| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | 一种废旧电线的自动拆解处理方法 | CN201610273609.5 | 2016-04-28 | CN105788771A | 2016-07-20 | 费海英 |
| 本发明通过在废旧电线拆解中增加自动理线方法和送线方法,将本公司发明的理线、送线和废旧电线切剖整合成为相互配合且完整拆解的自动拆解系统,解决杂乱废旧电线人工整理剥线分离法的生产效率低下、人工费成本高问题,也解决采用大型机械的粉碎法拆解分离的粉尘污染、能耗大、成本高问题,实现杂乱废旧电线的自动拆解;处理和的得到的电线金属芯送冶炼工厂回收再生利用,废旧电线的皮送塑料回收利用工厂回收再生利用。本发明的废旧电线的自动拆解处理方法,通过增加机械自动化的理线的方法,提高了工作效率,改善了工作环境,节约了劳动成本,防止了废旧电缆拆解的粉尘污染,该环保节能,能够彻底、高效快速的清理废旧电缆。 | ||||||
| 22 | 一种环保型铜米机碾磨器 | CN201610171223.3 | 2016-03-24 | CN105728142A | 2016-07-06 | 周玉红 |
| 本发明公开了一种环保型铜米机碾磨器,包含一盘式底座,在所述的盘式底座上设有一第一调控旋钮和一第二调控旋钮,在所述的盘式底座上嵌套设置一碾磨容器,在所述的碾磨容器上固定设置一缸式载具;所述的第一调控旋钮和第二调控旋钮表面设有防滑螺纹;所述的碾磨容器由不锈钢材质制成。由于本发明的环保型铜米机碾磨器利用第一调控旋钮和第二调控旋钮双重调试好碾磨器的研磨精细度,将研磨物体放入缸式载具里,在流入研磨容器前要经过分流导控管,主要控制研磨物体匀速流进,均匀研磨,从而大大提高和改善了研磨物质的研磨程度。 | ||||||
| 23 | 一种废旧电线拆解设备的钩切装置 | CN201610273585.3 | 2016-04-28 | CN105702389A | 2016-06-22 | 费海英 |
| 本发明提供一种废旧电线自动拆解设备的钩切装置,所述的钩切装置包括至少一个挡线装置和设置在理线滚筒圆周面上的理线钩刀,所述的挡线装置设置在进料口处,固定在理线滚筒的上部,与理线滚筒平行地固定在机体内;挡线装置上设置至少一排挡线钩刀;所述的理线滚筒上的理线钩刀与挡线装置上的挡线钩刀相互配合并错位安装,该技术方案增加了设备自动化程度,提高了工作效率,改善了工作环境,节约了劳动成本,防止了废旧电缆拆解的粉尘污染,该装置,环保节能,结构简单, 制造容易,能够高效快速的理清废旧电缆。本发明填补了国内外废旧电线拆解机械领域的空白。 | ||||||
| 24 | 电力线缆回收装置 | CN201610109270.5 | 2016-02-29 | CN105513722A | 2016-04-20 | 段宏伯; 王宗丽; 韩宝益; 赵钰; 王金鹏; 尚绍辉; 王伟年; 刘冠军; 焦艳玲; 徐广林; 闫明波; 殷永恒; 刁建军; 唐居诚 |
| 本发明提出了一种电力线缆回收装置,包括机架和设置在机架上的安装板,还包括牵引线缆的驱动轮和给线缆导向的导向筒,还包括对线缆进行收纳的绕线筐,绕线筐中间还设有一个烘干除尘的清洁装置;所述导向筒上端通过球铰链铰接在机架上,还设有套在导向筒外部并带动其底端在水平面上绕动的绕动圈,且该绕动圈由旋转装置和升降装置控制。本发明的线缆回收时,机架上的驱动电机通过传送带带动驱动轮,驱动轮通过两两配合将线缆牵引到导向筒内,导向筒由减速电机带动的绕动圈进行牵引,使其下端围绕绕线筐旋转,将线均匀绕放到筐内。绕线筐内的清洁装置为加热鼓风装置,其可以边绕线边通过散热孔吹出热气,帮助线缆烘干水分。 | ||||||
| 25 | 废旧电线、电缆的处理方法 | CN201510763024.7 | 2015-11-10 | CN105355338A | 2016-02-24 | 秦鹏 |
| 本发明公开了一种废旧电线、电缆的处理方法,如下步骤进行:步骤1)以废旧的电线、电缆的包皮材料为原料,预处理后,进行破碎,破碎后筛分,取5~20目的颗粒,与碳酸氢钠混合,得到混合物料;步骤2)以无氧铜、镀锡铜复绞线为软导体,在其外部绕包一层聚酯薄膜作为绕包聚酯带层;步骤3)采用SJ-65/25挤塑机,以步骤1)中得到的混合物料为原料,对步骤2)中绕包好的导体外挤包一层绝缘层,所述的挤包需均匀,厚度一致,表面光滑和颜色一致;步骤4)在上述绝缘层外面绕包一层耐火陶瓷硅橡胶带作为耐火层,所述的绕包必须紧密平整不打褶,挤包均匀,厚度一致,表面光滑和颜色一致;步骤5)采用SJ-90或120挤塑机,以步骤1)中得到的混合物料为原料,对步骤4)中完成的耐火层4外挤包一层绝缘层,得到产品。 | ||||||
| 26 | Apparatus and method for recovering the core of the coated electrical cable | JP2013505546 | 2011-04-20 | JP2013526246A | 2013-06-20 | クレイグ マーフィー |
| 本発明は周辺環境への衝撃を最小限にしながら地中の被覆電気ケーブルのコアを回収する装置及び方法を提供する。 本装置は一本のケーブルのコアに押す力を与えるように操作可能なラムと、複数のリンケージであって、ケーブルの外側被覆に対してコアを変位させるためにラムの作用下でケーブル長さに沿ってケーブル内へ挿入可能に構成されている、リンケージと、コアに引く力を与えるように操作可能なプラーであって、これにより、押す又は引く力の作用により前記変位したコアの前記外側被覆からの除去を容易にするプラーと、を備える。 本装置及び方法は、外側被覆に含浸したどんな炭化水素(例えば油)も環境への危険を犯すことなく制御可能に処分することを可能にしながら、高張力銅製コアケーブルの回収に特に適していることが分かる。 | ||||||
| 27 | JPS5428938B2 - | JP11877374 | 1974-10-17 | JPS5428938B2 | 1979-09-20 | |
| 28 | Kongozetsuensensukuratsupukaraharogenkabiniiruzetsuenzaioerabidashitekaishusuruhoho | JP655376 | 1976-01-23 | JPS51100176A | 1976-09-03 | SUTANREI ROORENSU TEITO; BOBII ARONZA ROORANDO; MITSUSHERU MATSUKINREI BURATSU |
| 29 | Apparatus for recovering high quality material from electric cable scrap | JP2011160044 | 2011-07-21 | JP2013022522A | 2013-02-04 | NAKANE RYOICHI; NAKANE AKIRA |
| PROBLEM TO BE SOLVED: To provide an apparatus for recovering a high quality material from electric cable scrap by which a miss-cut materials contained in a crushed material are efficiently separated and recovered and the recovery ratio of a copper material or the like is improved.SOLUTION: In the case a weir 11 for damming up a portion of water flowing on a sorting table 10 is formed in a lower part of the sorting table along the width direction of the sorting table, a miss-cut material 43 contained in a crushed material gathers in a region near the upper end of a water pool 12 formed by the weir. Partitioning plates 13 and 14 for forming a miss-cut material recovery channel opened in one end and in which no water flows are formed in the region on the sorting table where the miss-cut material gathers to separate and recover the miss-cut material by using the miss-cut material recovery channel. | ||||||
| 30 | Electrical wire cuttings high-quality recovery unit | JP2011160044 | 2011-07-21 | JP4823392B1 | 2011-11-24 | 亮一 中根; 昭 中根 |
