EP0138353A2 - Imprimante intégrée avec appareil d'alimentation du papier - Google Patents

Imprimante intégrée avec appareil d'alimentation du papier Download PDF

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Publication number
EP0138353A2
EP0138353A2 EP84305969A EP84305969A EP0138353A2 EP 0138353 A2 EP0138353 A2 EP 0138353A2 EP 84305969 A EP84305969 A EP 84305969A EP 84305969 A EP84305969 A EP 84305969A EP 0138353 A2 EP0138353 A2 EP 0138353A2
Authority
EP
European Patent Office
Prior art keywords
paper
printing
envelope
sheet
advancing
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP84305969A
Other languages
German (de)
English (en)
Other versions
EP0138353A3 (fr
Inventor
Ludwig J. Kapp
Tadeusz Staniszewski
Dominick Fazio
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
ZIYAD Inc
Original Assignee
ZIYAD Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by ZIYAD Inc filed Critical ZIYAD Inc
Publication of EP0138353A2 publication Critical patent/EP0138353A2/fr
Publication of EP0138353A3 publication Critical patent/EP0138353A3/fr
Withdrawn legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41JTYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
    • B41J29/00Details of, or accessories for, typewriters or selective printing mechanisms not otherwise provided for
    • B41J29/02Framework
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41JTYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
    • B41J13/00Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, specially adapted for supporting or handling copy material in short lengths, e.g. sheets
    • B41J13/10Sheet holders, retainers, movable guides, or stationary guides
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41JTYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
    • B41J29/00Details of, or accessories for, typewriters or selective printing mechanisms not otherwise provided for
    • B41J29/10Sound-deadening devices embodied in machines

