| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | Mechanism for forming personalized envelopes and inserts | US80395 | 1987-07-31 | US4733856A | 1988-03-29 | William H. Gunther, Jr. |
| A mechanism in which a personalized letter assembly is printed with a name and a personalized insert assembly is printed with the same name and the two are united into an envelope and in which the insert may be either a personalized letter or a personalized card. | ||||||
| 162 | Mechanism for folding an envelope around an insert | US899645 | 1986-08-25 | US4694632A | 1987-09-22 | William H. Gunther, Jr. |
| A mechanism for automatically feeding individual pre-cut sheets and stuffing a personalized letter or some other pre-cut insert into a personalized envelope. The mechanism has means to permit additional inserts to be automatically added to the envelope and to automatically seal the contents within the envelope. The mechanism will also combine pre-cut inserts and envelopes fed from different sources and form them into a completed mailing envelope. | ||||||
| 163 | System for in-line processing of envelopes and the like | US387106 | 1982-06-10 | US4627222A | 1986-12-09 | Jack W. Cantile |
| A system for in-line processing of envelopes and the like includes a first upstanding feed hopper for feeding primary rectangular envelopes through a first printer press operative to print predetermined indicia on the primary envelopes after which they are conveyed in the direction of their major longitudinal axes through an inserter station operative to insert special event envelopes between selected ones of the primary envelopes. The primary and insert envelopes are conveyed in-line past an ink jet type printer operative to print particular customer data on each successive envelope making up a set, followed by automatic collating and insertion of sets of envelopes into cartons. A pulse encoder and photoelectric sensors cooperate with various elements of the system and an electronic data processor to effect automatic high speed operation of the system. | ||||||
| 164 | Paper folding machine | US701182 | 1985-02-13 | US4573672A | 1986-03-04 | Werner Lehmann; Rainer Fecker; Manfred Fuss |
| A folding machine for folding sheet material comprises a housing defining a space and having an in-take opening and a discharge opening for sheet material before and after it is folded. A frame is provided in the housing and carries four rollers which are engaged with each other to form a take-in nip for receiving sheet material from the in-take opening, a first folding nip for executing a first fold on the paper and a second folding nip for executing a second fold of the paper. The rollers are engaged to each other by gears and are rotated by a single electric motor for moving the sheet material from the take-in nip to the first folding nip and from the first folding nip to the second folding nip. A pocket is formed upstream of the first folding nip in the housing for receiving the sheet of paper to stop its forward progress. The sheet of paper is continued to be fed by the take-in nip so that it folds into the first folding nip which draws the now once folded paper from the first pocket. A second pocket is provided downstream of the first folding nip to permit the second folding nip to form a second fold whereupon the folded sheet material is discharged through the discharge opening of the housing. The housing is formed in two articulated parts as is the frame so that the housing can be opened. Three of the rollers which define the take-in and second folding nips are connected to one part of the frame so that when the housing is opened these rollers are separated from the other roller. The housing and frame are designed to open on a plane which is near a tangential plane passing through the first folding nip. When the housing is opened the rollers and the pockets are exposed for removing paper that might have jammed in the folding machine. | ||||||
| 165 | Universal multi-station document inserter | US394388 | 1982-07-01 | US4547856A | 1985-10-15 | Peter N. Piotroski; John M. Gomes |
| A method and associated apparatus for providing a universal multi-station document inserter, including the steps of providing a plurality of feeder stations for feeding documents in response to signals from a central processor, providing each feeder station with a unique address, storing feeder programs in distributed processors associated with the feeder stations which provide instructions to each feeder station for feeding documents, storing a supervisory program in the central processor which is capable of providing address and command signals to the distributed processors of the feeder stations, and interconnecting the central processor and the distributed processors for the transmission of signals so that upon receipt of the proper address and command signals at the feeder stations, the feeder stations will provide certain document feeding functions under control of the central processor in accordance with instructions programmed into the distributed processors associated therewith. | ||||||
| 166 | Accessory interface circuit for universal multi-station document inserter | US482731 | 1983-04-06 | US4547846A | 1985-10-15 | Robert K. Gottlieb |