| [Summary] Provided is a high quality recovery device for wire scraps that improves recovery rates for copper material and the like by making possible efficient separation and recovery of mistakenly cut materials that are included in crushed substances. [Problem] To provide a high quality recovery device for wire scraps wherein, when a dam (11) is provided that dams up some water flowing on top of a sorting table (10) across the direction of width of the sorting table (10) at the lower part on the sorting table (10), mistakenly cut material (43) that is contained in crushed substances collects in an area in proximity to the upper edge of a pool (12) of water formed by the dam (11); therefore, dividers (13, 14), which form mistakenly cut material recovery pathways (15, 16) one end of which opens into that area where the mistakenly cut material (43) collects on the sorting table (11) and in which water does not flow, are provided on the sorting table (11), and the mistakenly cut material (43) is separated and recovered using these mistakenly cut material recovery pathways (15, 16). | ||||||
| 31 | Waste wire raw material recovering processing mechanism | JP11435184 | 1984-06-04 | JPS60264008A | 1985-12-27 | TOKUYUU RI |
| 32 | JPS5829206B2 - | JP655376 | 1976-01-23 | JPS5829206B2 | 1983-06-21 | SUTANREI ROORENSU TEITO; BOBII ARONZA ROORANDO; MITSUSHERU MATSUKINREI BURATSUKUSUTON |
| 33 | CONNECTOR WITH SEPARABLE LACING FIXTURE | US15560117 | 2016-03-21 | US20180090899A1 | 2018-03-29 | Albert FONT ARANEGA; Longinos DE DIOS MARTÍN; Antonio CARRERAS GARCIÁ |
| 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). | ||||||
| 34 | Waterjet removal of coverings from tangled wire and loose coils | US13999012 | 2013-12-31 | US09168634B1 | 2015-10-27 | Arnold A. Kelson |
| A system for impacting a flow of fluid onto a wire, a bundle of wires, coil of wires and/or cables or other electrical/electronic materials/components that are oriented in a tangle or loose coils etc., and having one or more outer covering materials, and methodology of its use to remove the one or more outer coverings. | ||||||
| 35 | INSULATION OF CONDUCTORS WITH IMPROVED SEPARABILITY FROM PROCESSED BROKEN STONE | US12447326 | 2007-10-26 | US20090277663A1 | 2009-11-12 | Pavel Valenta; Jaromir Fiala; Zlatko Srank; Libor Mastny; Pavel Mecir |
| The invention deals with insulation with improved separability from the processed broken stone designed as single-layer or multi-layer insulation surrounding an electric conductor where the principle is that at least one layer of the insulation is made of magnetic material and at the same time at least one layer is made of electrically non-conductive material. This magnetic material is beneficially produced as a mixture of the magnetic and non-magnetic main material component while it is especially advantageous if the content of the magnetic main material component in individual insulation layers is 5 to 60% of weight and the rest to 100% consists of the non-magnetic main material component, all related to the weight of individual layers, or even better, if the content of the magnetic main material component of individual insulation layers is 10 to 30% of weight, related to the weight of individual insulation layers. The magnetic main material component is beneficially produced on the basis of magnetite —Fe3O4, or on the basis of ferrite with the general formula MeIIFe2O4, where Me represents Co, Mn, Ni, Ca, Cu, Zn, Mg, or ferrite with the general formula LnIIFe2O4, where Ln represents noble earth elements, or on the basis of noble earth elements in the oxidation degree II, or on the basis of ferric oxide in the modification γ-Fe2O3, or on the basis of powder iron, or on the basis of a magnetic alloy of iron or on the basis of a mixture or alloy containing the above mentioned magnetic partial components, where advantageous magnetic alloys of iron are alloys containing at least noble earth elements, or especially advantageous magnetic alloys of iron are alloys containing at least another noble earth element and B and/or Co while advantageous metallic noble earth elements are Nd and Sm. Or the magnetic main material component is made on the basis of magnetically hard materials of the AlNiCo or FeCoCr type. The non-magnetic main material component is beneficially produced on the basis of plastic material, advantageously selected from the group of polymers or copolymers, mainly from the group of elastomers as silicone or butadienstyrene rubber or plastic materials as PVC, PE, PP, or PTFE. | ||||||
