| 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 | Bulk roll of zigzag spring wire and method of making same | US53204755 | 1955-09-01 | US2839187A | 1958-06-17 | NORMAN HARRY H; SKLAR HARRY B |
| 42 | MESH SHEET, SYSTEMS AND DEVICES THAT INCORPORATE A MESH SHEET, AND METHODS AND EQUIPMENT FOR FABRICATING A MESH SHEET | US15969033 | 2018-05-02 | US20180318908A1 | 2018-11-08 | Nick STERGIOULAS |
| An apparatus for manufacturing a second mesh roll from a first mesh roll is disclosed. The apparatus comprises an unreeling shaft, an edge treatment unit, and a reeling shaft. The unreeling shaft is configured to rotatably support the first mesh roll and provide an unreeled length of the first mesh roll in a longitudinal direction. The edge treatment unit is configured to receive the unreeled length of the first mesh roll and cut the first mesh roll along a transverse axis and treat one or more edges of the first mesh roll to form the second mesh roll. The reeling shaft is configured to receive and rotatably support the second mesh roll. | ||||||
| 43 | Wire condenser element bending method and wire condenser element bending apparatus | US10038693 | 2002-01-02 | US06604396B2 | 2003-08-12 | Norio Kobayashi |
| A wire condenser element bending method and a wire condenser element bending apparatus bend two wire condenser elements by pressing the wire condenser elements against a bending roller to form two scroll wire condensers simultaneously. Inner edge parts of the wire condenser elements are held by holding devices at diametrically opposite positions on the outer circumference of the bending roller. Pressure rollers press the two wire condenser elements against the bending roller while the bending roller is rotated to form two scroll wire condensers simultaneously. Each wire condenser element serves as a separator for separating layers of the other wire condenser element. | ||||||
| 44 | Apparatus for winding fence material | US114650 | 1993-08-31 | US5388782A | 1995-02-14 | Steven C. King |
| A device for winding fence material which contains a collapsible, rotatable drum comprising an internal hinge mechanism adapted to open or close such drum, a transverse slot within the drum adapted to secure such fence material, and a rotatable base upon which such drum is mounted. | ||||||
| 45 | Apparatus for producing coils from spring steel material | US915822 | 1992-07-28 | US5319833A | 1994-06-14 | Hans Kohl; Jorg Weinschenk; Martin Hoffmann |
| Apparatus for producing coils of spring steel material comprising an unwinding station, a cutting station, a winding spindle which contains angled gripping wires on its peripheral surface and conveying means for conveying the spring steel material from the cutting station to the winding spindle. | ||||||
| 46 | System for producing strapped rolls of wire screening | US688575 | 1991-05-23 | US5211350A | 1993-05-18 | Klaus Ritter; Gerhard Ritter; Gerhard Schmidt |
| A system for producing strapped rolls of wire screening having a windup device (3), which has a driven windup mandrel (4) for winding up the wire screening delivered to it, and a guide device for threading the wire screening into the windup mandrel, having a strip-off device (23), with which the wound roll of wire screening is movable in the axial direction relative to the windup mandrel, having a gripper mechanism, which has at least two mutually independent units of gripper arms (19, 20, 21), which are pivotable from above and below toward the outer surface of the roll of wire screening, wherein the gripper mechanism is adjustable in a controlled manner into freely selectable positions, parallel to the windup mandrel axis, by means of a carriage (16) movable on rails (17), and having a surrounding strap application device for the wound roll of wire screening, with a strapping frame (28) that is likewise mounted on a carriage (26) in a manner adjustable at right angles to the windup mandrel axis, and being movable with this carriage parallel to the windup mandrel axis (x--x) on rails (25) in a controlled manner to freely selectable strapping positions, wherein the gripper arms of each gripper arm unit are pivotable in a controlled manner away from the roll of wire screening in order to move past the strapping frame. | ||||||
| 47 | Method of forming packs of rolls of metal wire netting | US274673 | 1981-06-17 | US4386704A | 1983-06-07 | Pierre Maillet |
| A process for forming packs from cylindrical rolls of metal wire netting comprising flattening each of a plurality of the rolls so as to form an elongated body the major axis of which coincides with that of the cylindrical rolls and which body thereby has at least two flat, non-intersecting faces, and stacking the bodies in face-to-face relationship so as to form a pack. | ||||||
| 48 | Apparatus for rolling chain link fence | US224952 | 1981-01-14 | US4353512A | 1982-10-12 | Herbert E. Rohrbacher |
