Claims
- 1. A printer for printing vehicular transportation documents on bearer forms said printer comprising, in combination, a print engine, for electronically forming characters on said forms in response to the receipt of data signals, feeder means for feeding bearer forms to be printed into said print engine, and control means for controlling the printing of vehicular transportation passenger information on said forms by said print engine, including detecting means for detecting the condition in which two forms are being fed simultaneously by said feeder means, said detecting means including means for sensing the thickness of the forms being fed and producing a signal which is a function of the thickness detected, and for detecting the condition in which said signal exceeds a pre-determined level corresponding to the thickness of a single form.
- 2. A printer as in claim 1 including means for disabling said feeder means in response to the detection of said condition in which said signal exceeds said pre-determined level.
- 3. A printer for printing on sheets, said printer comprising, in combination, printing means, storage means for storing a plurality of said sheets, feed means for feeding said sheets from said storage means to, printing means and detecting means for detecting the condition in which two sheets are being fed simultaneously by said feeder means, said detecting means including means for sensing the thickness of the sheets being fed and producing a signal which is a function of the thickness detected, and for detecting the condition in which said signal exceeds a pre-determined level corresponding to the thickness of a single sheet, including sensor means for producing said signal in response to a change of stress applied thereto, means for mechanically sensing and converting a change if said thickness into a change in stress on said sensor means.
- 4. A printer as in claim 3 in which said sensor means comprises piezoelectric crystal means for generating an electrical signal proportional to the thickness of said sheets.
- 5. A printer for printing on sheets, said printer comprising, in combination, printing means, storage means for storing a plurality of said sheets, feed means for feeding said sheets from said storage means to, printing means and detecting means for detecting the condition in which two sheets are being fed simultaneously by said feeder means, said detecting means including means for sensing the thickness of the sheets being fed and producing a signal which is a function of the thickness detected, and for detecting the condition in which said signal exceeds a pre-determined level corresponding to the thickness of s single sheet, in which said detecting means comprises piezoelectric crystal means for generating an electrical signal proportional to the thickness of said sheets, and in which said detecting means includes a housing, a plunger slidably mounted in said housing, said crystal being elongated and cantilevered at one end to said housing, said plunger being positioned to be pressed inwardly by each of said sheets as it moves past said detecting means, said plunger being positioned to deflect the free end of said crystal to bend it and thus develop a corresponding electrical output signal.
- 6. A device as in claim 3 including means for disabling said feed means upon detecting said condition, said feed means being easily manually removable from contact with the sheet to allow correction of said condition.
- 7. A device as in claim 3 in which said detector means includes a voltage level detector at the output of said sensing means.
- 8. A printer as in claim 1 including sensor means for producing said signal in response to a change of stress applied thereto, means for mechanically sensing and converting a change in said thickness into a change in stress on said sensor means.
- 9. A printer as in claim 8 in which said sensor means is a piezoelectric crystal.
- 10. A printer as in claim 9 in which said detecting means includes a housing, a plunger slidably mounted in said housing, said crystal being elongated and cantilevered at one end to said housing, said plunger being positioned to be pressed inwardly by each of said sheets as it moves past said detecting means, said plunger being positioned to deflect the free end of said crystal to bend it and thus develop a corresponding electrical output signal.
- 11. A printer as in claim 1 in which said forms are airline ticket forms.
- 12. A printer as in claim 3 in which said sensor means is a piezoelectric crystal.
- 13. A printer as in claim 12 in which said piezoelectric crystal is elongated, and including support means for supporting said crystal at a point spaced from a deflection force application point, and means for deflecting said crystal at said application point in response to a thickness change.
Parent Case Info
This application is a division of application Ser. No. 051,046, filed May 15, 1987 now U.S. Pat. No. 4,851,864.
US Referenced Citations (3)
Number |
Name |
Date |
Kind |
4504961 |
Horiguchi |
Mar 1985 |
|
4560293 |
McCumber et al. |
Dec 1985 |
|
4700368 |
Munn et al. |
Oct 1987 |
|
Divisions (1)
|
Number |
Date |
Country |
Parent |
51046 |
May 1987 |
|