| 36 | Machine for scraping off the plastic coating of a used wire | US616607 | 1984-06-04 | US4739533A | 1988-04-26 | Tocew Lee |
| The apparatus comprises a low speed feeding roller on which are provided teeth, and a high speed scraping roller on which are mounted steel brush wheels. In operation, the pre-cut used wires are fed into the apparatus and the coating is scraped off by the steel brush wheels to obtain substantially exposed copper wire. | ||||||
| 37 | Reclamation of conductive wire from cable | US817722 | 1977-07-21 | US4173493A | 1979-11-06 | William C. Kallas |
| A process and apparatus for the recovery, for re-use, of metallic conductors such as copper and aluminum from insulated cable, particularly scrap telephone cable, the process utilizing a unique combination of mechanical and chemical operations protective of both the recovered metals and the environment. The invention has particular utility in the processing of cable of the type which includes as a filler a petroleum gel or similar material employed as a moisture barrier. It is an important feature of the invention that this petroleum jelly or petrolatum can be effectively removed in a regulated solvent extraction step, the specific process being highly effective to remove such organic material essentially quantitatively from pre-chopped scrap material. In a preferred embodiment of the invention, the process is a continuous one, making feasible efficient, economical recovery of valuable conductors in an unoxidized state and petrolatum filler. | ||||||
| 38 | Method of recovering non-ferrous metal conductors from a telecommunication cable laid in the earth | US649163 | 1976-01-14 | US4018058A | 1977-04-19 | Heinrich Eichenseher; Wolfgang Eichenseher |
| A method of recovering non-ferrous metal conductors from a sheathed cable laid in the earth comprising excavating the earth at spaced intervals, such as 20 to 50 meters, along the cable, severing the cable, stripping off the sheath to expose the conductors adjacent the severed end or ends, and withdrawing the severed conductor length by supplying a pulling force to a severed end. | ||||||
| 39 | Mobile apparatus for salvaging underground and overhead cable | US3736822D | 1971-06-14 | US3736822A | 1973-06-05 | MCVAUGH A |
| An apparatus and method is provided for salvaging underground and overhead electrical cable. The apparatus of this invention includes a mobile platform such as a truck on which there is mounted an adjustable cable guide which guides the cable to a cable puller which draws the cable from either an underground conduit or from overhead installation. The cable is then fed to a cable cutter which is synchronized with the rate of feed of the cable so as to cut the cable into predetermined lengths. The cut lengths of the cable are then fed to a truck or the like and hauled away to a smelter for recovery of the metal.
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| 40 | Method of separating insulation from insulated wires and cables | US3670969D | 1969-12-02 | US3670969A | 1972-06-20 | TERADA MANZO |
| A method of separation and sorting of the insulation-cover from the metal core of various electric wires and cables, comprising an agitation-tank providing an impact agitating force to small cut pieces of various insulated electric wires and/or cables in the middle of the tank which is filled with a liquid, at room temperature or properly heated, and a bath filled with a particular liquid which is lighter in its specific gravity than the metal core, but heavier than the insulation-cover, enabling perfect sorting of the insulation-cover from the metal core in the middle of the bath.
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