子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | Mailer with oversized insert and method of making | US244727 | 1988-09-15 | US4931035A | 1990-06-05 | Eric Schmidt |
| A mailer having an oversized insert and method wherein an interior ply is transversely folded and adhered to an unfolded interior ply. | ||||||
| 102 | Recirculating folder for direct mail application | US286104 | 1988-12-19 | US4900391A | 1990-02-13 | Barry P. Mandel; William R. Burger |
| A sheet recirculating, folding and gluing system folds documents, holds them at a wait station and then inserts them into another sheet which is folded and glued "on-line" to form an envelope. | ||||||
| 103 | Holder for a panel cutting plate | US11587 | 1987-02-06 | US4823659A | 1989-04-25 | Roland Falasconi |
| The invention relates to a cutting tool and a tool holder for cutting panels from blanks of sheet-like material. The cutting tool comprises a thin cutting plate on which is formed by etching a cutting edge having a contour corresponding to the outline of the panels to be cut out. The cutting plate also comprises a plurality of openings which are surrounded by the cutting edge. The tool holder is a metallic cylinder to be mounted on the drive shaft of a conventional panel cutting apparatus and comprises a seat for receiving the cutting plate which is retained in the seat by keys. In the cylinder are formed passageways communicating with a source of vacuum and also communicating with the openings on the cutting plate to create a zone of vacuum in the vicinity of the cutting edge. | ||||||
| 104 | 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. | ||||||
| 105 | Data carrying assembly and method and apparatus for forming same | US783596 | 1985-10-03 | US4724996A | 1988-02-16 | Patrick J. Everett |
| The invention concerns sealed mailer assemblies including return units made from individual sheets in a single production line and a method and apparatus for forming them. The sheets have their longitudinal edges glued and are then formed with a plurality of transverse folds so that the adjacent parts of the longitudinal edges are all secured together. The free transverse edge is also glued down. Tear lines are formed within the glued edges so that on removal of the edge portions several separate pieces are provided. An ink jet printing unit is provided within the production line capable of forming accurately positioned personalized information on any data carrying part of each sheet. | ||||||
| 106 | Process for manufacturing sealed postal envelope assemblies | US682277 | 1984-12-17 | US4668212A | 1987-05-26 | Ryuichi Kotani |
| Apparatus for forming an assembly of sealed envelopes used as a postal mailer includes a main envelope processing unit for producing envelopes from the envelope-forming continuous sheet, and an intermediate element supply unit exchangably connected with the main envelope processing unit to supply the intermediate element to the main envelope processing unit. The main envelope processing unit including a stock of said envelope-forming continuous sheets; a device for continuously supplying said envelope-forming continuous sheets from said stock; a device for successively separating said envelope-forming continuous sheet supplied along said transverse weakening lines into discrete envelope units; a first feeder for feeding each of said discrete envelope units to an envelope folding and intermediate element inserting station; a folding operation unit in said envelope folding and intermediate element inserting station, said folding operation unit comprising a first folder for folding said discrete envelope unit along said first transverse folding line and a second folder for folding said discrete envelope unit along said second transverse folding line; a second feeder for feeding said intermediate element to said envelope folding and intermediate element inserting station. | ||||||
| 107 | Direct mail article with reply envelope and detachable reply devices visible within reply envelope | US679951 | 1985-01-15 | US4651920A | 1987-03-24 | John W. Stenner |
| Direct mail articles comprise an outer envelope containing a pre-formed reply envelope, detachable reply devices, such as coupons and a reply card, and optionally, one or more separate enclosure sheets. The reply envelope is provided with a plurality of apertured pockets adapted to receive at least one of the reply devices, where the apertures permit visual or machine sorting of the sealed envelopes based on the presence or absence of a particular reply device in a particular pocket. Methods of preparing personalized, finished articles from one or more integral sheets or webs are described. | ||||||
| 108 | 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. | ||||||
| 109 | 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. | ||||||
| 110 | Method of making a container strip having inserts | US151320 | 1980-05-19 | US4337058A | 1982-06-29 | Bernard Lerner |
