公开(公告)号：CA1101292A

公开(公告)日：1981-05-19

申请号：CA360764

申请日：1980-09-22

Applicant: DYNETICS ENG CORP

Inventor： HILL JAMES E ,  DAHLSTROM BAESLEY I ,  FISHER ROBERT D

IPC: G06K19/00

Abstract: Single-sheet, multi-panel carriers for receiving and retaining credit cards during credit card issue and mailing procedures. Cards may be inserted in the carriers manually or by machine. Plural carrier forms are preferably provided in a continuous fan-folded web, and individual carriers are separable therefrom at perforations between subsequent and/or adjacent carriers. Apertures for pin drive or indexing mechanisms may be provided, optionally in removable strips along one or more margins of the carrier. The carriers have special slits or slots for retaining one to four cards singly, or double that in a piggy-back manner, in vertical or horizontal configurations. Carriers also have a plurality of panels which assist in retaining the cards by wedge trapping during manual or machine issue processing (inserting, collating, verification and stuffing) and mailing operations. Carriers also carry verification and/or identification information thereon relating to the account, e.g., name, number of cards, account(s) number(s), credit limit, address, debit usage criteria, and the like, in one or more forms which may be read visually, electro-optically, mechanically, optically, electromechanically, magnetically and/or electronically. Carriers are specially adapted for production by sheet-fed glued, or roll-to-fold, high-speed web printing procedure One and two-wide carrier form sets are disclosed. Imprinting of verification and/or identification indicia may be done by any impact or non-impact procedures, e.g., drum, line, or computer-controlled, non-impact, spray-type printers. Tear-out, wallet-sized loss or ID cards are also provided in one embodiment of the carriers. Apparatus for automated scanning of credit cards and carriers, comparing information thereon and inserting the proper number of cards in the proper carrier, folding the carrier, pulling bad accounts, and stuffing in mailing envelopes. Methods of producing the carriers, inserting cards, folding, pulling and stuffing also disclosed.

公开(公告)号：FR2174075B1

公开(公告)日：1979-03-23

申请号：FR7306860

申请日：1973-02-27

Applicant: INT DYNETICS CORP

IPC: B30B15/16 ,  B30B9/28 ,  B30B9/30 ,  B30B15/22 ,  B65F5/00 ,  B65F9/00 ,  B30B1/36 ,  G01L9/00

公开(公告)号：CA982025A

公开(公告)日：1976-01-20

申请号：CA188731

申请日：1973-12-21

Applicant: DYNETICS

Inventor： CRANKSHAW JOHN H

公开(公告)号：GB1399916A

公开(公告)日：1975-07-02

申请号：GB3174072

申请日：1972-07-06

Applicant: INT DYNETICS CORP

IPC: B30B9/30 ,  B65B1/24 ,  B65B1/06

Abstract: 1399916 Waste compactor INTERNATIONAL DYNETICS CORP 6 July 1972 [9 July 1971] 31740/72 Heading B8C A waste compactor comprises a tubular compaction chamber 20 of uniform cross-section along its length and having discharge and feed openings 16, 56 respectively at its leading and trailing ends, a shoot 28 communicating with the feed opening 56 for delivery of refuse thereto, a ram 34 longitudinally movable in said chamber between a first position to the rear of the feed opening and a second position forward of said feed opening to move refuse into, and along, the chamber forwardly to said discharge opening 16, the portion of the chamber located between said second position and said discharge opening having a plurality of elongated ribs 59 spaced from each other and each extending along the path of movement of the refuse and extending radially from the inner surface of said chamber toward the centre thereof by an amount sufficient to decrease the crosssectional area of said chamber and increase the surface area for contact by refuse between said second position and said discharge opening, whereby refuse is compacted on movement of the ram from the second position to said discharge opening. The ribs 54, which provide a compaction resistance to the flow of refuse along the chamber 54 and which are preferably of triangular rectangular shape, may be of rectangular, rounded, or other shape and they may be of spiral form and curved relative to the central axis of the chamber, the leading edges of the ribs being bevelled at 58. The chamber 20 comprises a cantilevered end of a tubular body 10 which has a feed section 22, which communicates with an inlet 28 of a shoot 30 having an electric eye 34, and which houses an hydraulic compaction unit 26 including a double-acting cylinder 36 and the ram 34. The latter carries a gate plate 42, which, in the forward position of the piston 34, blocks the inlet to the section 22 so that refuse from the shoot 30 collects upon it. When refuse on the gate plate 42 is sensed by the eye 34 the ram 34 is operated, each successive stroke of the latter pushing a quantity of refuse forward into the compaction chamber 20 so that the refuse is compacted axially, in disclike laminations, and is collected in a bag 60 which is shirred over the compaction chamber 20, is held by a pair of pivoted arms 64, and is secured by a chain 70. The latter is connected to a switch 72 connected to the control circuit of the ram 34. The bag 60 is adapted to be cut and tied at selected intervals on the discharge of refuse from the compactor. The degree of compaction of the refuse is dependent upon the length of the chamber 20 and the radial extent of the ribs 54.

公开(公告)号：IT982135B

公开(公告)日：1974-10-21

申请号：IT1252673

申请日：1973-03-21

Applicant: INT DYNETICS CORP

IPC: B30B1/18 ,  B30B9/28 ,  B30B9/30 ,  B65F5/00 ,  B65F

Abstract: A compactor comprising a base on which a container is secured. A column is fixed to the base and a ram is located movably in the column. The ram is moved into and out of the container to compact the refuse therein.