| A method and associated apparatus for interfacing with envelope handling accessories for a universal multi-station document inserter for performing predetermined functions with envelopes having documents inserted therein by the multi-station document inserter, comprising the steps of providing an accessory interface microcomputer, arranging accessories responsive to output signals from the accessory interface microcomputer in an array, providing envelope sensing means in the array for providing clock signals to the accessory interface microcomputer, storing data words in the accessory interface microcomputer, certain of the data words indicating particular combinations of enelope sensing means for envelope jams and other data words indicating the type of accessory, its output location and providing clock data relating to the particular accessory, and indicating the accessories to be actuated by an envelope entering the array, storing envelope handling programs in the accessory interface microcomputer, and actuating the accessories of the accessory array under control of the accessory interface microcomputer in accordance with the data words stored therein in response to clock signals from the envelope sensing means. | ||||||
| 167 | Insertion machine with control signals stored on searchable medium | US525767 | 1983-08-23 | US4544146A | 1985-10-01 | Edward H. Zemke, deceased; Harold D. Pogue; Girish B. Shah; Myron A. Bowles |
| An insertion machine system includes an insertion machine 100 of a type wherein a plurality of insert stations 152 are positioned proximate conveyor means 120 travelling therealong for selectively feeding inserts onto the conveyor means 120. A buffer and turnover assembly 106 receives a printed envelope from in-line printer means 104 and automatically introduces the printed article onto the conveyor 120 travelling proximate the insertion stations 152. A data processor 108 governs the acquisition from an information storage medium of information indicative of text to be printed on an envelope and information indicative of insert machine control signals. The data processor 108 further governs the operation of the printing means 104 whereby the printing means 104 prints on an envelope readable text. The data processing means 108 also communicates the insertion machine control signals to the insert machine 100, as well as govern the introduction by the buffer turnover assembly 106 of the printed envelope onto the conveyor means 120. | ||||||
| 168 | High speed method of making envelopes each with a separate enclosure | US568547 | 1984-01-05 | US4530731A | 1985-07-23 | William P. Bradley |
| An improved high speed method for producing quantities of discrete envelope assemblies, each assembly including an envelope and separate enclosure formed from the same blank of sheet material and having personalized information printed on both the envelope and enclosure that is unique to each assembly.The method provides for continuous operation of the method steps all occurring one after the other as each assembly travels in the same general direction throughout all processing operations. | ||||||
| 169 | Method of making envelope assemblies | US464648 | 1983-02-07 | US4530730A | 1985-07-23 | William P. Bradley; Michael Herman; Robert W. Paltrow |
| A method for producing quantities of discrete envelope assemblies including at least one separate enclosure for each assembly, the invention allows formation of the envelope and enclosure from the same sheet of material and allows marking of both envelope and enclosure with indicia which can be unique to each assembly. The method particularly allows continuous, high speed manufacture of assemblies personalized by name and address or the like by printing the indicia on a web of sheet material followed by formation of the web into a plurality of separate envelopes and enclosures with the envelopes and enclosures having like indicia being associated, the method including the use of a fugitive adhesive effected during manufacture, the contour cutting of the web prior to folding and the maintenance of a singular direction of travel of the web and elements cut therefrom throughout manufacture. | ||||||
| 170 | Apparatus for separating multiple webs of documents into discrete documents and forming the discrete documents into predetermined batches | US665816 | 1984-10-29 | US4527468A | 1985-07-09 | Peter N. Piotroski |
| A document inserter system having an improved control system is disclosed. The system includes a sheet inserter system and one or more web modules for, receiving a web of forms, scanning the forms for information, storing and retransmitting the information, separating the web into discrete forms and feeding the forms for further processing. The information includes control information scanned from a control document for controlling formation of a batch of forms associated with that control document. The control system includes a supervisory control processor which receives the control information and controls the sheet inserter system and the web modules in accordance therewith. The system also includes web control processor systems for direct control of each web module, which web control processor system are responsive to the supervisory control processor. The system is controlled in accordance with a prespecified configuration which defines the document type for each web module. An operator input is provided whereby an operator may specify a configuration for a mailing. In one embodiment the configuration is specified by interactive selection from a menu displayed by the supervisory control processor. A system and method for orderly shut-down and restart of the inserter system are also disclosed. | ||||||
