| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | Combination yoke and elastomeric draft gear | US12150777 | 2008-05-01 | US08136683B2 | 2012-03-20 | Ronald J. Sprainis; Michael E. Ring; Bradley Anderson; Jonathon Marlow; David Meyer; Michael Moriarity; Wajih Kanjo |
| A draft gear assembly which is mountable within a yoke of the railway vehicle for cushioning buff and draft dynamic impact forces encountered during make-up and operation of a railway vehicle includes a compressible spring positioned intermediate the front coupler follower and the rear follower in alignment with the longitudinal axis of the yoke. A pair of axially aligned compressible springs may be also provided being either separated by a center plate or by a wall of the yoke. | ||||||
| 182 | Combination yoke and elastomeric draft gear having a friction mechanism | US12150808 | 2008-05-01 | US08096431B2 | 2012-01-17 | Ronald J. Sprainis; Michael E. Ring; Bradley Anderson; Jonathon Marlow; David Meyer; Michael Moriarity; Wajih Kanjo |
| A draft gear assembly for cushioning buff and draft dynamic impact forces being applied to a center sill member of the railway vehicle during make-up of a train consist and in-track operation of such train consist includes a resilient cushioning member and a friction mechanism both axially mounted within the yoke with the friction mechanism positioned between the front end of the resilient cushioning member and the front coupler follower. A pair of the resilient cushioning members with the friction mechanism mounted therebetween may also be provided. | ||||||
| 183 | Method for manufacturing composite systems made of metal polymer shaped parts | US10994725 | 2004-11-22 | US08066841B2 | 2011-11-29 | Arnold Ganz |
| The disclosure relates to a method for manufacturing composite systems comprising metal and polymer shaped parts in the form of stabilizers, bushings, axle bearings, especially in the chassis area, stops, buffers, especially for supporting arms for aggregate bearings, or sleeve bearings, especially torsion-bar shoulder bearings, wherein at least one completely vulcanized or partially vulcanized elastomer shaped part, especially a rubber shaped part, as the polymer shaped part and at least one metal part are first prepared, the metal part and the polymer shaped part are then brought into abutment against one another, at least in parts and finally the metal part or at least one region of the surface on which the metal part and the polymer shaped part abut against one another, is at least temporarily exposed to at least one induction field or at least one inductive heating unit. | ||||||
| 184 | Plate for a compressible elastomeric spring | US12150926 | 2008-05-01 | US07857273B2 | 2010-12-28 | Ronald J. Sprainis; Michael E. Ring; Bradley Anderson; Jonathon Marlow |
| A plate for a compressible elastomeric spring is formed from a predetermined material and has each of a first substantially flat surface, an opposed second substantially flat surface, a predetermined thickness and a predetermined shape. Prongs are provided on at least one surface of the plate and extend outwardly at a predetermined angle relative thereto for mechanically interlocking the plate with an axial end an abutting elastomeric pad. Prongs may have trapezoidal shape. An axial aperture may be also provided with the prongs located on or in close proximity to a peripheral edge of the apertures. Prongs may be also provided on the opposed surface of the plate for mechanically interlocking the plate with an axial end of another abutting elastomeric pad. Annular ring-like projections are also provided for mechanically interlocking the plate to at least one elastomeric pad. | ||||||
| 185 | Shielding can and method for making same | US11955283 | 2007-12-12 | US07820918B2 | 2010-10-26 | Chia-Hsin Chang |
| A shielding can (100) includes a shielding case (10) configured to reducing electromagnetic interference, and a cushion (20) integrally mounted to the shielding case by insert molding. The cushion is configured to absorb shock force. A method for making the shielding can includes the following steps: providing a mold; placing a shielding case in the mold; injecting shock absorbing material into the mold to form a cushion on the shielding case; cooling the molded shielding can; and removing the shielding can from the mold. | ||||||
| 186 | METHOD FOR MUTUALLY ADHERING MOULDED ARTICLES OF VULCANIZED RUBBER | US12516041 | 2007-11-23 | US20100052362A1 | 2010-03-04 | Louis-Philippe Antoine Eugène Maria Reuvekamp; Gerard Nijman; Petrus Johannes Van Swaaij |
