  • sensing members 58 it may be found desirable, depending upon the manner in which information is coded on the Web 12, to provide one or more sensing members 58, one of which is seen at the upper left of FIG. 1, situated in apertures in the separator lit) that are in line with the apertures 18 in the separator but are not in register with index positions 14 on the web.
  • These sensing members 58 always ride on the facing surface of the web, and therefore serve to support the datum bar 36 and prevent it from assuming a nonparallel position relative to the facing surface of the web should several sensing members 24 at one end of the datum bar move into perforations in the web all at one time.
  • the stationary contact members 46 and the moving contact members 48 are provided with individual dielectric sensing members 60 and 62, respectively, the transferring contact member 5% overlying both the stationary and the moving contact members.
  • the middle and front portions of the sensing members db and 62 are the same as the sensing members 24 but the back portions are modified in that they are slotted for accommodating the contact members, the stationary contact member as resting on a contact engaging surface 64 of the sensing member as and the moving contact member 48' resting on a contact engaging surface 66 of the sensing member 62.
  • the sensing members 60 and 52 respectively extend through apertures 68 and 7b in a separator Iii.
  • the apertures 68 and 7b are both in a line parallel to the rows of index positions in the web, but the apertures 63 are in register with the spaces between the index positions while the apertures 7b are in register with the index positions themselves.
  • be sensing member 62 therefore, always rides on the surface of the web, and the stationary contact member 36' associated therewith is thereby spaced a constant distance from the surface of the web.
  • the sensing member 62 is therefore, always rides on the surface of the web, and the stationary contact member 36' associated therewith is thereby spaced a constant distance from the surface of the web.
  • the contact engaging surface or is spaced a smaller distance from the front end of the sensing member 60 than the contact engaging surface 66 is spaced from the front end of the sensing member 62.
  • the distance between the contact engaging surface 64 and the contact engaging surface 66 when both the sensing members 6t) and 62 are resting on the facing surface of a web is less than the distance moved by the sensing member 62 when it moves from the facing surface of a web into a perforation in the web.
  • the moving contact member 43' is spaced a greater distance from the surface than the stationary contact member 46 and the transferring contact member 50 therefore engages the moving contact member.
  • the moving contact member and the transferring contact member move therewith.
  • the movement of the transferring contact member 58- is arrested upon its engagement with the stationary contact member 46.
  • the transferring contact member 59' engages both the stationary contact member 46' and the moving contact member 43', but since the sensing member 62 continues its forward movement, the moving contact member 43 moves away from the transferring contact member 59' to a position where it is spaced closer to the surface of the web than the stationary contact member 46, leaving the transferring contact member 59' in engagement with the stationary contact member.
  • the moving contact member 4-8 Upon the sensing member 62 moving out of a perforation, the moving contact member 4-8 is deflected rearwardly into engagement with the transferring contact member 53'. Again for an instant the transferring contact member 53" is in engagement wi h both the stationary contact member #16 and the moving Contact member 5-3. but then the rearward movement of the sensing member 62 causes the moving contact member to lift the transferring contact member 55b off of the stationary contact member 46 and the transferring Contact member 50' is again in engagement with only the moving contact memher.
  • the position of the stationary contact member is determined by its own individual sen ing member which is in close proximity to the sensing member associated wit the moving contact member, the between the contact members in addition to being unaffected by web thickness and longitudinal warp are also nnaiected by transverse warp.
  • a switch actuatable responsive to coding on a web moving relative to the switch comprising:
  • the first contact member being situated a substantially constant distance from the upper surface of the Web;
  • the second contact member being movable between a first and a second position responsive to the presence of coding on the web, the second contact member in its first position being spaced a greater distance from the upper surface of the web than the first contact member and in its second position being spaced a shorter distance from the upper surface of the web than the first contact member;
  • the third contact member overlying both the first and the second contact members and being biased theretoward, the third contact member engaging the second contact member when it is in its first position and following the second contact member as the second contact member moves from its first to its secend position, the movement of the third contact member being arrested by its engagement with the first contact member whereupon the third contact member makes with the first contact member and immediately thereafter breaks with the second contact member as the second contact member continues its movement toward its second position.
  • a switch as in claim 1 further including sensing means for maintaining the first contact member a substantially constant distance from the upper surface of the web and actuating the second contact member responsive to the presence of coding on the Web, the sensing means being situated intermediate the contact members and the web and including portions engaging the upper surface of the web.
  • a switch as in claim 1 further including a first sensing member situated intermediate the first contact member and the web and engaging an uncoded portion of the web, the first sensing member maintaining the first contact member a substantially constant distance from and electrically insulating the first contact member from the surface of the web.
  • a switch as in claim 3 further including a second sensing member situated intermediate the second contact member and the web and engaging an uncoded portion of the web, the second sensing member moving the second contact member between its first and second position responsive to the presence of coding in the web.
  • a switch as in claim 4 further including a separator intermediate the contact members and the web, the separator having apertures therein through which the first and the second sensing members extend, the separator including means for generally directing the movement of the sensing members and the movement of the contact members perpendicular to the plane of the web.
  • a switch actuatable responsive to coding on a web moving relative to the switch comprisin a plurality of groupings of contact members adapted to overlie the web, each grouping comprising a stationary contact member, a movable contact member, and a transferring contact member overlying both the stationary contact member and the moving contact member and being biased theretoward; and
  • the intermediate means including means for maintaining the stationary contact members a substantially constant distance from the upper surface of the web and means for moving the moving contact member between a first and a second position responsive to the presence of coding on the web, the moving contact member in its first position being spaced a greater distance from the upper surface of the web and the stationary contact member and in its second position being spaced a shorter distance from the upper surface of the web than the stationary contact member.
  • a switch actuatable responsive to coding on an encoded web moving relative to the switch comprising:
