| 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 | Method of recovering metals from cables and the like | US3582004D | 1968-06-11 | US3582004A | 1971-06-01 | LENZ HANS; MEHLBEER JOCHEN; MACURA HEINRICH; WEIDNER OTTO |
| A method for recovering metals from discarded cables and the like wherein the discarded cables are comminuted in a hammer mill and, after removing light components by suction and of iron components by magnetic action, may be additionally comminuted by a cutting action. The comminuted material is successively treated in belt sink separators individually associated with draining screens and conveyors operatively connected therewith for removing floats from the first separator or separators and sinks from the last separator. The several sink separators are operated at different turbidities.
|
||||||
| 42 | Bis hetero cyanoacrylates | US60185366 | 1966-12-15 | US3404160A | 1968-10-01 | STROBEL ALBERT F; CATINO SIGMUND C |
| 43 | Apparatus for cutting cables and other long articles | US31341640 | 1940-01-11 | US2288988A | 1942-07-07 | BLOUNT WILLIAM H; FISHER CLAYTON F |
| 44 | ELECTRIC WIRE SCRAP HIGH-GRADE RECOVERY APPARATUS | EP12769304.2 | 2012-06-22 | EP2735372B1 | 2016-08-17 | NAKANE, Ryouichi; NAKANE, Akira |
| 45 | HIGH QUALITY RECOVERY DEVICE FOR WIRE SCRAPS | EP12769304.2 | 2012-06-22 | EP2735372A1 | 2014-05-28 | NAKANE, Ryouichi; NAKANE, Akira |
Provided is an electric wire scrap high-grade recovery apparatus with improved recovery rates of copper materials and the like by causing miscut materials contained in crushed materials to be capable of being separated and recovered with good efficiency. [Problem to be Solved] A weir 11 which holds back part of the water flowing on a separation bed 10 in the width direction of the separation bed 10 is provided in a lower part of the separation bed 10, whereby miscut materials 43 contained in crushed materials gather in a region in the vicinity of an upper end of a water pool 12 formed by the weir 11. Therefore, in the above-described region where the miscut materials 43 on the separation bed 11 gather, there are provided on the separation bed partition plates 13, 14 which form miscut material recovery passages 15, 16, whose one end is open and through which the water does not flow, and the miscut materials 43 are recovered by using the miscut material recovery passages 15, 16. |
||||||
| 46 | CABLE RECOVERY INSTALLATION | EP09851994.5 | 2009-12-11 | EP2511914A1 | 2012-10-17 | FERNANDEZ NIETO, Jose Luis |
This invention comprises an installation to separate the sheath surrounding the core of a cable such that said core is wound onto a coil, said installation being simple and small. |
||||||
| 47 | METHOD OF CONVERTING A CABLE IN THE GROUND INTO A CLOSED GUIDING TRACK FOR INSERTION OF NEW CONDUCTORS | EP81902058.7 | 1981-07-13 | EP0055760B1 | 1985-11-06 | EDVARDSEN, Einar |
| Method of removal of the interior parts of cables in the ground, preferably coaxial (1) and telecommunication (2) cables, for the insertion of new conductors. The insulation material (3, 4) may be dissolved or broken down by means of chemical influence of e.g. xylene or copper ethylene diamine for coaxial cable (1) and telecommunication cable (2) respectively, whereby the solution serves as a sliding agent by the withdrawal of the conductor/conductors (5, 6). The insulation washers (3) of a coaxial cable (1) may be melted by insertion of a heating element (8) or by means of heat from electrical resistance in the parts (5, 7, 9) of the cable. The insulation washers (3) in a coaxial cable (1) and the conductors (6) with the insulation material (4) in a telecommunication cable (2) may be milled and removed. By applying electromagnetic pressurized oscillations the insulation washers (3) of a coaxial cable (1) may be destructed. The insulation material (3) and the conductor (5) of a coaxial cable (1) may be removed by introducing an oscillating pressurized fluid with a simultaneous tension in the center conductor (5). | ||||||
| 48 | Verfahren und Anordnung zum Aussortieren von elektrisch isolierendem Material | EP79810051.7 | 1979-06-19 | EP0006826A1 | 1980-01-09 | Senn, Heinz; Strässler, Walter; Hubler, Jörg; Lüthi, Erwin |
Zur Trennung von windgesichtetem, grobkörnigem Kunststoff, der noch Kupfergranulat in Mengen von 1-3% enthält, wird vorgeschlagen, das Gemisch auf einer rotierenden Trommel (24) mit horizontaler Achse auszubreiten und mit einem elektrischen Feld die Partikeln zu laden. Die Metallpartikeln (25), die ungeladen bleiben, fallen infolge der Zentrifugalkraft und der Schwerkraft von der Trommel ab. Hingegen die Kunststoffpartikeln (26) müssen vorerst entladen werden, bevor sie sich wieder von der Trommel lösen. |
||||||
| 49 | JPH0313688B2 - | JP11435184 | 1984-06-04 | JPH0313688B2 | 1991-02-25 | TOKUYUU RI |
| 50 | Method of separating plastic coated cable chip and device therefor | JP23483084 | 1984-11-06 | JPS60205911A | 1985-10-17 | BERUNTO DORUTSUEBITSUKII; HANSU GERUHARUTO; YOHANESU HAASU |
| 51 | JPS58502139A - | JP50017483 | 1982-12-23 | JPS58502139A | 1983-12-15 | |
| 52 | JPS57501109A - | JP50236181 | 1981-07-13 | JPS57501109A | 1982-06-24 | |
| 53 | Continuous process for recovery of constituent metal from insulated wire scrap | JP9283376 | 1976-08-05 | JPS5220304A | 1977-02-16 | JIEEMUSU HAABAATO UIITO |