| 171 | Inserter feeder assemblies | US185857 | 1980-09-11 | US4373711A | 1983-02-15 | Dean H. Foster; Harold Silverman |
| An inserter is adapted to insert successive enclosures from a stack carried by an enclosure feeder assembly into envelopes carried by an envelope feeder assembly. Each feeder assembly includes a sloped tray and a pair of side guides which engage the ends of the stack of materials being fed. Both side guides are adjusted by releasing a tab adjacent one of the guides and sliding the guide. An endless belt mounted beneath the tray assures symmetrical displacement of both guides relative to the center of the tray. A feed wheel is carried along a drive shaft which extends transversely above the tray. The hub of the feed wheel includes a one way clutch which permits adjustment of the feed wheel position. A separator stone projecting from beneath the tray in staggered registration with the feed wheel includes a stone shield. Both the stone and the stone shield are adjustable through control knobs accessible at the front of the inserter. One of the enclosure inserters includes an adjustable mount for spring biased skis which depend from the underside of its tray and engage enclosures which are being transported from a further feeder assembly. | ||||||
| 172 | Machine for making addressed and filled envelopes in a single operation | US13212171 | 1971-04-07 | US3894905A | 1975-07-15 | EHLSCHEID GUNTHER |
| A machine for producing envelopes from individual blanks or from a paper web in a single uninterrupted passage may have the following stations which may be arranged in different sequences: 1. Pulling in individual blanks or a web. 2. When necessary, cutting the web into blanks. 3. When necessary, printing the web or the blanks. 4. When necessary, cutting a window opening. 5. When necessary, adhesively fixing a window opening. 6. Stacking. 7. Gumming the closing flaps. 8. Drying the gumming of the closing flaps. 9. Individualizing from the stock. 10. Aligning the individualized blanks. 11. Creasing the folding lines. 12. Folding the side flaps. 13. Gumming the side flaps. 14. Folding the bottom flap unto the gummed side flaps. Folding the closing flap, and 16. Delivering the finished envelopes. The machine of the present invention is particularly characterized by the provision of a further station for applying one or more inserts which is located in the machine upstream of the station for folding the side flaps.
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| 173 | Envelope stuffing machine | US44247074 | 1974-02-14 | US3886715A | 1975-06-03 | DORER WILFRIED |
| An envelope stuffing machine includes a pair of pivot arms swingable from a rest position to an operative position and back to the rest position during each cycle of operation. Each of the arms is provided at one end with a hook-shaped member adapted to move into the mouth of an envelope positioned at a filling or stuffing station of the machine for opening and maintaining open the mouth of the envelope during a stuffing operation. The pivot arms are eccentrically supported such that as they swing, from the rest position to the operative position and back to the rest position, the hook-shaped members travel on a generally circular path. Thus the hook-shaped members enter the mouth of the envelope on a first path and maintain the mouth open during the stuffing operation, and are withdrawn from the mouth of the envelope on a second path so as to avoid partial withdrawal of the stuffed material from the envelope.
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| 174 | Demand feed hold down means | US3770263D | 1971-12-06 | US3770263A | 1973-11-06 | PARUPS E; CONTI J |
| The movements of several paired spring fingers from inoperative to operative positions are controlled by escapement mechanisms acting in response to sensing fingers which sense the passage of the leading and trailing edges of each insert, incident to translating them in succession to an envelope loading station, whereat their trailing edges are in alignment. One spring finger of each pair is automatically released to move to its operative position and thus hold down the trailing edge of each insert upon arrival at the loading station, preparatory for engagement by the ram of an inserting machine acting to stuff the inserts into an envelope.
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| 175 | Method and means for fold adjustment in a buckle chute folding machine | US3516655D | 1967-05-18 | US3516655A | 1970-06-23 | SCHMECK ROBERT E |
| 176 | Sequence checking system | US25908763 | 1963-02-18 | US3262696A | 1966-07-26 | ZUERCHER ANTHONY J |
| 177 | Sheet folding and inserting apparatus | US27347063 | 1963-04-16 | US3242637A | 1966-03-29 | WILLS KURT H |
| 178 | Inserting machine | US54326131 | 1931-06-10 | US2022475A | 1935-11-26 | MOORE MARY L |
| 179 | Assembling machine | US41505429 | 1929-12-18 | US1883307A | 1932-10-18 | ELIZABETH LIVINGSTON; LOUIS LIVINGSTON |
| 180 | Adjustable bearing for power-driven feed rolls | US33939129 | 1929-02-12 | US1777807A | 1930-10-07 | PECKER JOSEPH S |
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