  • each of the sensing members being independently movable between a first and a second position responsive to the presence of coding on the web, and each sensing member having a datum means engaging surface intermediate the lower and upper ends thereof and a contact engaging surface at the upper end thereof;
  • the datum means overlying the sensing members, the datum means having a sensing member engaging surface at the lower end thereof, the sensing member engaging surface resting on the datum means engaging surfaces of two or more of the sensing members, the datum means further having a contact engaging surface at the upper end thereof, the distance between the sensing member engaging surface and the contact engaging surface of the datum means being less than the distance between the datum means engaging surfaces and the contact engaging surfaces of the sensing members, whereby when the sensing member engaging surface of the datum means rests on the datum means engaging surface of a sensing member the contact engaging surface of the datum means is below the contact engaging surface of the sensing member, the distance between the contact engaging surface of the dataum means and the contact engaging surface of the sensing member being less than the distance between the first and the second positions of the sensing members;
  • first contact member associated with each sensing member, the first contact member engaging the contact engaging surface of the datum means and biasing the datum means toward the datum means engaging surface of the sensing member;
  • a switch actuatable responsive to coding on an encoded web moving relative to the switch comprising:
  • each of the sensing members being independently movable between a first and a second position responsive to the presence of coding on the web, and each sensing member having a datum means engaging surface intermediate the lower and upper ends thereof and a contact engaging surface at the upper end thereof;
  • the datum means overlying the sensing members, the datum means having a sensing member engaging surface at the lower end thereof, the sensing member engaging surface resting on the datum means engaging surfaces of two or more of the sensing members, the datum means further having a contact engaging surface at the upper end thereof, the distance between the sensing member engaging surface and the contact engaging surface of the datum means being less than the distance between the datum means engaging surfaces and the contact engaging surfaces of the sensing members, whereby when the sensing member engaging surface of the datum means rests on the datum means engaging surface of a sensing member the contact engaging surface of the datum means is below the contact engaging surface of the sensing member, the distance between the contact engaging surface of the datum means and the contact engaging surface of the sensing member being less than the distance between the first and the second positions of the sensing members;
  • first contact member associated with each sensing member, the first contact member engaging the contact engaging surface of the sensing member and biasing the sensing member toward its second posi tion;
  • a switch actuatable responsive to coding on an encoded web moving relative to the switch comprising:
  • each of the sensing members being independently movable between a first and a second position responsive to the presence of coding on the web, and each sensing member having a datum means engaging surface intermediate the lower and upper ends thereof and a contact engaging surface at the upper end thereof;
  • the datum means overlying the sensing members, the datum means having a sensing member engaging surface at the lower end thereof, the sensing member engaging surface resting on the datum means engaging surfaces of two or more of the sensing members, the datum means further having a contact engaging surface at the upper end thereof, the distance between the sensing member engaging surface and the contact engaging surface of the datum means being less than the distance between the datum means engaging surfaces and the contact engaging surfaces of the sensing members, whereby when the sensing member engaging surface of the datum means rests on the datum means engaging surface of a sensing member the contact engaging surface of the datum means is below the contact engaging surface of the sensing member, the distance between the contact engaging surface of the datum means and the contact engaging surface of the sensing member being less than the distance between the first and the second positions of the sensing members;
  • a stationary contact member associated with each sensing member, the stationary contact member engaging the contact engaging surface of the datum means and biasing the datum means toward the datum means engaging surface of the sensing member;
  • a moving contact member associated with each sensing member, the moving contact member engaging the contact engaging surface of the sensing member and biasing the sensing member toward its second position;
  • sensing members and the datum means comprise means for electrically insulating the stationary and the moving contact members from each other and from the surface of the web.
  • a switch as in claim 15 further including a dielectric separator intermediate the contact members and the web, the separator having apertures therein through which the sensing members extend, the apertures being of a size to permit some movement of the sensing members parallel to the plane of the separator.
  • sensing members include separator engaging surfaces intermediate the lower and upper ends thereof and the upper side of the separator includes a sensing member engaging surface, the separator engaging surface of the sensing member and the sensing member engaging surfaces of the separa- 1 1 tor cooperating to limit the movement of the sensing members through the apertures in the separator, the distance between the lower ends and the separator engaging surfaces of the sensing members being greater than the depth of the apertures in the separator.
  • a switch as in claim 16 wherein the separator includes means for generally directing the movement of the sensing members and the contact members perpendicular to the plane of the web.
  • a switch as in claim 13 further including auxiliary sensing means for maintaining the bar and thereby the stationary contact members a substantially constant distance from the facing surface of the web.
  • a switch actuatable responsive to perforations in an encoded web moving relative to the switch comprising:
  • each of the sensing members being independently movable between a first and a second position responsive to the presence of perforations in the web and each sensing member including a head portion at the lower end thereof, a shaft at the upper end thereof, and a laterally extending arm at the junction of the shaft with the head; dielectric datum bar overlying the sensing members and having spaced apertures therein through which the shafts of the sensing members extend, the bottom surface of the datum bar resting on the lateral arms of two or more of the sensing members, the datum bar having a ridge at the upper end thereof, the distance between the bottom Surface of the bar and the ridge of the bar being less than the distance between the laterally extending arms and the upper end of the shaft whereby when the bar rests on the laterally extending arms of a sensing member the ridge of the bar is below the upper end of the shaft, the distance between the ridge of the bar and the upper end of the shaft being less than the distance
  • a stationary contact member associated with each sensing member, the stationary contact member engaging the ridge of the bar and biasing the bar toward the laterally extending arms of the sensing member;
  • a moving contact member associated with each sensing member, the moving contact member engaging the upper end of the shaft of the sensing member and biasing the sensing member toward its second position;