Definitions

  • the present invention relates in general to a hard copy printing device suitable for use in conjunction with word processing machines and, more particularly, to an integrated printer and paper feeding apparatus which will continuously feed individual sheets of paper and envelopes from an internal supply thereof along a feed path past an integrated printing device to effect printing thereon.
  • an integrated printer and paper feeding apparatus comprising paper storing means for storing a plurality of individual sheets of paper, paper feeding means for feeding individual sheets of paper from the paper storing means along a paper feed path, printing means for printing on a sheet of paper, paper advancing means for advancing a sheet of paper past the printing means to effect printing thereon, and control means for controlling the operation of the paper feeding means, the printing means and the paper advancing means, and wherein the integrated printer and paper feeding apparatus further comprises a housing for providing a substantially complete enclosure for said paper storing means, said paper feeding means, said printing means and said paper advancing means, each of said paper storing means, said paper feeding means, said printing means and said paper advancing means being mounted within said housing such that the paper path along which the individual sheets of paper are moved lies completely within said housing.
  • a printing apparatus comprising paper advancing means for advancing a sheet of paper in contact therewith past printing means, and paper ejecting means for removing a sheet of paper from the paper advancing means along a paper exit path
  • the paper advancing means including a guide member movable between a first position spaced from the paper advancing means and a second position in operative relationship with the paper advancing means for urging a sheet of paper into contact with the paper advancing means to be moved thereby toward the paper exit path
  • the paper ejecting means including first and second ejecting members along the paper exit path, the first ejecting member being movable between a first position in which the first ejecting member is spaced from the second ejecting member and a second position in which the first and second members interact to grip a sheet of paper therebetween and move the sheet of paper along the paper exit path
  • the printing apparatus further comprises movable control means for controlling the position of the guide member and the first ejecting member respectively
  • an envelope feeding device for the feeding of envelopes to a printing device for printing thereon, the printing device including paper advancing means for advancing an envelope within the printing device, the envelope feeding device including envelope storing means for storing a plurality of individual envelopes in a stack and envelope feed means for feeding individual envelopes from the envelope storing means to the paper advancing means along an envelope feed path, the envelope feed means being arranged along one side of the envelope feed path for engagement with a first envelope within the stack in the envelope storing means, and wherein the envelope feeding device further comprises envelope stripping means arranged along the other side of said envelope feed path for engaging an adjacent second envelope within said stack and retaining said second envelope while permitting said first envelope to be fed from said stack to the paper advancing means by operation of the envelope feed means.
  • a printing device comprising paper advancing means for advancing a sheet of paper along a paper feed path within the printing device, a print head assembly arranged within the printing device and having printing means for printing on a sheet of paper being advanced along the paper feed path by the paper advancing means, printer drive means for driving the print head assembly across a sheet of paper being fed along the paper feed path by the paper advancing means, and control means for controlling each of said paper advancing means, said printer drive means, and said printing means for effecting printing on said paper, and wherein the printing device farther comprising paper sensing means arranged on the printing head assembly for sensing an edge of a sheet of paper being fed along said paper feed path, and wherein said control means is responsive to said paper sensing means sensing the leading edge of a sheet of paper to control the paper advancing means to position said leading edge of said sheet of paper at a predetermined position relative to the printing head assembly, and is also responsive to said paper sensing means sensing a side edge of said sheet of paper to position the printing head
  • FIG. 1 there is illustrated an integrated printer and paper feeding apparatus constructed in accordance with the preferred embodiment and generally designated by reference character 2.
  • the integrated printer and paper feeding apparatus 2 is constructed from a sound reducing housing 4 having a top cover 5 and sound reducing material 6 lining the inside walls thereof, as generally shown in FIG. 2.
  • One such material suitable for reducing the noise level produced as a result of the operation of the integrated printer and paper feeding apparatus 2 is urethane cellular acoustical foam; however, other such materials may also be used in accordance with the present invention.
  • a pair of adjacent rectangular openings 8, 8' for receiving a pair of paper trays 10, 12 provided for storing a first and second plurality of individual sheets of paper 14 for printing thereon.
  • the paper trays 10, 12 are provided with closures 13 to close the openings 8, 8' when the paper trays are inserted into the housing 4.
  • the paper trays 10, 12 may also be provided with suitable sound reducing material (not shown) to assist in elimination of noise from operation of the apparatus 2 " , in particular, provided as a seal around the closures 13 to engage the surface of the housing 4.
  • a paper stacking tray 16 is removably provided within the top cover 5 of the housing 4 for receiving in collated arrangement individual sheets of paper 14 having printing thereon upon being ejected from the integrated printer and paper feeding apparatus 2.
  • a sound reducing cover 18 is provided overlying the paper stacking tray 16.
  • the sound reducing cover 18 functions to reduce the noise produced by the operation of the integrated printer and paper feeding apparatus 2.
  • the sound reducing cover 18 is removably sealed to the top cover 5 of the housing 4 by strips of rubber like gasket material 20, 20' arranged along the edges of the sound reducing cover and the provision of a similar rubber strip 20" arranged adjacent the paper stacking tray 16 within the top cover for sealing engagement with the side edges of the sound reducing cover.
  • Located behind the cover 18 is an envelope compartment cover 22 for providing access to a stack of individual envelopes to be supplied to the integrated printer and paper feeding apparatus 2.
  • the envelope compartment cover 22 is provided with sound reducing material 6 on its inside surface to reduce the noise resulting from the operation of the integrated printer and paper feeding apparatus 2.
  • the user operation of the integrated printer and paper feeding apparatus 2 is controlled through the control panel 24 mounted in a convenient location to the top cover 5 of the housing 4.
  • the sound reducing housing 4 of the integrated printer and paper feeding apparatus 2 in addition to being compact, occupying a minimum of space and being of pleasing design, significantly reduces the noise level attributable to the operation of the integrated printer and paper feeding apparatus while providing easy access to the components thereof through the top cover 5.
  • the integrated printer and paper feeding apparatus 2 includes a printing device generally designated by reference character 26.
  • the printing device 26 is constructed from a platen assembly 28 which is adapted to advance a sheet of paper 14 within the integrated printer and paper feeding apparatus 2 and a print head carriage assembly 30 which is adapted to traverse back and forth across the transverse length of the platen assembly 28 to effect printing on the paper.
  • the platen assembly 28 is constructed from a rotatable platen 32 transversely extending between a pair of side plates 34, 36 and which is adapted to rotate about a transversely extending axis.
  • a paper guide 38 is arranged adjacent to and extending along a substantial portion of the longitudinal extent of the platen 32 for guiding a sheet of paper 14 from a paper feed path upwardly around the platen.
