| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | Method of laying wiring and piping material into the tube, the tube of the wiring and piping this cable laying equipment and will be used in this | JP17268291 | 1991-07-12 | JP2567757B2 | 1996-12-25 | SHIMIZU SHOHACHI |
| 122 | Underground electrical wire buried freely protective tube | JP25710493 | 1993-10-14 | JP2526509B2 | 1996-08-21 | 盛宣 法亢 |
| 123 | Self-locking slit corrugated tubing | JP51203894 | 1992-11-17 | JPH08505456A | 1996-06-11 | バーソロミュー,ドナルド・デクレ |
| (57)【要約】 本発明は、ケーブル、ワイヤー及び管材のような長い導電手段を包み込む波形スリーブ(10)、特に、単一のプラスチック片で形成された波形スリーブ(10)に関する。 この波形の保護スリーブは内面(14)と外面(20)とを備え、該外面は、スリットを形成して雄型(36)及び雌型(26)ロック部材を形成し、これらのロック部材は、導電手段をその内部に挿入したときに接続される。 波形管の一部としてロック領域を提供する各種の方法が記載されている。 | ||||||
| 124 | Insulating sliding support for sheath pipe-inside piping | JP32075793 | 1993-12-21 | JPH07174268A | 1995-07-11 | WATANABE TORU |
| PURPOSE: To make a fastening bolt unnecessary by supporting a pipe which protects a pipeline in a road bridge and the like by forming in sheath pipe structure with a support made of ultrahigh molecular weight polyethylene, and fixing the support to the outside of a sheath pipe-inside piping with epoxy resin base mortar. CONSTITUTION: When a pipeline is installed in a road bridge and the like, in order to prevent leakage diffusion, the pipeline (piping 1) is installed as a sheath pipe-inside piping to protect the piping 1. For supporting the piping 1 on the inside of a sheath pipe 5 with a support 2, the support 2 is formed as an insulating sliding support with ultrahigh molecular weight polyethylene, and fixed to the outside of the piping 1 with epoxy resin base mortar 3. When the sliding support 2 is fixed to the piping 1, the support 2 is built in the piping 1 together with a circular steel mold frame 4 set to the support 2, and the mortar 3 is filled from a filling hole 2a formed in the support 2. After solidifying the mortar 3, the mold frame 4 is removed to finish installation. COPYRIGHT: (C)1995,JPO | ||||||
| 125 | Method of pulling in wiring or piping material into pipe and pipe for wiring or piping used for this | JP17268291 | 1991-07-12 | JPH0564331A | 1993-03-12 | SHIMIZU SHOHACHI |
| PURPOSE:To provide a pipe for wiring or piping which can easily pass a pull-in tool into the pipe and can perform the wiring or piping work efficiently without being hindered by time wiring or piping material such as an already wired or piped cable, fluid pipe, etc., inside the pipe for wiring or piping such as a cable duct, a protective pipe, etc. CONSTITUTION:This pipe is equipped, continuously in a longitudinal direction, with a storage pipe 11, which stores wiring or piping material, and a hollow passage 12, which has a slit 13 continuously fronting on this storage 11 and in which to pass a pulling-in tool 20 coupled with a wiring or piping material or a pull-in rope for pulling in the wiring or piping material. | ||||||
| 126 | JPH0363609B2 - | JP17764684 | 1984-08-27 | JPH0363609B2 | 1991-10-01 | NAKAGAWA SHINJI; PPONMA AKIRA |
| PURPOSE:To rapidly and easily install a pipe in a small installed pipe, by a method wherein guide rails and a guide means are located to the installed bands located at given intervals in the installed pipe, a truck, on which plural lines are placed, is runnably supported to the rails. CONSTITUTION:Installed bands 2, having expandable outer size part, are located at given intervals along the inner periphery of an installed pipe 1. Guide rails 6 and angle guides 7 are located to the installing bands 2. Meanwhile, 1 trunk 10 has a circular laminar body supporting 4 lines 9, the circular laminar body is provides at its upper part with guide rollers 10b and at its lower part with wheels 10a, and the truck is runnably supported to the guide rails 6 and the angle guides 7. The lines 9, supported to the 2-pieces set to the trucks 10, are pushed, in order, in the installed pipe 1 for installation. This enables lines to be easily and rapidly installed even in a small installed pipe. | ||||||
| 127 | Internal ceramic tube | JP14456488 | 1988-06-11 | JPS646608A | 1989-01-11 | JIYANNPIEERU KASAANIYU; ROOREN SUKURIIBU |
