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 |
|---|---|---|---|---|---|---|
| 41 | Suspension system for autonomous transports | US14882114 | 2015-10-13 | US09327903B2 | 2016-05-03 | Stephen C. Toebes; Robert Sullivan |
| An autonomous transport robot for transporting a payload, the autonomous transport robot including a drive section assembly having at least one motor and a pair of drive wheels coupled to the motor, a frame configured to support a payload, a transfer arm connected to the frame and configured for the autonomous transfer of payload to and from the frame, and a suspension system movably connecting the drive section assembly and the frame allowing relative movement between the frame and the drive section assembly. | ||||||
| 42 | Suspension system for autonomous transports | US14576644 | 2014-12-19 | US09156394B2 | 2015-10-13 | Stephen C. Toebes; Robert Sullivan |
| An autonomous transport robot for transporting a payload, the autonomous transport robot including a drive section assembly having at least one motor and a pair of drive wheels coupled to the motor, a frame configured to support a payload, a transfer arm connected to the frame and configured for the autonomous transfer of payload to and from the frame, and a suspension system movably connecting the drive section assembly and the frame allowing relative movement between the frame and the drive section assembly. | ||||||
| 43 | Loading and Unloading Apparatus for Truck Beds | US14484232 | 2014-09-11 | US20150083346A1 | 2015-03-26 | Casey Miers; Kristin Miers |
| Disclosed is an apparatus for moving cargo toward or away from the end of a truck bed. The device includes a cross bar that spans the width of the truck bed. The cross bar comprises a pair of caster wheels that allow the cross bar to travel in the furrows of the truck bed. Each caster wheel is rotatably attached to a plate that is slideably attached to the cross bar by means of a locking mechanism. In this way, the caster wheel can be moved along the width of the cross bar. The cross bar is attached to a telescopic handle that is adapted to lie flat in the furrows of the truck bed. The present invention may further comprise a divider wall that can be removably attached to the handle. The divider wall allows a user to organize the truck bed when carrying cargo. | ||||||
| 44 | Suspension system for autonomous transports | US14245551 | 2014-04-04 | US08919801B2 | 2014-12-30 | Stephen C. Toebes; Robert Sullivan |
| An autonomous transport robot for transporting a payload, the autonomous transport robot including a drive section assembly having at least one motor and a pair of drive wheels coupled to the motor, a frame configured to support a payload, a transfer arm connected to the frame and configured for the autonomous transfer of payload to and from the frame, and a suspension system movably connecting the drive section assembly and the frame allowing relative movement between the frame and the drive section assembly. | ||||||
| 45 | Suspension system for autonomous transports | US13326505 | 2011-12-15 | US08696010B2 | 2014-04-15 | Stephen C. Toebes; Robert Sullivan |
| An autonomous transport robot for transporting a payload, the autonomous transport robot including a drive section assembly having at least one motor and a pair of drive wheels coupled to the motor, a frame configured to support a payload, a transfer arm connected to the frame and configured for the autonomous transfer of payload to and from the frame, and a suspension system movably connecting the drive section assembly and the frame allowing relative movement between the frame and the drive section assembly. | ||||||
| 46 | SUSPENSION SYSTEM FOR AUTONOMOUS TRANSPORTS | US13326505 | 2011-12-15 | US20120195724A1 | 2012-08-02 | Stephen C. Toebes; Robert Sullivan |
| An autonomous transport robot for transporting a payload, the autonomous transport robot including a drive section assembly having at least one motor and a pair of drive wheels coupled to the motor, a frame configured to support a payload, a transfer arm connected to the frame and configured for the autonomous transfer of payload to and from the frame, and a suspension system movably connecting the drive section assembly and the frame allowing relative movement between the frame and the drive section assembly. | ||||||
| 47 | Recirculating bearing | US41972164 | 1964-12-21 | US3341262A | 1967-09-12 | KALMANEK JOSEPH M |
| 48 | Garbage can | US57916322 | 1922-08-02 | US1481355A | 1924-01-22 | JOSEPH DOMPIER |
| 49 | JPS6048413B2 - | JP11040681 | 1981-07-15 | JPS6048413B2 | 1985-10-26 | WATANABE KENJI |
| 50 | Transferring device for heavy load | JP16761082 | 1982-09-28 | JPS5957804A | 1984-04-03 | OBINATA ISAMU; KOYAMA MASAHIRO |