  • a plurality of spaced apart pressure rollers 40 are supported by paper guide plate 288 in engagement with the platen 32 along a lower front portion as shown in FIG. 2 and FIG. 14.
  • a second plurality of spaced apart pressure rollers 40' are provided along a middle rear portion of the platen 32 for manual feeding of sheets of paper as more fully described hereinbelow.
  • a sheet of paper 14 to be printed on is received between the platen 32 and the paper guide 38 and is advanced in a forward and a reverse direction by rotation of the platen and engagement with the pressure rollers 40.
  • the print head carriage assembly 30 is constructed of a ribbon cartridge 42 for storage of a printing ribbon, a character print wheel 44, a print wheel retainer 46 for removably securing the print wheel to the print head carriage assembly 30, and a print wheel motor and encoder (not shown).
  • the ribbon cartridge 42, sprint wheel 44 and print wheel retainer 46 may be of conventional construction and accordingly the details of such construction will not be described herein.
  • the print head carriage assembly 30 is movably mounted adjacent the platen 32 to a pair of parallel spaced apart transversely extending carriage rails 48, 50 by means of, for example, a pair of slide bushings 52 of which only the forwardmost slide bushing is shown.
  • the print head carriage assembly 30 is secured to the ends of a belt 54 which extends longitudinally between carriage rails 48, 50.
  • the belt in turn engages an idler pulley 56 and a drive pulley (not shown).
  • the idler pulley 56 is arranged at the leftmost end of the apparatus 2 where it is secured by bracket 60 to the side plate 36.
  • the drive pulley is at the rightmost end of the apparatus 2 and engages a carriage drive motor 58.
  • the print wheel 44 is carried by the movable print head carriage assembly 30 which transverses across the traverse extent of the platen 32 by means of the carriage drive motor 58.
  • the print wheel 44 is arranged to be closely spaced from the platen 32 so that printing in lines can be achieved on the paper 14 as the print carriage assembly 30 traverses between the ends of the platen.
  • the platen 32 could be carried by a carriage and moved transversely past the print wheel 44.
  • the platen 32 serves to rotate intermittently about its transverse axis to advance the sheet of paper 14 longitudinally relative to the print wheel 44 for the printing of the next line thereon by virtue of the transverse movement of the print wheel with respect thereto.
  • printing is accomplished by transversely moving the print carriage assembly 30 relative to the paper 14 and then advancing the paper longitudinally by rotation of the platen 32 and engagement of the pressure rollers 40 to permit the print carriage assembly to effect the next line of printing.
  • This printing operation may be as in a conventional typewriter from left to right, or the printing may be from left to right for one line of print with the next line of print being effected by movement of the print carriage assembly 30 from right to left. This latter means of printing is commonly used in many present day word processing systems.
  • the integrated printer and paper feeding apparatus 2 in accordance with the present invention is mainly designed for use where the printing device 26 is of the type having automatic printing or typing capabilities, i.e., printing systems or devices in which a complete page of print is effected automatically without or with a minimal amount of instructions from the user.
  • the text of the matter to be printed may have been previously stored on a disk or similar recording device, or may be in the memory of a cathode ray tube on which a user has arranged the matter or information in a desired format.
  • the system simply prints the stored information onto sheets of paper in a continuous manner.
  • printing devices 26 are generally of impact printing type, i.e., a hammer impacts the print wheel which in turn impacts the paper 14 against the platen 32 to effect the printing.
  • a hammer impacts the print wheel which in turn impacts the paper 14 against the platen 32 to effect the printing.
  • the integrated printer and paper feeding apparatus 2 in accordance with the present invention could also be used with other types of printing devices 26, such as, for example, ink jet printers, matrix printers, direct thermal printers, thermal transfer printers, laser printers, line printers, and/or non-impact electrical- static printers.
  • the print head carriage assembly is provided with a sensor 62 as to be more fully described hereinafter and the housing 4 is provided with a panel switch 64 which functions as a lock-out switch to shut off the power to the integrated printer and paper heading apparatus 2 when the stacking tray 16 on the top cover 5 is lifted, for example, to effect repair and maintenance.
  • the paper gripping mechanism 66 includes a paper ejecting assembly generally designated by reference character 68 for ejecting a sheet of paper 14 from the printing device 26 after printing has been effected thereon.
  • the paper ejecting assembly 68 is constructed from a pair of spaced apart ejector rollers 70, 72 which are supported rearwardly of the integrated printer and paper feeding apparatus 2 between the side plates 34, 36 and arranged so as to receive therebetween a sheet of paper 14 as it exits from the printing device 26 along a paper exit path. As best shown in FIG.
  • the sheet of paper 14 is guided between the spaced apart ejector rollers 70, 72 while printing is being effected thereon, the spacing of the ejector rollers serving to allow the paper 14 to move freely under the control of the platen 32.
  • the rear ejector roller 70 is moved towards the forward stationary ejector roller 72 to grippingly engage a sheet of paper 14 therebetween.
  • the stationary ejector roller 72 being continuously rotated is operative by means of a plurality of equally spaced O-rings 74 to pull the sheet of paper 14 upwardly along the paper exit path and away from the printing device 26 and to stack same in collated form within the paper stacking tray 16, as shown in FIG. 1.
  • the paper gripping mechanism 66 includes a platen paper gripping assembly 76 constructed of a paper bail 78 supported forward of the platen 32 between the side plates 34, 36 and movably arranged between a closed position in contact with the paper bail and an open position spaced adjacent the paper baileso as to receive a sheet of paper 14 therebetween.
  • the paper bail 78 is normally in engagement with the platen 32 by means of a plurality of equally spaced 0-rings 80 or the like. As best shown in FIG. 2, a sheet of paper 14 is guided between the platen 32 and the paper bail 78 while printing is being effected thereon by the printing device 26.
  • the engagement of the paper bail 78 with the platen 32 generally serves to allow the paper 14 to be moved smoothly under the control of the platen so as to effect a uniform and precise printing on the paper 14 by maintaining the paper in contact with the platen at the location where the printing on the paper occurs.
  • the paper bail 78 is moved away from the platen 32 to allow the paper 14 to move freely under the control of the platen into its position in alignment with the printing device 26. Once the sheet of paper 14 has been advanced by the platen 32 into operative alignment with the printing device 26, the paper bail 78 is moved into engagement therewith prior to the printing operation.
  • the ejector rollers 70, 72 are transversely mounted between the side plates 34, 36 overlying the platen 32 along either side of a paper exit path as more clearly shown in FIG. 14.
  • Stationary ejector roller 72 is rotationally mounted between the side plates 34, 36 forward of the paper exit path.
  • ejector roller 70 is mounted to the rear of the paper exit path between a pair of ejector arms 82, 82' to allow pivotal movement of the ejector roller 70 into engagement with the stationary ejector roller 72 for engaging a sheet of paper 14 therebetween and ejecting same from the printing device 26 and into the paper stacking tray 16.
  • a concaved exit guide plate 84 arranged to lie just above the rotatable platen 32 adjacent the exit end thereof and extending upwardly along the paper exit path to just below the point of engagement between the ejector rollers 70, 72 for guiding a sheet of paper 14 from the printing device 26 along the paper exit path and between the ejector rollers for engagement therewith.
  • the paper bail 78 is transversely mounted overlying a forward portion of the platen 32 between a pair of platen arms 86, 86'.
  • the platen arms 86, 86' are pivotally attached about pivot points 88, 88' to the side plates 34, 36 underlying the forward portion of the platen 32.