| A method of forming a container strip of flexible sheet material having anti-corrosion inserts is disclosed. The method includes the steps of bringing two webs of flexible material into superimposed relationship, applying an adhesive to one of the webs, and feeding inserts, one by one, between the two webs. Thereafter, the webs are passed between rolls which compress the webs and the inserts to adhere the inserts to the web having adhesive. Edge seals, end seals, and perforations then are formed to produce a strip of flexible containers suitable for reception of corrosion prone articles.In an alternative embodiment, an adhesive is applied to both webs at spaced locations and an insert then is compressed between the webs at a location toward one end of the container. This technique produces a container having a header portion to provide support for display purposes. | ||||||
| 111 | Mechanism for making an envelope around an insert | US122278 | 1980-02-19 | US4312169A | 1982-01-26 | Roman M. Golicz; William H. Gunther, Jr.; James W. Hough |
| An improved machine and method of making and folding an insert and a personalized envelope therefor. | ||||||
| 112 | Envelope | US140805 | 1980-04-16 | US4308988A | 1982-01-05 | Jan Jiveman; Raymond Bengtsson; Rasit Kaya; Rune Bengtsson |
| The invention relates to an envelope of plastic sheet material consisting of a thermoplastic sheet, which is laminated to a sheet of hydrophilic material at least on the side forming the outside of the envelope. The flap belonging to the envelope is laminated to a paper layer at least on its inside, said layer supporting a gumming. The invention also relates to a method for continuously making such envelopes, a web of a plastic sheet laminated according to the above being folded with its edge portions towards a central area, which is left free. One or more paper webs are laminated to this central area and punched-out areas are made in the central area to a desired shape of the flaps of the envelopes. The envelopes are thereafter sealed along their sides by means of transversal welding seams and separated from each other. | ||||||
| 113 | Device and method for folding self-sealing envelope flaps | US47806 | 1979-06-12 | US4270909A | 1981-06-02 | Roger H. Ireland |
| A device and method for folding the main and secondary flaps of self-sealing envelopes into the inoperative condition. The envelopes (11) are fed, bottom edge leading, into a roller (20), the front panel of the envelope being in contact with the roller. The bottom edge lifts off the roller and the envelope is arrested and temporarily supported by abutment means (38,40,44) while the main flap (16) of the envelope is held to the roller by suction (22,24) and carried around the roller and thereby folded relative to the front panel of the envelope. In this position of the envelope, the secondary flap (18) slidably engages the surface of the roller and is then arrested by stop means (28) which carry the secondary flap (18) around and fold it relative to the back panel of the envelope. | ||||||
| 114 | Envelope feed apparatus | US901333 | 1978-05-01 | US4233931A | 1980-11-18 | David L. Gingerich; Robert Cohn |
| A plurality of spaced, endless, coplanar, envelope feed belts have their upper runs interleaved and coplanar with the upper run of an envelope support belt at one end of the apparatus, which conveys the envelopes through an apparatus for applying sealant material to the flap closure portion and an adjacent body portion of the envelope. The envelopes are smoothly transferred from the feed belts to the support belt due to the simultaneous support of both belt systems at the delivery end of the apparatus. Another belt is then overlapped with the support belt at the delivery end of the apparatus to clamp the envelopes therebetween as they are conveyed through the sealant applying apparatus. | ||||||
| 115 | Method for making side seam envelopes from a web | US867328 | 1978-01-05 | US4173922A | 1979-11-13 | Herbert W. Helm |
| A paper web is unwound and conveyed through an envelope making machine where a side flap cutting device forms side flaps in the side edges of the web. Scorer rollers form longitudinal scores in the side flaps and the side flaps are thereafter folded along the score lines. Other scorer rollers form transverse score lines for the top and bottom flaps of the envelope. Envelope blanks having the folded side flaps are thereafter severed from the web and separated from each other. After the blanks are severed from the web, gum is applied to the upper surface of the side flaps of the severed envelope blanks and the bottom flap is folded into overlying relation with the folded side flaps to form the pocket in the envelope. The so formed envelopes are thereafter collated into overlying relation with the edges of the top flap exposed. Gum is applied to the top flaps and dried. The top flap is then folded into overlying relation with the bottom flap. | ||||||
| 116 | Envelope forming assemblies | US802249 | 1977-05-31 | US4138934A | 1979-02-13 | Victor Palkovic |