| The invention relates to a method for mutually adhering moulded articles of at least partially vulcanized rubber polymers. The method comprises at least the steps of providing a rubber composition which comprises a peroxide with an initiating temperature lower than the vulcanization temperature of at least one of the rubber polymers; arranging an adhesive layer of the rubber composition on the surface of the moulded articles which is to be adhered; bringing the surfaces for adhering together under pressure; and vulcanizing at least the adhesive layer at an increased temperature. | ||||||
| 187 | Elastomeric draft gear having a housing | US12150927 | 2008-05-01 | US20090308829A1 | 2009-12-17 | Ronald J. Sprainis; Michael E. Ring; Bradley Anderson; Jonathon Marlow |
| A draft gear assembly for cushioning both buff and draft dynamic impact forces being applied to a center sill member of a railway vehicle includes a housing member closed at one end and open at an opposed end, the housing member having a rear portion adjacent the closed end and a front portion adjacent the open end. At least one compressible elastomeric spring is positioned within the rear portion and has a rear end thereof abutting at least a portion of an inner surface of the closed end. A friction clutch mechanism is also provided in abutting engagement with each of the front end of the compressible elastomeric spring and the coupler shank. The housing member may be provided with a pair of ledge portions disposed intermediate its ends and attachment members disposed on the open end for attaching the housing member directly to the coupler shank. | ||||||
| 188 | PROCESS AND SYSTEM FOR MAKING NOISE ABSORBER CARPET AND A NOISE ABSORBER CARPET MADE THEREFROM | US12113550 | 2008-05-01 | US20090274863A1 | 2009-11-05 | Kohei Yamada |
| A noise absorber carpet comprised of a fabric layer portion and a resinous backing layer portion, wherein the fabric layer portion and the resinous backing layer portion are heat bonded with a press into the noise absorber carpet. The press includes perforation pins and a cooling medium. The resinous backing layer portion is provided with noise absorbing perforations formed by contact with the perforation pins of the press and cooled by the cooling medium. The perforations are cooled by the cooling medium with the press simultaneously with the bonding of the resinous backing layer portion with the fabric layer portion and the cooling of the press by the cooling medium, thereby providing for instant curing and fixation of the shape of the perforations. | ||||||
| 189 | METHOD AND APPARATUS FOR MAKING SHEETS OF COMPOSITE MATERIAL | US12410556 | 2009-03-25 | US20090266468A1 | 2009-10-29 | Edward Pilpel |
| A product sheet of composite material can be made by disposing composite materials of composite material in adjacent (side-by-side) relation with each other. The composite materials comprise fibers in a thermoplastic matrix material. The adjacent composite materials are bonded together to provide a product sheet of composite material. Preferably, a cross ply of composite material is disposed on the composite materials. The cross ply may be a unidirectional sheet and the fibers in the cross ply may be disposed in transverse relation to the fibers in the composite materials. | ||||||
| 190 | Combination yoke and elastomeric draft gear | US12150777 | 2008-05-01 | US20080272081A1 | 2008-11-06 | Ronald J. Sprainis; Michael E. Ring; Bradley Anderson; Jonathon Marlow; David Meyer; Michael Moriarity; Wajih Kanjo |
| A draft gear assembly which is mountable within a yoke of the railway vehicle for cushioning buff and draft dynamic impact forces encountered during make-up and operation of a railway vehicle includes a compressible spring positioned intermediate the front coupler follower and the rear follower in alignment with the longitudinal axis of the yoke. A pair of axially aligned compressible springs may be also provided being either separated by a center plate or by a wall of the yoke. | ||||||
| 191 | Elastomeric pad for a compressible elastomeric spring | US12150928 | 2008-05-01 | US20080272080A1 | 2008-11-06 | Ronald J. Sprainis; Michael E. Ring; Bradley Anderson; Jonathon Marlow |