  • the paper bail 78 is transversely mounted between the upper ends of the platen arms 86, 86' while the lower ends are provided with an opening 90. Springs 92, 92' are attached to the lower ends of the platen arms 86, 86' to bias the paper bail 78 into engagement with the platen 32, as best shown in FIGS.
  • the ejector arms 82, 82' are pivotally mounted about pivot points 94, 94' to the side plates 34, 36 overlying the platen 32.
  • the ejector roller 70 is transversely mounted between the upper ends of the ejector arms 82, 82' while the lower ends of the ejector arms are provided with an opening 96.
  • Springs 98, 98' are secured to the upper portion of the ejector arms 82, 82' for biasing the ejector roller 70 rearward of the paper exit path and out of engagement with the ejector roller 72 to permit the upward feeding of a sheet of paper 14 between the platen 32 and paper bail 78 along the paper exit path.
  • the paper gripping mechanism 66 namely the paper ejecting assembly 68 and the platen paper gripping assembly 76 is controlled by a sector gear 100 having a plurality of teeth terminating at a pair of stops 102.
  • the sector gear 100 is pivotally mounted to an axle 104, see FIG. 2, extending transversely between the side plates 34, 36 to which a pair of cable pulleys 106, 106' are attached adjacent each side plate.
  • a single motor 108 having a drive gear 110 meshed with the teeth of the sector gear 100 causes rotation of the axle 104 and cable pulleys 106, 106' in either a clockwise or counterclockwise direction depending upon the direction of rotation of the motor.
  • Wire cables 112, 112' are provided having a center portion thereof secured to the cable pulleys 106, 106' and having their terminal ends provided with a retaining member or ball 114 slidably captured within the openings 90, 96 of the platen arms 86, 86' and ejector arms 82, 82' as best shown in FIG. 13a.
  • a spring 116 is provided within the opening 96 of the ejector arms 82, 82' through which the wire cables 112, 112' respectively pass and is arranged to be compressed by the ball 114 in a manner to be described hereinafter.
  • a pin 118 is arranged projecting from the face of the sector gear 100 at a central portion for engagement with the actuating lever of a mechanical microswitch 120.
  • the operation of the paper gripping mechanism 66 will be described by reference only to its construction as shown adjacent side plate 34.
  • the paper bail 78 is normally engaged on the outer surface of the platen 32 while the ejector roller 70 is normally spaced apart from the stationary ejector roller 72.
  • This condition is achieved by the spring 98 biasing the ejector arm 82 away from the stationary ejector roller 72 and the spring 92 biasing the platen arm 86 towards the platen 32 for engagement with the paper bail 78.
  • this condition is maintained by the drive gear 110 being positioned centrally along the teeth of the sector gear 100 between the stops 102.
  • the sector gear 100 Upon rotation of the drive gear 110 in a counterclockwise direction as viewed in FIG. 13a, the sector gear 100 is rotated in a clockwise direction, a predetermined amount to the position adjacent the upper stop 102 as shown in FIG. 13b.
  • the cable 112 being attached to the cable pulley 106 causes that portion of the cable captured within the opening 96 within the lower end of the ejector arm 82 to rotate the ejector arm in a counterclockwise direction causing the engagement of the ejector roller 70 with the stationary ejector roller 72.
  • the compression spring 116 serves to accommodate any overdrive of the sector gear 100 to prevent damage to the ejector arm 82 or the components thereof. As shown in FIG.
  • the sector gear 100 is rotated in a counterclockwise direction until the drive gear is positioned adjacent the lower stop 102.
  • the cable 112 being attached to the cable pulley 106 and having its end captured within the opening 90 at the lower end of the bail arm 86, causes the bail arm to rotate in a counterclockwise direction moving the paper bail 78 away from its previous engagement with the surface of the platen 32.
  • the platen idler gear assembly 122 is constructed of a center gear 124 sandwiched between a forward ejector gear 126 and a rear platen gear 128, shown in dotted lines.
  • the platen idler gear assembly 122 is rotated by a timing belt 130 driven by a pulley 132 connected to a motor 134 as shown in dotted lines, see also FIG. 2.
  • the stationary ejector roller 72 is likewise rotated by a timing belt 136 provided between the forward ejector gear 126 and a pulley 138 secured to the ejector roller adjacent the side plate 36.
  • the platen 32 is driven by the rear platen gear 128 being meshed with a platen drive gear 140 attached at one end thereof adjacent the side plate 36.
  • the controlled operation of the motor 134 is such to cause simultaneous rotation of the platen 32 and the ejector roller 72.
  • the paper loading assembly 142 is constructed from a pair of side frames 144, 146 spaced apart in parallel relationship by means of a plurality of transversely extending rods 148.
  • the side frames 144, 146 are constructed to include pairs of upper and lower inwardly facing U-shaped tracks 150, 152.
  • the side frames 144, 146 are spaced by the rods 148 such that the paper trays 10, 12 can be received and supported within the pairs of tracks 150, 152 of the paper loading assembly 144.
  • the paper loading assembly 142 is adapted to receive the paper tray 10 within the upper pairs of tracks 150, which is identical to the construction of the paper loading assembly for receiving the paper tray 12 within the lower pair of tracks 152. Accordingly, the following description will refer to that portion of the paper loading assembly 142 adapted to receive the paper tray 10 within the pairs of upper tracks 150.
  • a transversely extending paper feed shaft 154 having a pair of spaced apart rollers 156 secured thereto.
  • the rollers 156 are adapted to engage spaced portions of the upper sheet of paper 14 urged into contact therewith upon insertion of the paper tray 10 between the pair of upper tracks 150 as to be described.
  • That end of the paper feed shaft 154 adjacent the side frame 144 is connected to a gear 158 centrally provided with a one-way roller clutch 160.
  • the gear 158 is driven by a drive gear 162 connected to a motor 164 operative in a clockwise and counterclockwise direction.
  • the lower paper feed shaft 154' is connected to a gear 158' having a one-way roller clutch 160' adapted to be driven by the drive gear 162 by means of an idler gear 166 meshed therebetween.
  • the one-way roller clutches 160, 160' are operative so that the gears 158, 158' will be free rolling relative to the paper feed shafts 154, 154' in one direction, i.e., the counterclockwise direction relative to the paper feed shafts as viewed in FIG. 7 and will be locked with the paper feed shaft in the opposite direction, i.e., the counterclockwise direction relative to the paper feed shaft as viewed in FIG. 7.
  • clockwise rotation of the drive gear 162 by the motor 164 is operative to cause rotation of the gear 158 and roller clutch 160 in a counterclockwise direction causing rotation of the paper feed shaft 154 and rollers 156 in a counterclockwise direction for feeding a single sheet of paper 14 from the paper tray 10.
  • the clockwise rotation of the drive gear 162 causes clockwise direction of the gear 158' and roller clutch 160' as a result of the intermeshed idler gear 166.
  • the clockwise direction of the roller clutch 160' allows the paper feed shaft 154' and rollers 156' to remain stationary without rotation thereby enabling the feeding of single sheets of paper 14 from only the paper tray 10.
  • the counterclockwise rotation of the drive gear 162 causes clockwise rotation of the gear 158 and roller clutch 160 such that the paper feed shaft 154 and rollers 156 remain idle.
  • individual sheets of paper 14 can be fed alternatively between the paper trays 10, 12 depending upon the direction of rotation of the drive gear 162 in either a clockwise or counterclockwise direction by operation of the motor 164.
  • a rotatable pressure shaft 168 Positioned forward of the paper feed shaft 154 and extending transversely between the side frames 144, 146 is a rotatable pressure shaft 168 having a centrally attached upwardly projecting pressure arm 170 terminating at a flat portion having a protrusion 172 thereon.
  • a bracket 174 Secured to the end of the pressure shaft 168 adjacent the track 150 of the side frame 144 is a bracket 174 having a cam follower or roller 176 rotatably mounted thereto as best shown in FIG. 6.