| PURPOSE: To reinforce an inner ceramic pipe and to increase the allowable amount of offset in axial direction by providing an annular collar that projects toward the inside in radius direction while being engaged between edge parts at a sleeve that coaxially surrounds the edge part of pipe part pieces that needy to be connected each other. CONSTITUTION: A number of pipe part pieces 6 for forming an inner ceramic pipe 5 are connected by a sleeve 8 for surrounding axially. An annular collar 9 that projects toward the inside in radius direction and is engaged between the adjacent edge parts of the pipe part pieces 6 is carried in the middle of the longer direction on the inner surface in radius direction of the sleeve 8. The inner diameter of the collar 9 is essentially equivalent to the inner diameter of the pipe part pieces 6, its outer diameter is slightly larger than the outer diameter of the pipe part pieces 6, and a certain degree of play in radius direction is given by considering an offset in the axial direction of the pipe part pieces 6 while airtightness and liquid-tight sealing are secured at a pipe part piece interlocking part. The diameter of an inner surface part 10 located at both edges of the collar 9 gradually increases toward the edge part of the sleeve 8. | ||||||
| 128 | Box for passing compressed fluid through stone construction structure | JP462588 | 1988-01-12 | JPS63241266A | 1988-10-06 | DANIERU BERISEERU |
| 129 | Device for removing saturated flue gas | JP15220484 | 1984-07-24 | JPS60159513A | 1985-08-21 | GUSUTAAFU MAURERU |
| 130 | Cooling system conduit supporting element | JP13923481 | 1981-09-03 | JPS5778349A | 1982-05-17 | HAINTSU UERUNAA NOIMIYURAA |
| 131 | High temperature air duct | JP3236776 | 1976-03-24 | JPS525198A | 1977-01-14 | REI NIYUUMAN; SUCHIIBU ATSUFUA |
| 132 | Mitsupeiboirakeishikinogasusochinishosurukukikyokyudakuto oyobi nenshogasuhaishutsudakutono mitsupeisochi | JP12943575 | 1975-10-29 | JPS5166535A | 1976-06-09 | ANDORE KOSUTEKARUDO |
| 133 | A CLAMP | PCT/EP2013075684 | 2013-12-05 | WO2014095398A3 | 2014-10-02 | ROSS JAMES ROBERTSON; COOK GRAHAM GEORGE; AITKEN DAVID GEORGE |
| A clamp (1, 2, 3, 4, 5, 6) for a conduit, the clamp comprising a body (10) configured to receive and grip first and second conduits so as to clamp the second conduit to the first conduit and to prevent relative displacement of the first and second conduits. The clamp is also adapted to protect at least the second conduit. The clamp includes a means (120, 130, 135) for releasably securing the clamp in a clamping mode. The clamp defines a first bore for receiving and gripping the first conduit, the first bore having a longitudinal axis (L). The body includes at least two cooperating parts (30, 40) configured to be put together to receive and grip one or each of the first and second conduits. | ||||||
| 134 | SOLAR COLLECTOR | PCT/IE2010000031 | 2010-04-27 | WO2010125550A3 | 2011-02-24 | MCENTEE PAUL THOMAS; PELAN RICHARD; MCCRACKEN CHRISTOPHER; DAVIS PATRICK ROBERT |
| A solar collector assembly comprises a solar absorbing tube (1) having an evacuated radiation - transparent enclosure (8); a radiation absorber (10) within the tube (1), an elongate outer conduit (11) for a heat transfer medium extending through the tube (1), an inner conduit (12) extending through the outer conduit (11), and a manifold (2). The outer conduit (11) has an end region (5) extending into the manifold (2) so that passageway (13) defined between the outer conduit (11) and the inner conduit (12) is in fluid communication with the cold fluid passageway of the manifold (2). The inner conduit (12) extends beyond the end region (5) of the outer conduit (11) into the heated fluid passageway of the manifold (2). The solar collector also comprises a clip (20) for retaining the inner conduit (12) in spaced-apart relation to the end region (5) of the outer conduit (11). The clip (20) comprises a generally circular base (24) which engages with the inner surface of the end region (5) of the outer conduit (11). The base (24) has a plurality of inwardly extending teeth (23) which engage with the outer wall of the inner conduit (12). The teeth (23) are at least partially resilient and are spaced-apart to allow heat exchange fluid to pass between the teeth (23). | ||||||
| 135 | SLEEVE ASSEMBLY FOR RECEIVING ELONGATED ITEMS WITHIN A DUCT | PCT/US0326926 | 2003-08-28 | WO2004020887A9 | 2004-05-06 | GLADFELTER HARRY F; MATTE PAUL J; ROSS DAWN D; PENDERGAST PATRICK M |
