公开(公告)号：IT962565B

公开(公告)日：1973-12-31

申请号：IT1277072

申请日：1972-07-07

Applicant: INT DYNETICS CORP

Inventor： LONGO J

IPC: B30B9/30 ,  B65F

Abstract: A waste compactor comprising a longitudinally extending compaction chamber, having a discharge opening at its leading end and a feed opening at its trailing end. A chute communicating with the feed opening is provided by which delivery of refuse may be made to the chamber. A horizontally moveable ram is mounted to the rear of the trailing end of the chamber and is reciprocably moveable from a first position forward of the feed opening to a second retracted position to the rear of the feedopening, thereby to successively move the refuse toward the discharge opening. At least a portion of the compression chamber located between the feed and discharge openings is provided with a plurality of elongated flutes extending substantially along the path of movement of the refuse and radially extending through the inner surface of the chamber toward the center thereof.

公开(公告)号：SE358113B

公开(公告)日：1973-07-23

申请号：SE621170

申请日：1970-05-05

Applicant: INT DYNETICS CORP

Inventor： LONGO J

IPC: B09B3/00 ,  B30B9/30 ,  B65B63/02 ,  B30B9/32

Abstract: 1,270,613. Device for automatically compacting waste material. INTERNATIONAL DYNETICS CORP. 4 May, 1970 [8 May, 1969], No. 21388/70. Heading B8C. Apparatus for automatically compacting waste material comprises a tubular steel chamber 11 of square cross-section which is closed at its rear end 17 and has, at its forward end, a discharge opening 18 closable by a gate 37 and which accommodates a ram piston 32 which has an upper row of teeth 34 and normally rests in position A, Fig. 7, where a gate defining plate 33 carried by the ram 32 closes a rectangular feed opening in the upper plate 33 of the chamber 11. A shoot 23, coupled to a flange 22 around the opening 21 and leading to one or more rubbish depositing openings, has a vertically adjustable photo-electric sensor 60. A bank of seven position-sensing microswitches S1A, S1B, S2-S6, each carrying a cam follower roller, are transversely-spaced across the top of a ram cylinder 29 and co-operate with corresponding switch actuating cams C1A, C1B, C 2 - C 6 , Fig. 2A, which are variously axially located in corresponding transverse relationships to the micro switches beneath the gate plate 33. The switch arrangement is incorporated in an electrical control circuit, Fig. 9 (not shown), which includes a fluid reservoir (57) and a high-pressure, variable displacement, pump (58) which supplies either normal, or high, pressure to one end of the hydraulic cylinder (29) through a four-way valve (56) actuated by solenoids (VR, VF). The control unit functions so that, with the gate 37 closed and a time delay of about 10 seconds after sufficient waste has accumulated on the gate plate 33 in the shoot 23, the ram 32 reciprocates backward and forward between positions A and C, Fig. 7, to pack material in a compression chamber 19 behind the gate 37. When the density of the material reaches a certain value the corresponding rise in hydraulic ram pressure stops the ram 32. Additional compression cycles of the ram 32 can be obtained, at this stage, by pressing a switch (S9). Unloading is carried out by unlatching the gate 37 and swinging it downwardly, and then placing an empty bag 65 over the discharge opening 18 whereupon the switch (S9) is pressed and the ram 32 is advanced to position D to displace the compacted mass 66 into the bag 65 which is then removed. The ram 32 is then returned to its original position A and the gate is closed for the compacting cycles to be repeated. If, during the ejection stroke of the piston 32 up to position D, the gate 37 is raised from its open position, the ram 32 is returned to its intermediate stand-by position. Also, if due to an obstruction, the ram 32 jams the rise in hydraulic pressure causes a switch (HS) to be actuated so that reciprocation of the ram 32 takes place at a higher pressure. In a modification, Fig. 13 (not shown), the gate (37) is mounted about a vertical hinge pin to swing horizontally. Fig. 10 shows the latching mechanism for the gate 37.