| An apparatus for rolling chain link fence including an endless belt including a free loop portion and with the endless belt moved in a particular direction and with the movement of the endless belt producing rotative motion in the free loop portion, and with progressive portions of the chain link fence fed into the free loop portion and with at least the free loop portion of the endless belt supporting the progressive portions of the chain link fence to have the individual links of the chain link fence collapse against each other to provide for a tight configuration of the chain link fence within the free loop portion, and with the rotative motion of the free loop portion of the endless belt producing a rolling of the progressive portions of the chain link fence with the individual links collapsed against each other to form a roll of chain link fence with a tight configuration and a small diameter. | ||||||
| 49 | Machine for stacking mesh grids with alternate grids rotated through 180.degree. | US92585 | 1979-11-08 | US4299523A | 1981-11-10 | Hans Gott; Peter Furndorfler; Fred Kogl; Klaus Ritter; Gerhard Ritter |
| A machine for stacking mesh reinforcement grids alternatingly in initial and reversed orientations includes a frame on which the grids to be reoriented are held during the reversing operation. The frame is mounted on swivelling arms for swivelling therewith and for turning relative thereto between two positions, and the frame is turned through 180.degree. relative to the arms during their swivelling to one of such positions and held stationary relative thereto during the swivelling toward the other position. Guide rails are retractably positioned along the feed path of the grids to support those grids which are not to be reoriented, prior to the retraction of such rails which takes place before the release of the reoriented grid from the frame. | ||||||
| 50 | Method of coiling wire-mesh webs, especially chain-like fencing into compact rolls | US848324 | 1977-11-03 | US4139976A | 1979-02-20 | Klaus Herrig; Heinz Wagner |
| Wire-mesh webs formed from interengaged flattened spirals, especially chain-link fencing, upon manufacture coiled by twisting the planes of the spirals so that they fit tightly together and almost coincide with axial planes of the roll. During the coiling process, one to three tension elements are introduced into the corresponding troughs of the successive undulations formed by the successive spirals to maintain the latter in their substantially erect condition. The result is a highly compact roll. | ||||||
| 51 | Roll of wire mesh of the chain-link fencing type | US848322 | 1977-11-03 | US4124183A | 1978-11-07 | Klaus Herrig; Heinz Wagner |
| Chain-link fencing reticulated wire mesh having square or rhomboidal mesh and formed from wire spirals which are interengaged is rolled in a compact roll with the aid of at least one and up to three elongated elements or binding strands which extend in troughs of the successive spirals and assist in drawing them together so that each flattened spiral is twisted sharply out of the plane of the web of the mesh and enables the roll to be extremely compact. | ||||||
| 52 | Chain-link fencing package and method of making same | US608340 | 1975-08-27 | US4049224A | 1977-09-20 | Kurt Wener; Gunter Stock; Klaus Herrig; Heinz Wagner |
| Chain-link fencing consisting of a mesh of interlinked wire coils is flattened so as to have an overall thickness perpendicular to the plane of the mesh equal to between two and five times the diameter of the wire constituting the coils. Thereupon the flattened mesh is either rolled up into tight rolls, or is laid meander-fashion in a container. The mesh may be flattened by means of a platen press operating synchronously and immediately downstream of a fence-weaving machine that produces the mesh step-wise, or by a pair of rollers. | ||||||
| 53 | Machine for coiling elongated striplike material | US3580018D | 1968-06-13 | US3580018A | 1971-05-25 | GOTT HANS; RITTER JOSEF |
| A machine for coiling elongated striplike material such as welded mesh reinforcement of the kind in which the material is coiled on a mandrel from which the completed coil is removed after the coil and mandrel have been separated by axial movement relative to each other is provided with a gripper mechanism for gripping the coil and this mechanism is arranged to travel between a first position near the mandrel and a second position away from the mandrel. The gripper mechanism has at least two grippers capable of pivoting inwards from opposite sides into contact with the outer surface of a coil mounted on the mandrel so that they thrust against the surface of the coil and hold it together. The gripper mechanism is arranged so that during its movement from the first position into the second position, the grippers continue to hold the coil firmly together and prevent it from uncoiling.