| A compressible resilient elastomeric pad includes a body defining a central axis, the body formed from a predetermined material and having each of a peripheral side surface, a first axial end and a second axial end, each of the first and second axial ends having a flat surface thereof disposed normal to such central axis. A first raised projection is centrally formed on the flat surface of the first axial end and a second raised projection is centrally formed on the flat surface of the second axial end. A first groove is formed in the flat surface of the first axial end in abutting relationship with a peripheral side surface of the first projection and a second groove is formed in the flat surface of the second axial end in abutting relationship with a peripheral side surface of the second projection. | ||||||
| 192 | Combination yoke and elastomeric draft gear having a friction mechanism | US12150808 | 2008-05-01 | US20080272079A1 | 2008-11-06 | Ronald J. Sprainis; Michael E. Ring; Bradley Anderson; Jonathon Marlow; David Meyer; Michael Moriarity; Wajih Kanjo |
| A draft gear assembly for cushioning buff and draft dynamic impact forces being applied to a center sill member of the railway vehicle during make-up of a train consist and in-track operation of such train consist includes a resilient cushioning member and a friction mechanism both axially mounted within the yoke with the friction mechanism positioned between the front end of the resilient cushioning member and the front coupler follower. A pair of the resilient cushioning members with the friction mechanism mounted therebetween may also be provided. | ||||||
| 193 | Method of making compressible elastomeric spring | US12150929 | 2008-05-01 | US20080271318A1 | 2008-11-06 | Ronald J. Sprainis; Michael E. Ring; Bradley Anderson; Jonathon Marlow |
| A method of making a compressible elastomeric spring including at least one compressible elastomeric pad enclosed by a pair of metal plates includes the steps of forming plates with a center aperture and a plurality of prongs positioned about a peripheral edge thereof, forming each end of the pad with an axial projection and abutting groove, aligning the plurality of prongs with each respective projection and respective groove and applying axial force to one end of the spring to frictionally interlock the plurality of prongs with such projection and groove. The method also provides for making a multi-tiered stack of pads separated by plates in the above described manner and pre-shortening the spring prior to installation into the conventional yoke. The above described method additionally improves axial straightness and lateral stability of the multi-tiered spring assembly. | ||||||
| 194 | SHIELDING CAN AND METHOD FOR MAKING SAME | US11955283 | 2007-12-12 | US20080169437A1 | 2008-07-17 | Chia-Hsin Chang |
| A shielding can (100) includes a shielding case (10) configured to reducing electromagnetic interference, and a cushion (20) integrally mounted to the shielding case by insert molding. The cushion is configured to absorb shock force. A method for making the shielding can includes the following steps: providing a mold; placing a shielding case in the mold; injecting shock absorbing material into the mold to form a cushion on the shielding case; cooling the molded shielding can; and removing the shielding can from the mold. | ||||||
| 195 | APPARATUS AND METHOD FOR MANUFACTURING DOUBLE LAYER AIR CYLINDER TYPE AIR ENCLOSURE | US11964227 | 2007-12-26 | US20080156420A1 | 2008-07-03 | CHIEH HUA LIAO; YAW SHIN LIAO; YAO CHUAN LIAO |
| An apparatus and method for manufacturing a double layer air cylinder type air enclosure uses a middle film conveying unit to provide a middle film, a plurality of inner film conveying units to provide a plurality of inner films to stack on two sides of the middle film, a first hot sealing apparatus to hot-seal the plurality of inner films and the middle film to allow two sides of the middle film to be respectively formed with a check valve with an air passageway, an outer film conveying unit to provide two sheets of outer film to respectively stack on the outside of the check valve and a second hot sealing apparatus to hot-seal the plurality of outer films and the middle film to allow an air storable air chamber to be formed between the middle film and the each sheet of outer film. Whereby, air enters the air chamber causes the air chamber to be filled with air and expanded via the air passageway, air in the air chamber compresses the check valve to shield the air passageway to enable air in the air chamber not to be leaked out to attain to the air locking. | ||||||
| 196 | Vibration isolator and attachment method thereof | US10541921 | 2004-12-13 | US07380775B2 | 2008-06-03 | Satoshi Niwa; Kazushi Nishiyama; Hiroyuki Masuda; Yasuhiro Teranishi |