| PURPOSE:To simply carray out the transfter of heavy loads by a small number of persons with the use of a transferring device for heavy electrical machines or the like, by providing such an arrangement that there is provided, on a transferring member, a movable push-out device including a ram having its front end adapted to be engaged with the side of a heavy load, and therefore, the heavy load is pushed out by extending and retracting the ram which is advanced by itself. CONSTITUTION:A ram 19 in a push-out device 17 is pushed out so that a cylinder part 18 abuts against a stopping arm section 21 and a stopper 13, and therefore, a heavy weight load 16 is pushed out by means of an engagement section 20. That is, the heavy load 16 is slidably pushed out by means of the slidable surfaces of a sliding part 15 and a transferring member 12. When the ram 19 is pushed out to its full stroke, the ram 19 is retracted. At this time, the push-out device 17 is pulled toward the side of the heavy load since the front end 19a of the ram 19 is hooked to an engagement section 20, and the stopping arm section 21 is engaged with the next stopper 13 which is positioned on the side toward the transferring direction. Then, the same steps are repeated. With this arrangement, the transfer of heavy loads may be easily made by a small number of persons even in a small space section. | ||||||
| 51 | Device for turning plate | JP11040681 | 1981-07-15 | JPS5811402A | 1983-01-22 | WATANABE KENJI |
| PURPOSE:To enable the easy opening and closing by low force of a plate such as a heavy floor lid made of iron plate, frame or the like, by using the rotation of a screw shaft supported at one end on a wall, to pull up a holder having a female screw and provided at one end of the plate. CONSTITUTION:A hinge 2 is provided on one end of a plate 1 so that the plate can be turned between the wall 4 and floor 3 of a structure. A bearing 5 is provided on the other end of the plate 1 for the same direction as the hinge 2 so that a holder 6 is rotatably supported. A screw shaft 7 is fitted in the holder 6 so that the shaft extends perpendicularly to the surface of the plate 1. A bearing 8 is provided on the wall 4 for the same direction as the hinge 2 so that another holder 9 is supported in a swingable manner. A rotary member 10 connected to the end of the screw shaft 7 is rotatably borne in the holder 9. When the rotary member 10 is turned, the screw shaft 7 is rotated to pull up the holder 6 toward the holder 9 by the swing of the hinge 2 to turn the plate 1 together with the holder 6. | ||||||
| 52 | Loading and unloading of large-sized structure | JP9906581 | 1981-06-27 | JPS582135A | 1983-01-07 | SENDA NOBUHIKO |
| PURPOSE:To prevent frames from being distorted by loding a plurality of climbing jacks onto the frames of a large-sized structure and contacting a jack rod with the ground through the guide hole formed on the frames, then operating the jack. CONSTITUTION:The guiding holes 4 of a plurality of climbing jacks 5, namely the holes 4 of jack rods are arranged at the positions close to the center of a beam. When the jack 5, in other word a large-sized structure 1 is raised, the top edge of a rod 6 is contacted with the ground, and lower clutches 20 are engaged with the projection 61 of the rod 6 to support the load, then an upper yoke 22 is lifted by a piston 21, and upper clutches 19 are engaged with the projection 61 to support the load. Then, the clutches 20 of the lower yoke 23 are released, and the yoke 23 is lifted by a contracting spring 24, and the piston 21 contracted, and the lower clutch 20 is engaged with the projection 61, and the load is supported. Thus, the large-sized structure 1 is lifted-up through the repetition of these operations. | ||||||
| 53 | Diesel engine assembling and carrying method | JP6449781 | 1981-04-27 | JPS57180511A | 1982-11-06 | YAMAZAKI TAKAI |
| PURPOSE:To carry an engine with a traveller table 1 to a demand place by assembling and operating the engine on a movable assembly table and moving the engine to a shop shipping quay on completion of operation. CONSTITUTION:An engine is assembled on a traveller table 1 disposed at a position (a) in a shop 10. On completion of assembling the engine 8 and a hydraulic dynamometer 9 are coupled to each other to execute a land operation of the engine on the traveller table 1. After the end of land operation, the engine 8 is moved on a slide 3 as it is placed on the traveller table 1 from the position (a) in the shop to a shipping quay located at a position (b). When the engine reaches a quay 12, that is, the position (b), a floating crane 11 is adapted to load a barge or a ship with the engine to be supplied to a customer or to load a ship under construction with the engine mounted on the traveller table. After the completion of carrying out the engine 8, the traveller table 1 is adapted to slide from the position (b) to the position (a), and is restroed to its initial position to start assembling the next engine. | ||||||
| 54 | 변압기 이송용 휠블럭 장치 | KR1020120092810 | 2012-08-24 | KR101220119B1 | 2013-01-11 | 박순천; 옥인호; 김영달 |