| An assembly is provided of a known high speed envelope blank cutting unit with a known envelope folding unit and an envelope conveyor to transport a continuous stream of envelope blanks from the blank cutting unit to the folding unit in a predetermined timed sequence and in position for proper entry into the folding unit. The conveyor includes predetermined transport segments positioned, relative to one another, to accommodate necessary path direction changes, and a stacking or shingler segment. Opposed belt systems in each transport segment maintain the blanks in a desired relative relation. The belts are driven from the blank cutting unit, with each transport segment driven by or driving adjacent segments. The timing between the blank cutting unit, the folding unit, and the envelope conveyor is selected and adjusted through an adjustable drive shaft arrangement interconnecting the two units. | ||||||
| 117 | Apparatus for gumming and folding open end envelopes | US798383 | 1977-05-19 | US4138933A | 1979-02-13 | Herbert W. Helm |
| A transfer cylinder is rotatably mounted in a machine frame and is positioned in spaced parallel relation with a rotatable delivery cylinder. A side fold cylinder is positioned intermediate the transfer and delivery cylinders. The transfer cylinder conveys the envelope blank onto the periphery of the side fold cylinder. Rotation of the side fold cylinder with the envelope blank retained thereon folds the side flap and advances the folded envelope into engagement with the delivery cylinder. A gumming cylinder having an adhesive applicator portion is positioned adjacent the delivery cylinder and is operable to apply a strip of adhesive to the exposed bottom flap of the envelope blank as the blank is transferred from the delivery cylinder to the gumming cylinder. A selected amount of the adhesive is transferred from a reservoir by a roller to the surface of the adhesive applicator. The gumming cylinder rotates in timed relation to the delivery cylinder and in an opposite direction. The gummed envelope blank passes from the delivery cylinder and is engaged by a backup roller to transfer the envelope blank onto the upper surface of the gumming cylinder. The gumming cylinder feeds the envelope blank to a folding device that includes a plowshare and a formerblade. The bottom flap is folded and adhesively secured to the side flap while the top flap is folded in overlying relation with the side flap to close the open end of the envelope. | ||||||
| 118 | Method of and apparatus for manufacturing envelopes | US699301 | 1976-06-24 | US4091596A | 1978-05-30 | Charles L. Jones |
| A method of and a machine for the simultaneous forming of and stuffing of an insert into an envelope blanked from a paper web wherein the web is intermittently advanced along a first path, scored along preselected fold lines and notched at preselected spaced intervals for defining unsevered envelope blanks having a bottom flap, a closure flap and end flaps. The bottom flap of each envelope blank is folded as the web advances along the first path to form a pocket, the leading envelope blank is stopped and registered at a preselected position, severed and charged with an insert into the pocket defined by the bottom flap. The charged envelope blank is advanced along a second path perpendicular to the first path, where adhesive is applied to the end flaps, the end flaps folded into sealing relationship with the bottom flap. The charged envelope blank is then advanced along a third path perpendicular to the second path where adhesive is applied to the closure flap and the closure flap folded into sealed relationship with the bottom and end flaps. | ||||||
| 119 | Method of making multiple enclosure mailer | US766552 | 1977-02-07 | US4067171A | 1978-01-10 | Everett H. Herbert; Randolph S. Lyon, Jr.; Kurt E. Volk, Jr.; Robert W. Wassmer |
| Methods for preparing multiple separate personalized enclosures such as lettersheets, forms, return-mail applications and the like, contained in an envelope, which enclosures and envelope are prepared from two or more integral sheets. | ||||||
| 120 | Apparatus for preparing sealed envelope units with messages | US637694 | 1975-12-04 | US4031818A | 1977-06-28 | James W. Kehoe |
| A multiple, potentially variable message printing method is disclosed which comprises: storing desired message information in a computer system; moving a single, continuous strip of paper in the direction of its long axis across printing means operated by said computer system to print the desired message information on the continuous strip; and thereafter folding and severing the single strip of paper to form a plurality of separate, sealed envelope units, each carrying a specific message which may be of variable content if desired. Alternatively, separate paper sheets are processed through such a computer system and then folded into separate message units. | ||||||
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