| The invention is to permit a bushing main body of rubber elastomer to be adhered to a bar member while retaining a necessary contact pressure for adhering and after adhering, to permit a further compressive force to be imparted. The bushing main body (10) having a bore (11), through which the bar member (B) passes, and a bracket (20) holding the former are longitudinally split into two, respectively, the resulting split rubber bodies (10a)(10b) are vulcanization bonded to inner peripheral surfaces of the resulting half bracket members (20a)(20b). The inside diameter (D1) of both split rubber bodies as molded is made smaller than the outside diameter (D2) of the bar member, and inner peripheral surfaces (11a)(11b) at the bore are formed to be eccentric on mutually opposite sides. While pinching the bar member by both split rubber bodies, both half bracket members interposing a spacer (30) are locked together to compress the split rubber bodies thereby to adhere the peripheral surfaces at the bore to the outer peripheral surface of the bar member, and after the spacer is removed, both half members are locked so as to butt contact with each other thereby further compressing both split rubber bodies in mutually opposing directions. | ||||||
| 197 | Apparatus and method for controlling position of an edge of an advancing web of flexible material | US11414921 | 2006-05-01 | US07328541B2 | 2008-02-12 | Mark Garceau; John Corrigan |
| A method comprises pulling a continuous web to advance the web along a path of conveyance and to create tension in a lengthwise portion of the web; manipulating the web to cause the portion of the web at a point along the path to have a non-uniform tension across the width of the web, with a maximum tension being at a location spaced from the first longitudinal edge of the web, and with the tension decreasing from such location toward the first longitudinal edge of the web such that a zone in the web at the first longitudinal edge has reduced tension; and controlling transverse positioning of the first longitudinal edge in the zone of reduced tension. The reduced-tension zone is produced by a tension-reducing member about which the web is pulled. | ||||||
| 198 | APPARATUS AND METHOD FOR CONTROLLING POSITION OF AN EDGE OF AN ADVANCING WEB OF FLEXIBLE MATERIAL | US11414921 | 2006-05-01 | US20070251631A1 | 2007-11-01 | Mark Garceau; John Corrigan |
| A method comprises pulling a continuous web to advance the web along a path of conveyance and to create tension in a lengthwise portion of the web; manipulating the web to cause the portion of the web at a point along the path to have a non-uniform tension across the width of the web, with a maximum tension being at a location spaced from the first longitudinal edge of the web, and with the tension decreasing from such location toward the first longitudinal edge of the web such that a zone in the web at the first longitudinal edge has reduced tension; and controlling transverse positioning of the first longitudinal edge in the zone of reduced tension. The reduced-tension zone is produced by a tension-reducing member about which the web is pulled. | ||||||
| 199 | Method And Apparatus For Inflating And Sealing Packing Cushions Employing Film Recognition Controller | US11739959 | 2007-04-25 | US20070251190A1 | 2007-11-01 | Charles Daigle; Michael G. Kaminski; Rob Van Uijen; Vladimir Yampolsky |
| An apparatus for inflating and sealing packing cushions utilizes a controller adapted for acquiring information from preconfigured film material and automatically setting one or more operation parameters suitable for inflating and sealing the film. The controller can avoid or limit the need for user input, thus simplifying use of the apparatus. | ||||||
| 200 | Method for forming a tangible item and a tangible item which is made by a method which allows the created tangible item to efficiently absorb energy | US11170863 | 2005-06-30 | US20060210736A1 | 2006-09-21 | Joseph Wycech |
| A method for creating a tangible item (such as an “A” pillar garnishment 18) which increases the capacity of the item to absorb energy by the incorporation and/or addition of a plurality of adhesive-covered beads 25, and which utilizes the method and/or type of energy used to normally form the item to incorporate and/or add the adhesive-covered beads 25, thereby increasing efficiency while reducing cost. A new and novel tangible item, such as “A” pillar garnishment 18, having programmed energy absorption characteristics is also disclosed. | ||||||
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