| 54 | JPS5082577A - | JP11877374 | 1974-10-17 | JPS5082577A | 1975-07-04 | |
| 55 | CONNECTOR WITH SEPARABLE LACING FIXTURE | EP16713501.1 | 2016-03-21 | EP3273549A1 | 2018-01-24 | FONT ARANEGA, Albert; DE DIOS MARTIN, Longinos; CARRERAS GARCIA, Antonio |
A connector assembly (10) is disclosed in which a connector part (12) and a cable manager part (20) are provided. The cable manager part (20) can be provided with a separable lacing fixture (24) that functions to retain the severed portions (6a) of the wires (6) that result from the termination process, rather than allowing the severed wire portions (6a) to fall to the floor in an uncollected state. In one aspect, the cable manager part (20) has a main body (22) to which the separable lacing fixture (24) is attached via a plurality of breakaway portions (34). During installation, the connector part (12) is inserted onto the cable manager part (20) and is placed in a wire termination tool (7) which fully inserts the connector part (12) onto the cable manager part (20). This action causes the connector part (12) to cut the wires (6) and to sever or break the breakaway portions (34) such that the separable lacing fixture (24) is separated from the fully formed connector (10). |
||||||
| 56 | CABLE RECOVERY INSTALLATION | EP09851994 | 2009-12-11 | EP2511914A4 | 2013-12-18 | FERNANDEZ NIETO JOSE LUIS |
| This invention comprises an installation to separate the sheath surrounding the core of a cable such that said core is wound onto a coil, said installation being simple and small. | ||||||
| 57 | AN APPARATUS AND METHOD FOR RECOVERING THE CORE OF A SHEATHED ELECTRICAL CABLE | EP11719869.7 | 2011-04-20 | EP2561517A2 | 2013-02-27 | MURPHY, Craig |
| The present invention provides an apparatus and method for recovering the core (108) of a subterranean sheathed electrical cable (106), while minimising the impact on the surrounding environment. The apparatus comprises a ram (102) operable to exert a pushing force on the core of a length of the cable, a plurality of linkages, each linkage being configured to be insertable into the cable along its length under the action of the ram to displace the core relative to an outer sheath of the cable, and a puller operable (104) to exert a pulling force on the core to thereby facilitate removal of the displaced core from the outer sheath by action of the pushing/pulling forces. The apparatus and method are found to be particularly suited to the recovery of high-tension copper core cables, while enabling any hydrocarbon (e.g. oil) impregnated inner sheathing to be controllably disposed of without hazard to the environment. | ||||||
| 58 | Verfahren und Vorrichtung zur Verwertung von kunststoffbeschichteten Kabelresten | EP84112699.8 | 1984-10-20 | EP0144666A2 | 1985-06-19 | Drzevitzky, Bernd; Gerhardt, Hans; Haas, Johannes |
Die Kabelreste werden in ein Bad (15) eingegeben, das ein flüssiges Quellmittel enthält, welches die Kunststoffteile aufquellen läßt und brüchig macht. Anschließend an den Quellvorgang werden die Kabelreste einer Waschstation (25) zugeführt und mit scharfen Strahlen aus Sprühdüsen (32') besprüht, wobei die Kunststoffmäntel der Kabelreste durch den Strahldruck zerkrümmelt werden. Die Kunststoffteile (33) werden durch eine Trennvorrichtung (31) von den Metallteilen (38) getrennt. Das Verfahren hat den Vorteil, daß keine chemische Umsetzung bei den Metallteilen und bei den Kunststoffteilen erfolgt und daß keine schädlichen Abgase entstehen. |
||||||
| 59 | METHOD OF CONVERTING A CABLE IN THE GROUND INTO A CLOSED GUIDING TRACK FOR INSERTION OF NEW CONDUCTORS | EP81902058.0 | 1981-07-13 | EP0055760A1 | 1982-07-14 | EDVARDSEN, Einar |
| Procede d'extraction des parties interieures de cables souterrains, de preference des cables coaxiaux (1) et de telecommunication (2), pour l'introduction de nouveaux conducteurs. Le materiau d'isolation (3, 4) peut etre dissout ou decompose par l'action chimique du xylene ou de l'ethylene diamine cuprique par exemple, pour le cable coaxial (1) et le cable de telecommunication (2), respectivement, de telle sorte que la solution serve d'agent de glissement par le retrait du/des conducteur(s) (5, 6). Les rondelles isolantes (3) du cable coaxial (1) peuvent etre fondues par insertion d'un element chauffant (8) ou par la chaleur provenant d'une resistance electrique dans les pieces (5, 7, 9) du cable. Les rondelles isolantes (3) dans le cable coaxial (1) et les conducteurs (6) avec le materiau isolant (4) dans un cable de telecommunication (2) peuvent etre broyees et retirees. En appliquant des oscillations electromagnetiques sous pression, les rondelles isolantes (3) du cable coaxial (1) peuvent etre detruites. Le materiau isolant (3) et le conducteur (5) d'un cable coaxial (1) peuvent etre retires en introduisant un fluide sous pression oscillant avec, simultanement, une tension dans le conducteur central (5). | ||||||
| 60 | Reclaimation of scrap copper and other metals by waterblasting in a rotating cylinder | US14998682 | 2016-02-02 | US09917426B1 | 2018-03-13 | Arnold A. Kelson; James H. Boyle |
| A system and method that applies a rotating cylinder within which is mounted water jetting apparatus that when applied, causes high pressure water jets to be ejected from nozzles onto combined non-metal and metal substrate materials, and thereby separate non-metal and metal components from one another. | ||||||