  • the roller 176 is mounted for rotation about a horizontal axis rearward of the axis of rotation of the pressure shaft 168. Further, as best shown in FIG.
  • the pressure shaft 168 is normally biased in its operative position as shown in FIG. 5a by means of spring 178 attached to the bracket 174 and a portion of the side frame 144.
  • a paper sensor arm 180 Arranged transversely extending between the side frames 144, 146 and underlying the pressure shaft 168, slightly forward thereof, is a paper sensor arm 180 having a centrally attached probe 182. The leftmost end of the paper sensor arm 180 extends through the side frame 146 and operatively engages a microswitch 184.
  • the paper sensor arm 180 and microswitch 184 are operative to detect the presence or absence of sheets of paper 14 within the paper trays 10.
  • a roller assembly 188 constructed of a bracket 190 and a roller 192 rotationally mounted about a vertical axis.
  • the bracket 190 is pivotally mounted to the side frame 146 within the opening 186 such that the roller 192 extends into the track 150 by means of bias spring 194.
  • a pair of spaced apart paper guide plates 196, 198 are arranged vertically extending transversely between the side frames 144, 146 to the rear of the pressure shafts 168, 168' to define a paper feed path therebetween from a lower paper tray 12, as more clearly shown in FIG. 14.
  • the specific operation of the paper loading assembly 142 will be described hereinafter.
  • the paper trays 10, 12 are of identical construction.
  • the paper trays 10, 12 are suitable for insertion in the paper loading assembly 142 between either the upper tracks 150 or lower tracks 152.
  • This is further made possible by the identical construction of the paper loading assembly 142 operative for feeding of individual sheets of paper 14 from either the upper paper tray 10 or lower paper tray 12.
  • each of the paper trays 10, 12 is similarly constructed and supported between the side frames 144, 146 of the paper loading assembly 142, only the upper paper tray 10 and the manner of supporting same will be described.
  • the upper paper tray 10 comprises a tray shaped box member 200 having a paper support plate 202 pivotally supported in the bottom thereof.
  • the dimensions of the tray shaped box member 200 are substantially greater than the dimensions of the paper 14 to be provided therein so as to accommodate sheets of paper of various widths and lengths.
  • the sheets of paper 14 are placed on the paper support plate 202 between a plurality of adjustable paper guides 204 and a paper stop 206.
  • the paper guides 204 are adjustably secured within a slot 208 provided in the box member 200 to accommodate various widths of sheets of paper.
  • the paper stop 206 is adjustably positioned within a slot 210 to accommodate various lengths of sheets of paper to be used.
  • each of the paper guides 204 and the paper stop 206 extends substantially above the surface of the paper support plate 202 to accommodate a stack of paper sheets.
  • suitable paper retention means may be provided for normally retaining the paper 14 in the paper tray 10--such as, for example, tab members 212 arranged at the forward side edges of the paper tray 10. These tab members 212 also serve to separate the sheets of paper 14 so that a single sheet of paper at a time will be fed by the pressure shaft 168 from the paper tray 10.
  • the tab members 212 are adjustably spaced by means of a retaining lever 214 adjustably secured within an underlying slot 216 within the box member 200.
  • the forward end of the paper support plate 202 is provided with an opening 218 for receiving the probe 182 of the paper sensor arm 180 to be described hereinafter.
  • the forward end of the box member 200 is provided with an opening 220 to receive the pressure arm 170 of the pressure shaft 168 as to be described hereinafter.
  • the left lateral edge of the box member 200 is provided with a longitudinally extending track 222 adapted to engage the roller 192 of the roller assembly 188 and a notch 224 positioned along the track for capturing the roller as to be described hereinafter. Referring to FIG. 9, there is shown the construction of the underlying portion of the forward end of the right lateral side of the box member 200.
  • the forward end of the box member 200 is provided with a first sloped cam surface 226 and a second sloped cam surface 228 spaced apart by means of a horizontal cam surface 230.
  • the second cam surface 228 extends into an opening 232 adapted to receive the roller 172 of the roller assembly 174 during installation of the paper tray 10 within the paper loading assembly 142.
  • a stack of sheets of paper 14 are positioned overlying the paper support plate 202 between the paper guides 204 and paper stop 206.
  • the leading edge of the top sheet of paper 14 is positioned underlying the tab members 212 with the leading edge of the stack overlying the opening 218 within the paper support plate 202,
  • the longitudinal center axis of the stack of paper 14 is now in alignment with the longitudinal center axis of the paper tray 10.
  • the leading end of the paper tray 10 is inserted into the paper loading assembly 142 such that the sides of the paper tray are received within the tracks 150.
  • the roller 192 of the roller assembly 188 engages the track 222 provided on the left side of the paper tray. This engagement of the roller 192 with the track 222 urges the paper tray 10 towards the side frame 144 to ensure precise and repeated alignment of the paper 14 with the printing device 26 as the paper is fed from the tray 10.
  • the extent to which the paper tray 10 may be inserted into the paper loading assembly 142 is limited by stops (not shown) on the side frame.
  • the roller 192 rolls along the track 222 until it is captured within the notch 224, thereby detecting the tray 10 in its forwardmost position and biasing the tray 10 toward the right side frame.
  • the roller 176 attached to the bracket 174 of the pressure shaft 168 engages the first cam surface 226.
  • the engagement of the roll 176 with the first cam surface 226 causes rotation of the pressure shaft 168 in a clockwise direction to pivot the pressure arm 170 away from interference with the leading edge of the paper tray 10.
  • FIG. 10b as the roller 176 engages the horizontal cam surface 230, the pressure arm 170 has been rotated to a position where the protrusion 172 of the pressure arm 170 is generally underlying the bottom of the paper tray 10. With;. the pressure arm 170 in the position illustrated in FIG.
  • the paper tray 10 may be further inserted into the paper loading assembly 142 without interference from the pressure arm.
  • the pressure arm 170 is rotated in a counterclockwise direction through the opening 220 provided in the bottom of the paper tray 10 so as to engage the leading edge of the paper support plate 220 by the protrusion 172.
  • the pressure arm 170 is operative to pivot the paper support plate 202 upwardly to raise the forward edges of the sheets of paper 14 to be at or just above the forward end of the paper tray 10 and in contact with the rollers 156 for feeding individual sheets of paper therefrom along a paper feed path to the platen 32 to be printed thereon by the printing device 26.
  • the leading end of the sheets of paper 14 are positioned adjacent a paper deflector plate 234 to deflect the paper fed from the paper tray 10 along the paper feed path formed between the paper guide plates 196, 198.
  • the paper tray 10 may be removed from the paper loading assembly 142 by reversing the above procedure. Specifically, as the paper tray 10 is withdrawn from the paper loading assembly 142, the roller 176 engages the second cam surface 228 to cause pivotal movement of the pressure arm 170 in a clockwise direction out of engagement with the paper support plate 202. When the roller 176 is engaged with the horizontal cam surface 230, as shown in FIG. lOb, the pressure arm 170 has been rotated outside the opening 220 of the tray 10 to permit removal of the paper tray from the paper loading assembly 142 with the roller 192 of the roller assembly 188 being urged out of the notch 224 and being guided along the track 222.
  • the paper loading assembly 142 includes paper sensor arms 180, 180 for sensing when the paper trays 10, 12 are out of paper.
  • the paper support plate 202 in the paper trays 10, 12 are each provided with an opening 218 therein in alignment with the probe 182, 182' of the respective paper sensor arms 180, 180'.