公开(公告)号：CA905210A

公开(公告)日：1972-07-18

申请号：CA905210D

Applicant: INTERNAT DYNETICS CORP

Inventor： LONGO JOSEPH F

IPC: B30B9/30 ,  B30B15/06

公开(公告)号：GB1270613A

公开(公告)日：1972-04-12

申请号：GB2138870

申请日：1970-05-04

Applicant: INTERNAT DYNETICS CORP

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

Abstract: 1,270,613. Device for automatically compacting waste material. INTERNATIONAL DYNETICS CORP. 4 May, 1970 [8 May, 1969], No. 21388/70. Heading B8C. Apparatus for automatically compacting waste material comprises a tubular steel chamber 11 of square cross-section which is closed at its rear end 17 and has, at its forward end, a discharge opening 18 closable by a gate 37 and which accommodates a ram piston 32 which has an upper row of teeth 34 and normally rests in position A, Fig. 7, where a gate defining plate 33 carried by the ram 32 closes a rectangular feed opening in the upper plate 33 of the chamber 11. A shoot 23, coupled to a flange 22 around the opening 21 and leading to one or more rubbish depositing openings, has a vertically adjustable photo-electric sensor 60. A bank of seven position-sensing microswitches S1A, S1B, S2-S6, each carrying a cam follower roller, are transversely-spaced across the top of a ram cylinder 29 and co-operate with corresponding switch actuating cams C1A, C1B, C 2 - C 6 , Fig. 2A, which are variously axially located in corresponding transverse relationships to the micro switches beneath the gate plate 33. The switch arrangement is incorporated in an electrical control circuit, Fig. 9 (not shown), which includes a fluid reservoir (57) and a high-pressure, variable displacement, pump (58) which supplies either normal, or high, pressure to one end of the hydraulic cylinder (29) through a four-way valve (56) actuated by solenoids (VR, VF). The control unit functions so that, with the gate 37 closed and a time delay of about 10 seconds after sufficient waste has accumulated on the gate plate 33 in the shoot 23, the ram 32 reciprocates backward and forward between positions A and C, Fig. 7, to pack material in a compression chamber 19 behind the gate 37. When the density of the material reaches a certain value the corresponding rise in hydraulic ram pressure stops the ram 32. Additional compression cycles of the ram 32 can be obtained, at this stage, by pressing a switch (S9). Unloading is carried out by unlatching the gate 37 and swinging it downwardly, and then placing an empty bag 65 over the discharge opening 18 whereupon the switch (S9) is pressed and the ram 32 is advanced to position D to displace the compacted mass 66 into the bag 65 which is then removed. The ram 32 is then returned to its original position A and the gate is closed for the compacting cycles to be repeated. If, during the ejection stroke of the piston 32 up to position D, the gate 37 is raised from its open position, the ram 32 is returned to its intermediate stand-by position. Also, if due to an obstruction, the ram 32 jams the rise in hydraulic pressure causes a switch (HS) to be actuated so that reciprocation of the ram 32 takes place at a higher pressure. In a modification, Fig. 13 (not shown), the gate (37) is mounted about a vertical hinge pin to swing horizontally. Fig. 10 shows the latching mechanism for the gate 37.

公开(公告)号：DE2022069A1

公开(公告)日：1970-11-19

申请号：DE2022069

申请日：1970-05-05

Applicant: INTERNAT DYNETICS CORP

Inventor： F LONGO JOSEPH

IPC: B09B3/00 ,  B30B9/30 ,  B65B63/02 ,  B30B15/16

Abstract: 1,270,613. Device for automatically compacting waste material. INTERNATIONAL DYNETICS CORP. 4 May, 1970 [8 May, 1969], No. 21388/70. Heading B8C. Apparatus for automatically compacting waste material comprises a tubular steel chamber 11 of square cross-section which is closed at its rear end 17 and has, at its forward end, a discharge opening 18 closable by a gate 37 and which accommodates a ram piston 32 which has an upper row of teeth 34 and normally rests in position A, Fig. 7, where a gate defining plate 33 carried by the ram 32 closes a rectangular feed opening in the upper plate 33 of the chamber 11. A shoot 23, coupled to a flange 22 around the opening 21 and leading to one or more rubbish depositing openings, has a vertically adjustable photo-electric sensor 60. A bank of seven position-sensing microswitches S1A, S1B, S2-S6, each carrying a cam follower roller, are transversely-spaced across the top of a ram cylinder 29 and co-operate with corresponding switch actuating cams C1A, C1B, C 2 - C 6 , Fig. 2A, which are variously axially located in corresponding transverse relationships to the micro switches beneath the gate plate 33. The switch arrangement is incorporated in an electrical control circuit, Fig. 9 (not shown), which includes a fluid reservoir (57) and a high-pressure, variable displacement, pump (58) which supplies either normal, or high, pressure to one end of the hydraulic cylinder (29) through a four-way valve (56) actuated by solenoids (VR, VF). The control unit functions so that, with the gate 37 closed and a time delay of about 10 seconds after sufficient waste has accumulated on the gate plate 33 in the shoot 23, the ram 32 reciprocates backward and forward between positions A and C, Fig. 7, to pack material in a compression chamber 19 behind the gate 37. When the density of the material reaches a certain value the corresponding rise in hydraulic ram pressure stops the ram 32. Additional compression cycles of the ram 32 can be obtained, at this stage, by pressing a switch (S9). Unloading is carried out by unlatching the gate 37 and swinging it downwardly, and then placing an empty bag 65 over the discharge opening 18 whereupon the switch (S9) is pressed and the ram 32 is advanced to position D to displace the compacted mass 66 into the bag 65 which is then removed. The ram 32 is then returned to its original position A and the gate is closed for the compacting cycles to be repeated. If, during the ejection stroke of the piston 32 up to position D, the gate 37 is raised from its open position, the ram 32 is returned to its intermediate stand-by position. Also, if due to an obstruction, the ram 32 jams the rise in hydraulic pressure causes a switch (HS) to be actuated so that reciprocation of the ram 32 takes place at a higher pressure. In a modification, Fig. 13 (not shown), the gate (37) is mounted about a vertical hinge pin to swing horizontally. Fig. 10 shows the latching mechanism for the gate 37.