Landscapes

  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Automation & Control Theory (AREA)
  • Push-Button Switches (AREA)
  • Controlling Sheets Or Webs (AREA)
  • Manufacture Or Reproduction Of Printing Formes (AREA)
US175718A 1962-02-26 1962-02-26 Web actuated switch Expired - Lifetime US3144524A (en)

Priority Applications (5)

Application Number Priority Date Filing Date Title
NL289418D NL289418A (id) 1962-02-26
BE628838D BE628838A (id) 1962-02-26
US175718A US3144524A (en) 1962-02-26 1962-02-26 Web actuated switch
FR924722A FR1353704A (fr) 1962-02-26 1963-02-13 Commutateur commandé par bande perforée
GB6983/63A GB1025447A (en) 1962-02-26 1963-02-21 Electrical switches and applications thereof

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US175718A US3144524A (en) 1962-02-26 1962-02-26 Web actuated switch

Publications (1)

Publication Number Publication Date
US3144524A true US3144524A (en) 1964-08-11

Family

ID=22641364

Family Applications (1)

Application Number Title Priority Date Filing Date
US175718A Expired - Lifetime US3144524A (en) 1962-02-26 1962-02-26 Web actuated switch

Country Status (4)

Country Link
US (1) US3144524A (id)
BE (1) BE628838A (id)
GB (1) GB1025447A (id)
NL (1) NL289418A (id)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3449533A (en) * 1966-02-16 1969-06-10 Sealectro Corp Electrical switches and devices employing electrical switches
US4046980A (en) * 1976-04-20 1977-09-06 Bell Telephone Laboratories, Incorporated Cam actuated switch
US4112266A (en) * 1976-01-09 1978-09-05 Wallace Leon Linn Appliance timer with contact mounting for flexible contacts
WO1987000154A1 (en) * 1985-06-27 1987-01-15 Diebold, Incorporated Method and apparatus for identifying and indicating the content of document canisters

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
None *

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3449533A (en) * 1966-02-16 1969-06-10 Sealectro Corp Electrical switches and devices employing electrical switches
US4112266A (en) * 1976-01-09 1978-09-05 Wallace Leon Linn Appliance timer with contact mounting for flexible contacts
US4046980A (en) * 1976-04-20 1977-09-06 Bell Telephone Laboratories, Incorporated Cam actuated switch
DE2717136A1 (de) * 1976-04-20 1977-11-10 Western Electric Co Schalter
WO1987000154A1 (en) * 1985-06-27 1987-01-15 Diebold, Incorporated Method and apparatus for identifying and indicating the content of document canisters

Also Published As

Publication number Publication date
GB1025447A (en) 1966-04-06
BE628838A (id)
NL289418A (id)

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