  • the microswitches 184, 184' are respectively operatively connected to the paper sensor arms 180, 180' and are opened when the probes 182, 182' are raised and are closed when the probes are lowered, the probes being generally biased towards the lowered position. As long a sheet of paper 14 is in the paper trays 10, 12 on top of the paper support plate 202 which is biased upwardly by the pressure arms 170, 170' the probes 182, 182' will be in the raised position thereby opening the microswitches 184, 184'.
  • the envelope tray 238 is constructed from an envelope support plate 240 having a pair of spaced apart adjustable upstanding sidewalls 242, 244 and an upstanding rear wall 246 provided with an opening 247 to act as a handle for the envelope tray.
  • a stack of envelopes 248 are supported by the envelope support plate 240 between the sidewalls 242, 244 which may be adjustable by suitable means such as slots provided within the envelope support plate in a similar manner to that previously described with respect to the paper trays 10, 12.
  • the width of the paper support plate 240 is generally smaller than the width of the stack of envelopes 248.
  • the leading edge of the envelopes 248 overhangs the extent of the envelope support plate 240 as shown in FIG. 12.
  • This overhanging portion of the envelopes 248 is centrally supported by a projection 250 extending outwardly from the envelope support plate 240.
  • a U-shaped arm 252 is pivotally supported at its terminal ends by a block member 254 mounted to the rear corners of the envelope support plate 240.
  • the front section of the arm 252 is aligned overlying the overhanging portion of the envelopes 248 and is provided with a weight 256 adapted to press the overhanging portion downwardly against the projection 250.
  • the envelope stripper mechanism 236 includes an envelope feed shaft 258 transversely extending between the side plates 34, 36 and having a pair of spaced apart rollers 260 adapted for engagement with an envelope 248 within the envelope tray 238.
  • the envelope feed shaft 258 is rotated by an envelope drive gear 262 meshed with drive gear 264 connected to a motor 266 adjacent the side plate 234.
  • the envelope feed shaft 258 is positioned underlying and rearward of the platen 32.
  • a frame member 268 is provided transversely extending across the rear of the side plates 34, 36 to provide a well 270 between the frame member and the envelope feed shaft 258 adapted to receive the envelope tray 238 having a stack of envelopes 248 therein.
  • the overhanging portion of the lowermost envelope 248 within the envelope tray is engaged by the rollers 260 of the envelope feed shaft 258. It can be appreciated that the rotation of the rollers 260 by the envelope feed shaft 258 is operative to withdraw the lowermost envelope 248 from the envelope tray 238 and to feed same along an envelope feed path to the platen 32.
  • the envelope drive gear 262 is provided with a one-way roller clutch for uncoupling the envelope feed shaft 258 from rotation with the drive gear 262 so as to permit envelopes to be pulled from the envelope tray 238 by the platen 32, without interference from the envelope feed rollers 260, after an envelope has driven into engagement with the platen 32.
  • a pair of spaced apart paper guide plates 272, 274 defining a manual paper feed path therebetween in alignment with the rear portion of the platen 32.
  • the lowermost portion of the paper guide plate 274 is provided with a generally horizontally extending stripping member 276 lying along one side of the envelope feed path with the rollers 260 of the envelope feed shaft 258 lying on the opposite side thereof.
  • the envelope stripping member 276 is constructed of such material as natural rubbers and synthetic compounds such as urethane having a high coefficient of friction and, wherein the coefficient of friction between the stripping member and the envelope is greater than the coefficient of friction between two adjacent envelopes. The specific operation of the envelope stripping mechanism will be described hereinafter.
  • a paper guide 280 Underlying the envelope feed shaft 258 and transversely extending between the side plates 34, 36 is a paper guide 280 adapted for supporting a lever actuated envelope microswitch 282, an envelope sensor 284 and a paper sensor 286.
  • the envelope microswitch 282 is adapted to sense when the envelope tray 238 is out of envelopes.
  • the lever of the envelope microswitch 282 engages the lowermost envelope 248 when an envelope is in the envelope tray 238 and the envelope tray is positioned within the well 270 as shown in FIG. 11.
  • the envelope microswitch 282 is open in the absence of envelopes and closed when envelopes are present.
  • the envelope microswitch 282 will be in the closed position. However, when the last envelope 248 is removed from the envelope tray 238, or when the envelope tray is removed from the well 270, there will be no envelope or other means for maintaining the envelope microswitch 282 in the closed position and will thus move into its open position, thereby providing an indication that no envelope 248 is available for feeding to the printing device 26.
  • Each of the sensors 62, 284, 286 are of the photoelectric reflective type which transmits a beam of light and which includes means for receiving the reflected light to close the sensors.
  • the paper will serve to reflect and direct the projected light back to the sensors which detect same and closes the sensors indicating the presence of a sheet of paper.
  • the paper sensor 286 is mounted in the lower end of the paper guide plate 280 facing towards the paper feed path formed between the paper guide plate 280 and spaced apart adjacent underlying paper guide plate 288.
  • This sensor 286 serves to detect if and when a sheet of paper 14 is moved therepast in order to signal the actuation of the platen 32 for rotation to receive a sheet of paper fed from one of the paper trays 10, 12.
  • the envelope sensor 284 is attached to the paper guide plate 280 facing upward toward the envelope feed path adjacent the rollers 260 of the envelope feed shaft 258. This sensor 284 also serves to detect if and when an envelope 248 is moved therepast in order to signal the actuation of the platen 32 for rotation to receive an envelope fed from the envelope tray 238.
  • the print head carriage assembly sensor 62 is located on top of the ribbon carriage 42 facing the platen 32 along them exit path of movement of a sheet of paper 14, or envelope 248, for detecting when a sheet of paper or envelope has been picked up by the platen and is being moved thereby along the paper exit path.
  • This sensor 62 also serves to provide a reference point used in positioning of the print wheel 44 in a proper printing position relative to the paper 14.
  • the sensor 62 detects the leading edge, as well as the left edge, of a sheet of paper 14 or envelope 258 as it is fed to the platen 32 from a paper tray 10, 12 or envelope tray 238.
  • the print wheel 44 may be positioned in proper alignment for typing on a sheet of paper 14 or envelope 248 having a predetermined top and left side margin.
  • the senor 62 may be used to detect the bottom edge of a sheet of paper for determining the length of such sheet to ensure that the controls for the printing device have been preset for the proper size of paper contained within the printing trays 10, 12 or the size of the envelope 248 provided within the envelope tray 238.
  • the integrated printer and paper feeding apparatus 2 of the present invention has now been described with respect to its construction, as well as generally to its operation.
  • the controlled operation of the integrated printer and paper feeding apparatus 2 will be performed by a computer or microprocessor contained within the housing 4 as is generally known to those skilled in the art.
  • the integrated printer and paper feeding apparatus 2 of the present invention may be programmed to operate by such a microprocessor in a variety of ways.
  • the method of operation of the integrated printer and paper feeding apparatus 2 of the present invention may be generally in accord with that disclosed in the foregoing U.S. Patent No. 4,326,815, the subject matter of such patent being incorporated herein by reference.
  • a brief description of the operation of integrated printer and paper feeding apparatus 2 in accordance with the preferred embodiment of the present invention will now be described.
  • a stack of sheets of paper 14 is positioned overlying the paper support plate 202 of the upper paper plate 10 and the lower paper plate 12.
  • the uppermost sheet of each stack of paper 14 along the forward edge thereof is engaged under the tab members 212 as shown in FIG. 8.
  • the paper trays 10, 12 are inserted into the paper loading assembly 142 between the tracks 150, 152 as previously described until the pressure arms 170, 170' tilt the paper support plates 202 to cause the upper sheets of paper 14 to be engaged by the rollers 156, 156' of the paper feed shafts 154, 154'.