公开(公告)号：CA942996A

公开(公告)日：1974-03-05

申请号：CA81667

申请日：1970-05-01

Applicant: INT DYNETICS CORP

Inventor： LONGO JOSEPH F

IPC: B09B3/00 ,  B30B9/30 ,  B65B63/02

Abstract: 1,270,478. A compacting device for refuse. INTERNATIONAL DYNETICS CORP. 4 May, 1970 [8 May, 1969; 29 Oct., 1969], No. 21389/70. A refuse compacting device for automatically and successively compacting and bagging a series of refuse loads comprises a compaction ram 40 which is operated by an hydraulic cylinder 28, works in a compression chamber 10, and has a forward end of half-cylindrical form complementary to the forward end 22 of the chamber 10, an expulsion ram 58 which is located above the compaction zone 22 and which is operated by an hydraulic cylinder 59, a door 62, which is slidable, by an hydraulic cylinder 68 to close and open an outlet aperture 50 in the base of the chamber 10, and a rotatable platform 78 which is indexable about a pivot 82, by an electric motor 92 and gearing 86, 96 to place, in turn, each of the six containers 80 carried thereby to a position below the opening 50. The chamber 10 has a feed opening 24 and a hopper 26 with a photo-electric eye 132, the platform being provided with a number of coaster wheels 88. The operating cylinders 28, 59, 68 are controlled respectively by four-way valves (100, 110, 114) each cylinder being associated with a number of micro-switches which are arranged in a control circuit, Fig. 7 (not shown), so that the device functions in a cyclical fashion proceeding from one filled can 80 to the next empty can until all of the cans are filled with a slug of compacted garbage. The ram 40 reciprocates indefinitely until either the shoot 26 is empty or the photoelectric eye 132 senses no material therein and when the compacted slug of trash has reached the predetermined density and is ready for extraction by the ram 58 which descends to push the slug through the open opening 48 and into a corresponding can 80. The ram 40 also reciprocates indefinitely until the final extraction is completed and the last of the complement of cans is full and when the ram 40 is blocked in its forward movement by an obstacle within the chamber 10 preventing movement of the ram through the position B. In the latter case, a ten second time delay relay allows the ram 40 to attempt to shear, or destroy, the obstacle against a row of teeth 46. If the obstacle is destroyed the ram 40 moves forward as with a normal cycle, if not, the ram is immediately retracted whereupon it continues repeated reciprocal movement at high pressure. If, at the end of the 60 seconds the blockage is still not cleared the compaction cycle stops and a red warning light is illuminated. If, however, the obstruction is now cleared normal compaction operation proceeds. Successive sequential compactions of trash are made and extraction cycles completed until the platform 78 indexes through each container position to its starting position whereupon a re-loading operation amber light comes on. For maintenance purposes an extraction cycle may be initiated without a compaction cycle. In a modification, Fig. 8 (not shown), the door which controls the opening 50 is circular and is pivotally mounted, and the platform (78) may be driven by an electric motor (92) through pinion and ring gear 162.

公开(公告)号：FR2177772A1

公开(公告)日：1973-11-09

申请号：FR7306861

申请日：1973-02-27

Applicant: INT DYNETICS CORP

IPC: B30B1/18 ,  B30B9/28 ,  B30B9/30 ,  B65F5/00 ,  B30B15/14 ,  B65F1/14

Abstract: A compactor comprising a base on which a container is secured. A column is fixed to the base and a ram is located movably in the column. The ram is moved into and out of the container to compact the refuse therein.

公开(公告)号：CA914483A

公开(公告)日：1972-11-14

申请号：CA914483D

Applicant: INTERNAT DYNETICS CORP

Inventor： LONGO JOSEPH F

IPC: B30B9/30 ,  B30B15/06

公开(公告)号：FR2074208A5

公开(公告)日：1971-10-01

申请号：FR7046411

申请日：1970-12-23

Applicant: INT DYNETICS CORP

IPC: B30B9/30 ,  B65F1/00

Abstract: A household compaction unit having a receptacle for collection of trash and a hydraulic ram operated by household water supply to compact said garbage.

公开(公告)号：DE69730169D1

公开(公告)日：2004-09-09

申请号：DE69730169

申请日：1997-10-06

Applicant: DYNETICS

Inventor： FIKES W ,  FOSTER M ,  PERKINS H ,  STANFIELD M ,  BERINATO J

IPC: G02B26/10 ,  G06K7/10 ,  G11B7/00 ,  F04C23/00

Abstract: A scanner and a method for scanning a beam along a path employs a housing tint defines a first cylindrical cavity. A ring gear is disposed within the cylindrical cavity and affixed to the housing. A beam is generated from a fixed location relative to the housing. A drive disk is disposed within the first cylindrical cavity. The drive disk defines a second cylindrical cavity and has a first axis of rotation. The drive disk defines a first channel in communication with the beam. The first channel has a first proximal end pivotally rotatable about an axis adjacent the fixed location. A scan disk is disposed within the second cylindrical cavity and has a second axis of rotation offset from the first axis of rotation. The scan disk defines a second channel. The second channel has a second proximal end in communication with the first distal opening. The second proximal end pivotally rotates about an axis adjacent the first distal end. A ring motor causes the drive disk to rotate about the first axis in a first direction. A spur gear, affixed to the scan disk, engages the ring gear so that as the drive disk rotates in the first direction, the spur gear is displaced along the ring gear thus causing the scan disk to rotate in a second direction opposite the first direction causing the second distal end to reciprocate. The beam is coupled through the first channel and the second channel and out of the second distal opening toward the path, thereby causing the beam to scan along the path as the second distal end reciprocates.