| A sleeve assembly for receiving and protecting elongated items within a duct is disclosed. The sleeve assembly includes a plurality of separate and independent sleeves, each sleeve being woven from warp and weft filamentary members that form sidewalls surrounding and defining a central space. Pull cords are located within each central space for drawing the elongated items through the sleeves once positioned within a duct. The assembly includes means for drawing the sleeves simultaneously through the duct, such means including an outer jacket surrounding the sleeves, the jacket having an inwardly facing surface that exerts a compressive force on the sleeves causing them to be drawn through the duct together with the jacket. The means may also include a loop which attaches the sleeved together at one end. The sleeves may be biased into an open or a substantially flattened configuration. | ||||||
| 136 | UNDERGROUND BEVERAGE CONDUIT SYSTEM | PCT/US0214350 | 2002-05-08 | WO02090186A8 | 2003-05-22 | COLOMBO HENRY; LICATA BERNARD MICHAEL |
| An underground beverage chase system is provided for receiving a plurality of tubing (12) installed therethrough for delivering food and beverage material from at least one location to at least another location through the underground chase system. The chase system includes various conduits (10) including straight portions and those having enlarged radial bends (32) which are fused together to form a leak-free system. The conduits are made from a high density polyethylene (HDPE) material. | ||||||
| 137 | COIL SPRINGS FOR CABLE SUPPORT | PCT/US9907601 | 1999-04-07 | WO9951851B1 | 1999-11-25 | NEUROTH DAVID H; COLLIE CHARLES C; PINKSTON TIMOTHY W |
| Helically wound coil springs (22) are wrapped around and attached at regular intervals to a cable (12), which is positioned within tubing (10). The support springs are attached to the cable to provide support to the cable. The upper section of each support spring is affixed to the cable. A remainder of each spring is formed in a long open helix facing downward when the tubing is installed in a well. The open helix portion of the spring is larger than the inside diameter (28) of the coiled tubing. During placement into the coiled tubing, the springs elongate and decrease in diameter. When the coiled tubing is installed vertically within a well, the springs compress due to the weight of the cable and engage the inside surface of the coiled tubing with a substantial portion of their length, thereby supporting the cable. | ||||||
| 138 | FLEXIBLE PIPE AND TEMPERATURE CONTROL SYSTEM | US16258764 | 2019-01-28 | US20190234534A1 | 2019-08-01 | Kohei Otsuki; Akiyoshi Mitsumori; Koji Kamata |
| Energy consumption of a temperature control unit can be reduced. A flexible pipe 13 includes a bellows pipe 130 made of a metal and an inner tube 131. The inner tube 131 is provided at an inner side of the bellows pipe 130, and an inner surface of the inner tube where a fluid flows is smooth. The inner surface of the inner tube 131 where the fluid flows may be smoother than a surface of a braided body. Further, the inner tube 131 may be made of, for example, a conductive material. An inner side of the inner tube 131 where the fluid flows may be coated with a conductive film. | ||||||
| 139 | Antenna assembly and related methods | US14917633 | 2013-11-01 | US10147995B2 | 2018-12-04 | Andrew James Daton-Lovett |
| An antenna assembly and related methods are described. The antenna assembly (1) comprises an extendible mast (2) constructed and arranged so as to be configurable between a coiled form and an extended form. The extended mast (2) is resiliently biased in the form of an elongate tube having a slit along its length. The coiled mast is wound about an axis extending transversely to the longitudinal extent of the mast. An antenna (6) is integrally coupled to the mast such that when extended, the mast supports and positions the antenna, and when coiled, the mast and antenna are coiled together. | ||||||
| 140 | Electrical wire holder | US15342532 | 2016-11-03 | US10128027B2 | 2018-11-13 | Hirokazu Nakai; Masashi Fujiki; Hiroyuki Yoshikawa |
| There is provided an electric wire holder for holding electric wires connected to terminal fittings at end portions of the wires, the holder configured to attach to a shielding pipe to cover an edge of the shielding pipe into which the electric wires are inserted and from which the terminal fittings and a portion of the electric wires are drawn out to an outside of the shielding pipe, the holder comprising: a first holding piece configured to hold the portion of the electric wires that is drawn out from the shielding pipe and to fix a draw-out position of the terminal fittings. | ||||||
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