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| 54 | Bundle tightener | US3567150D | 1969-03-07 | US3567150A | 1971-03-02 | NELSON JOHN F |
| Apparatus for tightening a bundle of flexible steel mat by applying torque to its center as it is wound by rolling on a supporting cradle so that successive convolutions of the mat will be snugly engaged about the bundle, the torque being applied by members that have gripping engagement with opposite edges of the mat at the center of the bundle. The gripping members which apply the torque are rotated by rotary air motors that form part of a mechanical drive and are mounted for vertical floating movement so that they move upwardly with the center of the bundle as its vertical spacing with respect to the supporting cradle increases with the diameter of the bundle. Provision is made for increasing the torque developed by the air motors as the bundle increases in size, this being accomplished by a vertical cam which operates a control valve to increase the pressure of the air supplied to the motors as the torque applying members move upwardly with the center of the bundle.
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| 55 | Automatic binder for netting | US3565130D | 1969-01-22 | US3565130A | 1971-02-23 | VICK ARTHUR E |
| In general, this invention relates to a device which automatically binds the loose end of a roll of the metal wire netting, commonly known as ''''chicken wire,'''' to the roll itself; more specifically, it relates to apparatus which locates the final strands of wire and bends them back into the roll, thereby securing the free end.
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| 56 | Machine for rolling up reinforcing mats and similar wire grids and nets | US21263162 | 1962-07-26 | US3208684A | 1965-09-28 | ERICH RAMSTEIN |
| 57 | Apparatus for automatically positioning and starting a wire fabric coiling device | US29120063 | 1963-06-27 | US3206136A | 1965-09-14 | BLAKE STEVE P |
| 58 | Method and apparatus for producing a roll of wound spring wire and resulting product | US44223254 | 1954-07-09 | US2880861A | 1959-04-07 | SKLAR HARRY B; NORMAN HARRY H |
| 59 | Wire mesh pull up | US2732866D | US2732866A | 1956-01-31 | ||
| 60 | METHOD AND APPARATUS FOR THE HANDLING, INCLUDING ROLLING-UP OF ROD MESH FOR CONCRETE REINFORCEMENT | EP03729913.8 | 2003-06-21 | EP1515811B1 | 2009-03-25 | OLESEN, Holger |
| In a method for the handling, including the rolling-up, of a concrete reinforcement rod mesh (3) during the manufacture of the rod mesh, the conveyed ends of the steel supporting bands (2) - after the rod mesh (3) has been conveyed to the rod mesh rolling-up device (22) - each is secured to one of at least two driving rings (18), and by the device (22) is synchrone-ously exposed to a tangential tensible force in the peripheral direction of the driving rings (18)., The driving rings (18) are practically coaxially arranged as internal drive units for the rod mesh (3) and having an outer diameter corresponding to the desired inner diameter of the rod mesh (3). Each driving ring (18) is supported by a movable supporting means (19) being synchronous following the radially outer periphery of the rod mesh (3), said supporting means (19) supporting the driving ring (18) during its rotation via the rod mesh (3) being rolled up. | ||||||
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