  • the leading ends of the sheets of paper 14 within the paper trays 10, 12 are in alignment with the paper feed paths leading to the platen 32.
  • the sheets of paper 14 in the lower paper tray 12 are adjacent the paper deflector plate 234 for deflecting a sheet of paper fed therefrom along the paper feed path defined between the paper guide plates 196, 198.
  • the topmost sheet of paper 14 within the upper paper tray 10 is in alignment with the paper guide plate 196 for deflecting the sheet of paper fed therefrom along the paper feed path defined between the paper guide plates 280, 288 to the platen 32.
  • a stack of envelopes 248 are provided overlying the envelope support plate 240 and the weight 256 attached to the U-shaped arm 252 is positioned overlying the top envelope adjacent the leading edge of the stack of envelopes as they overhang the extent of the envelope support plate.
  • the envelope tray 238 is inserted into the well 270 such that the overhanging edge of the bottom envelope engages the top circumferential surface of the rollers 260 of the envelope feed shaft 258.
  • the leading edge of the envelopes 248 are positioned generally adjacent the rear surface of the paper guide platen 274.
  • the bottom envelope 248 is now in line with the envelope feed path from the envelope tray 238 to the platen 32.
  • the weight 256 pivots downward by means of the U-shaped arm 252 to maintain a constant pressure on the lowermost envelope against the rollers 260 of the envelope feed shaft 258 for feeding same along the envelope feed path to the platen 32.
  • the apparatus is powered up.
  • the control panel 24 is used to control the functions of the integrated printer and paper feeding apparatus 2 in accordance with the present invention by means of a suitably programmed microprocessor or computer.
  • the sector gear 100 is rotated in a clockwise direction by the drive gear 110 to cause engagement of the ejector roller 70 with the stationary ejector roller 72 for ejecting any paper 14 within the apparatus into the paper stacking tray 16.
  • the microswitch 120 is actuated by engagement of its lever with pin 118.
  • the actuation of the microswitch 120 causes the sector gear 100 to be rotated in a counterclockwise direction by the drive gear 100 to its normal position as shown in FIG. 13a after any paper 14 has been ejected from the integrated printer and the paper feeding apparatus 2.
  • Individual sheets of paper 14 are fed from one of the paper trays 10, 12 by rotation of the drive gear 162 (see FIG. 7) in either a clockwise or counterclockwise direction.
  • the platen 32 is rotated after a short programmed time delay.
  • the sector gear 100 is rotated in a counterclockwise direction to disengage the paper bail 78 from engagement with the surface of the platen 32.
  • the platen 32 is subsequently rotated a predetermined number of steps such that the leading edge of the sheet of paper 14 is positioned underlying the paper bail 78 and the sector gear 100 is rotated in the clockwise direction to cause the paper bail 78 to engage the platen 32 and secure the sheet of paper therebetween.
  • the print head carriage assembly sensor 62 detects the left edge of the sheet of paper and positions the print wheel 44 in its proper position for the start of typing to effect printing on the paper.
  • the platen 32 is indexed to roll the sheet of paper upward to accommodate the next line of printing.
  • the printed sheet of paper follows along the paper exit path and is guided by the exit guide plate 84 towards the ejector roller 70 and stationary ejector roller 72.
  • the sector gear 100 is rotated by the drive gear 110 in a clockwise direction to cause the engagement of the ejector roller 70 with the stationary ejector roller 72 for ejecting the printed sheet of paper from therebetween and into the paper stacking tray 16.
  • the sector gear 100 is rotated back to its normal position as shown in FIG. 13a. It is to be noted that the platen 32 is operative to smoothly advance a sheet of paper 14 along the paper feed path although the trailing edge of such paper is still engaged by the rollers 156, 156' of the paper feed shaft 154, 154'. This is achieved by the construction of the gears 158, 158' to include the roller clutch 160, 160' as previously described.
  • a further feature of the present invention is the provision of a manual paper feed path defined between the guide plates 272, 274 positioned upstanding behind the exit guide plate 84.
  • the manual paper feed path is provided for the manual feeding of sheets of paper, envelopes, index cards and the like to the printing device 26 by engagement of same between the platen 32 and the pressure rollers 40 and 40'.
  • the platen 32 can be manually indexed in a forward or reverse direction by use of the control panel 24 to effect feeding of such sheets of paper, envelopes, index cards and the like to the printing device 26.
  • the integrated printer and paper feeding apparatus 2 permits the automatic or manual loading of sheets of paper 14 into the printing device 26 for printing thereon either from commands located in the text being processed or by operator selection through the control panel 24.
  • the integrated printer and paper feeding apparatus 2 may be used to feed individual sheets 14 of paper automatically to the printing device 26 and print any previously created text that is stored on a disk or in the word processing unit without any additional commands for controlling the operation of the apparatus.
  • the paper 14 is guided between the platen 32 and the paper guide 38 having a plurality of pressure rollers 40 so that upon rotation of the platen, the paper will be advanced about the platen and move past the print wheel 44 so as to be in position for effecting printing thereon by movement of the print wheel transversely across the platen and by rotation of the platen to advance the paper for different lines of printing.
  • the paper 14 is positively fed by the rollers 156, 156' from the associated paper tray 10, 12 along the paper feed path to be received and moved by the platen 32.
  • the platen 32 may be advanced and moved in accordance with the normal printing instructions or commands for the printing device 26 for effecting printing on the paper.
  • the trailing edge of the paper 14, which in some instances may be in the paper feed path, is free to move back and forth along this path without interference from the paper trays 10, 12 or rollers 156, 156' of the paper feed shafts 154, 154'.
  • the paper 14 is moved backwards to align the leading edge with the print head carriage assembly sensor 62 and then further to sense the desired top margin.
  • the envelope tray 238 is positioned within the well 270 to the right of the guide plate 274 such that the leading edge of the lowermost envelope 248 is maintained in engagement with the rollers 260 of the envelope feed shaft 258.
  • a constant pressing force is applied to the top of the stack of envelopes 248 by the weight 256 to insure positive engagement between the lowermost envelope 248 and the rollers 260.
  • Activation of the motor 266 causes rotation of the rollers 260 in a counterclockwise direction to feed the bottommost envelope 248 from the stack thereof along the envelope feed path to the platen 32.
  • the topmost envelope 248 will be engaged by the stripping member 276 positioned adjacent the envelope feed path on the opposite side of the rollers 260.
  • the coefficient of friction between the stripping member and the envelope is greater than the coefficient of friction between the upper envelope and the lower envelope.
  • the rollers 260 of the envelope feed shaft 258 are operative to continue the movement of the lowermost envelope 248 along the envelope feed path while the upper envelope is retained by the stripping member 276.
  • the stripping member 276 prevents the inadvertent feeding of two envelopes 248 to the platen 32 along the envelope feed path upon rotation of the rollers 260 by the envelope feed shaft 258.
  • the weight 256 is continuously rotated downward by means of the U-shaped arm 252 thereby insuring positive engagement of the lowermost envelope with the rollers 260.
  • the apparatus of the present invention is enclosed within a simple housing having sound reducing material provided to reduce the operational noise of the apparatus.
  • the housing is designed to provide openings to conveniently receive the paper trays and envelope tray without having to remove the housing, as well as providing a top liftable cover for easy access to the components of the apparatus without having to remove the housing.