| PURPOSE: A wheel block device for conveying a transformer is provided to efficiently move a transformer while wheels stably drive even on an obliquely installed rail by designing the wheels of the wheel block device as a movable structure when the wheel block device moves the transformer. CONSTITUTION: A wheel block device for conveying a transformer comprises a frame(10), wheels(20), and a hinge block(30). In the frame, a pair of side plates is formed in both sides of a top plate. The wheels are rotatably installed between the side plates by a pair of rotary shafts and are arranged in a same line. The cross section of the hinge block is a reversed U-shape and the hinge block is movably coupled to the frame by a hinge pin penetrating the body of the hinge block in a state where the inner surface of the hinge block is adjacent to the exterior of the frame. | ||||||
| 55 | 중량물 이송정렬장치 | KR1020130143671 | 2013-11-25 | KR1020150059928A | 2015-06-03 | 김정길; 이근호; 박영준; 남용윤; 한정우; 송진섭 |
| 본발명은중량물이송정렬장치에관한것으로서, 중량물이상부에적재되며외주연에단차부가형성된이송베이스; 지면과단차부사이에배치되어이송베이스의높이를조절하는높이조절부; 이송베이스의측면을따라복수개가배치되며이송베이스를수평방향을가압하여이송베이스의수평위치를조절하는수평이송부; 및높이조절부와지면사이의마찰력을줄여수평이송부의가압시이송베이스가이동되도록하는이송수단을포함한다. | ||||||
| 56 | Hammer Union Securement Methods and Apparatus | US15756361 | 2016-07-12 | US20180250799A1 | 2018-09-06 | Bernard P. Hunt; Brett Harris; Thomas Wilson |
| Techniques for lifting hammer union accessories (17) and securing hammer unions (2). A hammer union accessory (17) may be lifted with the accessory lift portion (11) of the working end (5) of a hammer union securement tool (1). An arcuate surface portion (6) may be configured to mate with a complimentary arcuate surface (7) of a hammer union (2), receive a lug (9) through a hammer union lug opening (8), torque a lug (9) with a lug torque member (10), and secure a hammer union (2). | ||||||
| 57 | No-Lift Install System | US15641517 | 2017-07-05 | US20170313518A1 | 2017-11-02 | Aaron Crowley; Roger Crowley |
| A rolling cart has a wheeled frame, telescoping vertically extendable members with glide strips, and a tiltable frame having glide strips interspersed with transfer balls to easily slide slabs or sheet materials for construction such as when installing countertops. A method is also described for measuring a minuend desired install height, subtracting a geometrically predetermined subtrahend, and adjusting the height from a floor surface to a pivot axis on the cart to equal the difference, said adjustment being effected by powered lifting means incorporated or ancillary to the cart. | ||||||
| 58 | SUSPENSION SYSTEM FOR AUTONOMOUS TRANSPORTS | US14882114 | 2015-10-13 | US20160031642A1 | 2016-02-04 | Stephen C. Toebes; Robert Sullivan |
| An autonomous transport robot for transporting a payload, the autonomous transport robot including a drive section assembly having at least one motor and a pair of drive wheels coupled to the motor, a frame configured to support a payload, a transfer arm connected to the frame and configured for the autonomous transfer of payload to and from the frame, and a suspension system movably connecting the drive section assembly and the frame allowing relative movement between the frame and the drive section assembly. | ||||||
| 59 | SUSPENSION SYSTEM FOR AUTONOMOUS TRANSPORTS | US14576644 | 2014-12-19 | US20150104282A1 | 2015-04-16 | Stephen C. Toebes; Robert Sullivan |
| An autonomous transport robot for transporting a payload, the autonomous transport robot including a drive section assembly having at least one motor and a pair of drive wheels coupled to the motor, a frame configured to support a payload, a transfer arm connected to the frame and configured for the autonomous transfer of payload to and from the frame, and a suspension system movably connecting the drive section assembly and the frame allowing relative movement between the frame and the drive section assembly. | ||||||
| 60 | APPARATUS, SYSTEM, AND METHOD FOR MEASURING CHOPPED WOOD | US13525429 | 2012-06-18 | US20120321424A1 | 2012-12-20 | Clifford K. Bebout, IV |
| An apparatus, system, and method for measuring, in accordance with a standard measure, any of a fractional part, whole and multiple of a quantity of chopped wood, such as firewood, for delivery to a customer are provided. The apparatus may be a bucket having one or more markers disposed thereon, using one or more measurement scales adapted to at least one of the bucket size, chopped wood size, and measurement system, where the markers indicate the quantity of chopped wood contained in the bucket. The apparatus may further comprise an attachment section to allow the apparatus to be attached to a vehicle to transport the apparatus. The method may include filling the apparatus to the markers with a plurality of pieces of chopped wood, delivering the chopped wood to a customer, and providing the customer with an assurance that the quantity of chopped wood is accurate. | ||||||
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