公开(公告)号：AT444139T

公开(公告)日：2009-10-15

申请号：AT99921847

申请日：1999-05-11

Applicant: DYNETICS LLC

Inventor： PERRY WINFIELD ,  O'SHEA LIAM ,  WRIGHT MARK

IPC: B24B1/00 ,  B24B31/116 ,  B23Q39/04 ,  B24B3/16 ,  B24B31/00 ,  B24C3/20 ,  B24C3/32

Abstract: A system to smooth and radius a microhole in a workplace to calibrate the mircohole which comprises means for preconditioning a microhole with a liquid abrasive slurry at a first station, means for flowing a calibration fluid through the preconditioned microhole and means for flowing a slurry through the microhole for a predetermined time based on the flow rate of the calibration fluid.

公开(公告)号：CA2273919C

公开(公告)日：2006-08-01

申请号：CA2273919

申请日：1997-10-06

Applicant: DYNETICS

Inventor： STANFIELD JAMES M ,  PERKINS FRANKLIN H ,  FOSTER LARRY M ,  FIKES JOSEPH W ,  BERINATO ROBERT J

IPC: G06K7/10 ,  G02B26/08 ,  G02B26/10

Abstract: A scanner and a method for scanning a beam along a path employ a housing (320) that defines a first cylindrical cavity (322). A ring gear (330) is disposed within the cylindrical cavity and affixed to the housing. A beam (312) is generated from a fixed location relative to the housing. A drive disk (340) is disposed within the first cylindrical cavity. The drive disk defines a second cylindrical cavity (348) and has a first axis of rotation (315). The drive disk defines a first channel in communication with the beam. The first channel (346) has a first proximal end pivotally rotatable about an axis adjacent the fixed location. A scan disk is disposed within th e second cylindrical cavity and has a second axis of rotation offset from the first axis of rotation. The scan disk defines a second channel (366). The second channel has a second proximal end (374) in communication with the first distal opening (354). A spur gear (332), affixed to the scan disk, engages the ring so that the drive disk rotates in the first direction, the spur gear is displaced along the ring gear (330), 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 seconddistal opening toward the path, thereby causing the beam to scan along the path as the second distal end reciprocates.

公开(公告)号：CA2407590A1

公开(公告)日：2001-08-30

申请号：CA2407590

申请日：2001-02-22

Applicant: DYNETICS ENGINEERING CORP INC

Inventor： BRETL ROBERT J ,  BRETL JAMES G ,  HILL JEFFERY L ,  HILL GREGORY S

IPC: B43M3/04 ,  B43M5/04 ,  B31B1/02

Abstract: A card package production system (100) with a printer module (102) that prin ts and provides carriers (113) to an attachment module (104) for attaching card s (130) to matching carriers has a carrier transport mechanism (Figs. 11-14 an d 48) with carrier support members (224 and 226) with upstream ends that are elevated relative to the downstream ends of downstream carrier support membe rs (226 and 228), respectively, to enable an upstream carrier to pass over the top of a downstream carrier to prevent the upstream carrier from jamming int o the downstream carrier during a temporary halt in operation.

公开(公告)号：ES2141224T3

公开(公告)日：2000-03-16

申请号：ES94912865

申请日：1994-03-24

Applicant: DYNETICS ENG CORP

Inventor： HILL JEFFREY L ,  HILL GREGORY S ,  BRETL ROBERT J ,  ZUCK GARY ,  KASSABIAN FRED J ,  JORDAN BRYANT J

IPC: B42D15/10 ,  B43M3/04 ,  G06K1/12 ,  G06K5/00 ,  G06K5/02 ,  G06K17/00 ,  G07F7/08 ,  B32B31/00

Abstract: Methods of operating embossed card package production system (10) by verifying by reading and comparing information obtained by reading embossed (32) and magnetically encoded information (35) and coded information (27) on a carrier (26A, 26B) stored card and carrier information in a forms data memory (44) and a card data memory (40) to make new cards appropriately prepared and are correctly matched to the carriers (26A, 26B). Incorrect cards (30) are sent to a reject location (90) to prevent formation of incorrect packages. Only cards (30) which are determined to be correctly prepared have activation labels 21 applied which also serve to distinguish them from incorrectly prepared cards (30) and inventory reports are automatically kept of rejected carriers, rejected cards and the number of labels as well as the number of correct carriers produced which are printed on the very type of carrier to which the accounting information relates with a carrier printer (48). Multiple types of bar codes (22) and identified and decoded automatically.

公开(公告)号：ES2139427T3

公开(公告)日：2000-02-01

申请号：ES97402083

申请日：1994-03-24

Applicant: DYNETICS ENG CORP

Inventor： HILL JEFFREY L ,  HILL GREGORY S ,  BRETL ROBERT J

IPC: B42D15/08 ,  B42F5/00 ,  B43M3/04 ,  B42D5/02