Landscapes

  • Handling Of Cut Paper (AREA)
  • Sheets, Magazines, And Separation Thereof (AREA)
  • Handling Of Sheets (AREA)
  • Controlling Sheets Or Webs (AREA)
  • Manual Feeding Of Sheets (AREA)
EP84305969A 1983-09-20 1984-08-31 Imprimante intégrée avec appareil d'alimentation du papier Withdrawn EP0138353A3 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US53412983A 1983-09-20 1983-09-20
US534129 1983-09-20

Publications (2)

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EP0138353A2 true EP0138353A2 (fr) 1985-04-24
EP0138353A3 EP0138353A3 (fr) 1985-07-31

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EP (1) EP0138353A3 (fr)
JP (1) JPS6093047A (fr)
CA (1) CA1246107A (fr)

Cited By (8)

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Publication number Priority date Publication date Assignee Title
DE3445633A1 (de) * 1984-12-14 1986-06-26 Mannesmann AG, 4000 Düsseldorf Vorrichtung zum separieren bzw. zufuehren von aufzeichnungstraegern fuer eine schreibmaschine, insbesondere fuer einen matrixdrucker
EP0204452A1 (fr) * 1985-05-15 1986-12-10 Oki Electric Industry Company, Limited Mécanisme de transport pour support d'enregistrement
FR2588508A1 (fr) * 1985-10-14 1987-04-17 Brother Ind Ltd Imprimante avec dispositif d'etablissement automatique de mode d'impression
DE3907313A1 (de) * 1988-03-08 1989-09-21 Canon Kk Aufzeichnungsgeraet
DE4135308A1 (de) * 1990-10-25 1992-04-30 Alps Electric Co Ltd Drucker
US5179636A (en) * 1988-03-08 1993-01-12 Canon Kabushiki Kaisha Recording apparatus
EP0593134A2 (fr) * 1987-11-05 1994-04-20 Sony Corporation Dispositif d'alimentation en papier pour une imprimante
CN109969826A (zh) * 2019-03-28 2019-07-05 东莞福泰电子有限公司 一种自动过胶机

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CH503591A (de) * 1969-06-02 1971-02-28 Ibm Vorrichtung zur Geräuschdämpfung an Schreib- und ähnlichen Maschinen
GB2035218A (en) * 1978-11-21 1980-06-18 Wordplex Ltd A Improvements in printing devices
US4275969A (en) * 1977-12-28 1981-06-30 Ricoh Company, Ltd. Printing machine
DE3007838A1 (de) * 1980-02-29 1981-09-10 Siemens AG, 1000 Berlin und 8000 München Vorrichtung fuer fernschreibmaschinen zur ablage von blattfoermigen aufzeichnungstraegern
WO1982000022A1 (fr) * 1980-06-24 1982-01-07 Inc Datamarc Appareil d'alimentation en enveloppes
US4388008A (en) * 1981-02-23 1983-06-14 Advanced Terminals, Inc. Automatic paper feeder

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Publication number Priority date Publication date Assignee Title
CH503591A (de) * 1969-06-02 1971-02-28 Ibm Vorrichtung zur Geräuschdämpfung an Schreib- und ähnlichen Maschinen
US4275969A (en) * 1977-12-28 1981-06-30 Ricoh Company, Ltd. Printing machine
GB2035218A (en) * 1978-11-21 1980-06-18 Wordplex Ltd A Improvements in printing devices
DE3007838A1 (de) * 1980-02-29 1981-09-10 Siemens AG, 1000 Berlin und 8000 München Vorrichtung fuer fernschreibmaschinen zur ablage von blattfoermigen aufzeichnungstraegern
WO1982000022A1 (fr) * 1980-06-24 1982-01-07 Inc Datamarc Appareil d'alimentation en enveloppes
US4388008A (en) * 1981-02-23 1983-06-14 Advanced Terminals, Inc. Automatic paper feeder

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE3445633A1 (de) * 1984-12-14 1986-06-26 Mannesmann AG, 4000 Düsseldorf Vorrichtung zum separieren bzw. zufuehren von aufzeichnungstraegern fuer eine schreibmaschine, insbesondere fuer einen matrixdrucker
EP0204452A1 (fr) * 1985-05-15 1986-12-10 Oki Electric Industry Company, Limited Mécanisme de transport pour support d'enregistrement
FR2588508A1 (fr) * 1985-10-14 1987-04-17 Brother Ind Ltd Imprimante avec dispositif d'etablissement automatique de mode d'impression
EP0593134A2 (fr) * 1987-11-05 1994-04-20 Sony Corporation Dispositif d'alimentation en papier pour une imprimante
EP0593134A3 (fr) * 1987-11-05 1994-12-14 Sony Corp Dispositif d'alimentation en papier pour une imprimante.
DE3907313A1 (de) * 1988-03-08 1989-09-21 Canon Kk Aufzeichnungsgeraet
US5179636A (en) * 1988-03-08 1993-01-12 Canon Kabushiki Kaisha Recording apparatus
DE4135308A1 (de) * 1990-10-25 1992-04-30 Alps Electric Co Ltd Drucker
CN109969826A (zh) * 2019-03-28 2019-07-05 东莞福泰电子有限公司 一种自动过胶机
CN109969826B (zh) * 2019-03-28 2024-02-06 东莞市福桔电子有限公司 一种自动过胶机

Also Published As

Publication number Publication date
CA1246107A (fr) 1988-12-06
JPS6093047A (ja) 1985-05-24
EP0138353A3 (fr) 1985-07-31

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