公开(公告)号：AU5229473A

公开(公告)日：1974-08-22

申请号：AU5229473

申请日：1973-02-19

Applicant: INT DYNETICS CORP

Inventor： LONGO JOSEPH F

IPC: B30B15/16 ,  B30B9/28 ,  B30B9/30 ,  B30B15/22 ,  B65F5/00 ,  B65F9/00 ,  B30B1/32 ,  B30B9/00 ,  B30B15/32

公开(公告)号：AU4403772A

公开(公告)日：1974-01-03

申请号：AU4403772

申请日：1972-06-29

Applicant: INT DYNETICS CORP

Inventor： LONGO JOSEPH F

IPC: B30B9/30 ,  B65B63/02 ,  B65B13/20 ,  B30B9/04

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：DE2308977A1

公开(公告)日：1973-09-13

申请号：DE2308977

申请日：1973-02-23

Applicant: INTERNAT DYNETICS CORP

Inventor： LONGO JOSEPH F

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

公开(公告)号：SE358114B

公开(公告)日：1973-07-23

申请号：SE621270

申请日：1970-05-05

Applicant: INT DYNETICS CORP

Inventor： LONGO J

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

Abstract: 1,270,478. 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：FR2145935A5

公开(公告)日：1973-02-23

申请号：FR7224245

申请日：1972-07-05

Applicant: INT DYNETICS CORP

IPC: B30B9/30 ,  B30B9/00 ,  B65F5/00

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：CA678430A

公开(公告)日：1964-01-21

申请号：CA678430D

Applicant: DYNETICS

Inventor： CRANKSHAW JOHN H

公开(公告)号：GB943541A

公开(公告)日：1963-12-04

申请号：GB2982960

申请日：1960-08-30

Applicant: DYNETICS

IPC: F16D23/06 ,  F16D25/10

Abstract: 943,541. Positive clutches; clutch control. DYNETICS Inc. Aug. 30, 1960 [Sept. 16, 1959], No. 29829/60. Headings F2C and F2L. In an hydraulically actuated, frictionally synchronized, positive clutch for ship propulsion, wherein an internally toothed sleeve 14 engaging an externally toothed driving (or driven) member 12 is axially moved to engage an externally toothed driven (or driving) member 13, a piston 24, acting through a plate 34, initially engages a synchronizing friction disc clutch 17, firstly through the sleeve 14, spring-loaded balls 37 and a presser plate 21, and secondly, on yielding of the balls 37, through pre-synchronous drag-torque balking engagement of cam surfaces in holes 43 in the plate 34 and on shoulders 42 of balk pins 40 secured to the presser plate 21, and finally, on synchronism, cams the pins into passing through the holes 43, thereby releasing the friction clutch for slow, clutch-aligning, relative rotation of the members 12, 13, and simultaneously pushes the sleeve 14 into positive clutch engagement. The disc clutch 17 comprises discs alternately splined to the presser plate 21 and the member 13, and engaging rings 23, 22 which latter ring is axially screwadjusted by a lockable ring 42 to adjust to a minimum the axial travel, after friction clutch release, of the teeth on the sleeve 14 with respect to those on the member 13, which teeth are bevelled to facilitate engagement. Clutch reaction is taken, and external axial forces may be transmitted, by a link 38 rigidly secured at one end to the member 13 and connected at the other end to the member 12 through a thrust bearing 39. The plate 34 is externally splined to the sleeve 14. Reduced extremities 41 of the balk pins 40 limit pre-synchronous relative rotation between the member 12 and the presser plate 21. The pins may be cantilevered on the presser plate or, as shown, supported by their extremities 41 in a bending moment distributing ring 44 rotatably mounted in the member 12. Different clutch engaging characteristics may be obtained by varying the angles of the cam surfaces. Spring-loaded balls 36 locate the sleeve 14 with respect to the member 12. For engagement, oil is fed to the left of the piston 24 through a passage 32, and for disengagement to a chamber 27 through a passage 33. During disengagement the balls 37 re-engage the sleeve 14 to withdraw the presser plate 21, the discs being spaced apart by continuously supplied cooling oil. In Fig. 9 (not shown), the piston comprises two parts such that, during engagement, initially full piston area is effective and finally, when the friction clutch is released, a reduced piston area, sufficient after synchronism, is utilized. Control.-In Figs. 4, 5, pressure oil is supplied, to the passages 32, 33 by a motor-driven pump 46, a standby handpump 47 or an emergency accumulator 48, through an electromagnetic four-way valve 44 manually controlled through " engage " and " disengage " solenoids 62, 58. A main switch (not shown) controls " engage " and " disengage " contacts 61, 69. A flange 49 on the sleeve 14 has an axial lost-motion connection with a control slide 50 located by a spring-loaded ball 51. In the disengaged position shown, the slide 50 has actuated a switch 53 to switch on a " disengaged " indicator light 55a, prepare a holding circuit to the " disengage " solenoid 58, and prepare a circuit to the " engage " solenoid 62. For engagement, closure of the contacts 61 completes the circuit to the " engage " solenoid 62 to actuate the piston 24 and move the sleeve 14 to the right. When the clutch is finally engaged the slide 50 is tripped to open the switch 53 with its related contacts and close a switch 63 to switch on an " engaged " indicator light 66 and prepare a circuit to the " disengage " solenoid 58. If the clutch does not engage in a given time a time delay relay 70 opens contacts K-1 to the " engage " solenoid 62, closes contacts K-3 to complete the holding circuit to the " disengage " solenoid 58, and closes contacts K-2 to switch on a " Reject " indicator light 71. For disengagement, closure of the contacts 69 completes the circuit to the " disengage " solenoid 58. In Figs. 6, 7, 8 (not shown), a manual four-way valve replaces the electromagnetic valve 44. This arrangement includes electrical indicating means and electrically released, manually re-set means effecting disengagement should the clutch not be engaged within a given time determined by an hydraulic time delay device.

公开(公告)号：DE69941494D1

公开(公告)日：2009-11-12

申请号：DE69941494

申请日：1999-05-11

Applicant: DYNETICS LLC

Inventor： PERRY WINFIELD B ,  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：CA2159009C

公开(公告)日：2005-03-01

申请号：CA2159009

申请日：1994-03-24

Applicant: DYNETICS ENG CORP

Inventor： HILL JEFFERY 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 ,  B41J3/38

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 arc correctly matched to the carriers (26A, 26B). Incorrect cards (30) act sent to a reject location (90) to prevent formation of incorrect packages. Only cards (30) which ace 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 elates with a carrier printer (48). Multiple types of bar codes (22) are identified and decoded automatically.

公开(公告)号：IL130241A

公开(公告)日：2003-04-10

申请号：IL13024197

申请日：1997-10-06

Applicant: DYNETICS

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

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.