| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 一种废旧线材的回收处理系统及处理方法 | CN201610300516.7 | 2016-05-09 | CN106024215A | 2016-10-12 | 陈志浩; 姚舒阳; 朱协彬; 姚敏 |
| 本发明公开了一种废旧线材的回收处理系统及处理方法,具有:输送带;沿输送带运输的真空热解箱,容纳废旧线材;沿输送带前进方向依次设有工位一、工位二、工位三和工位四;工位一上设有振动混料装置;工位二上设有微波加热装置;工位三上设有分离装置;工位四上设有清洗装置,去除漆膜和电缆外皮效率高、绿色环保、能耗低且工艺简单,能够得到高收率的金属线材。 | ||||||
| 2 | 无氧铜丝的制备工艺 | CN201710448290.X | 2017-06-14 | CN107331474A | 2017-11-07 | 杨仁忠; 史建华; 谈菊新; 王培培; 卞保靖 |
| 本发明公开了一种无氧铜丝的制备工艺,包括如下步骤:1)从废电线电缆中分解出废铜丝;2)将废铜丝液压成块状物料;3)将块状物料投入电炉中熔炼出杆状无氧铜;4)将杆状无氧铜拉丝成无氧铜丝。本发明无氧铜丝的制备工艺,其以废电线电缆中的废铜丝来制备无氧铜丝,可实现对废电线电缆的回收利用。 | ||||||
| 3 | 一种喷火枪控制式废弃射频电缆回收装置 | CN201611082269.4 | 2016-11-30 | CN106558375A | 2017-04-05 | 王丽萍 |
| 本发明公开了一种喷火枪控制式废弃射频电缆回收装置,包括机架,机架的侧壁上设有放卷轮,机架上设有收卷轮,机架上设有驱动电机,驱动电机的前部设有驱动轴,驱动轴的外周面套装有驱动轮,驱动轮与收卷轮啮合;机架的内顶部上设有吊顶架,吊顶架上设有吊顶板,机架上设有温控器,吊顶架的下部设有电热管,电热丝与温控器为电连接;机架的内顶部上设有安装架,安装架上设有喷火壳,喷火壳的下部设有若干喷火头,机架上设有喷火器,喷火器与喷火壳通过喷火管道连接,喷火管道上设有控制开关。本发明可以对射频电缆进行预加热处理,通过收卷轮可以方便收卷射频电缆芯,方便对射频电缆进行熔融处理。 | ||||||
| 4 | 废物处理上的改进 | CN201180053254.4 | 2011-09-07 | CN103282177B | 2016-09-21 | 奥弗奈尔·亨利·帕瑞; 瑞法特·阿尔·沙拉比 |
| 提供了一种处理废物材料的设备(100),其包括绝热腔(102)、用于加热绝热腔(102)的内部的高温气体入口(106,112)以及用于包含待处理的废物的旋转滚筒(118)。旋转滚筒(118)中具有间隙(120),定位在绝热腔(102)内且围绕绝热腔的边缘与绝热腔分离开一间隙。所述处理废物材料的设备(100)还设置有用于以一速度旋转所述旋转滚筒(118)的驱动装置(126,128),以便在使用中使被加热软化的废物材料与所述废物的剩余部分离心地分离开并穿过旋转滚筒(118)中的间隙(120)。 | ||||||
| 5 | 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。 | ||||||
| 6 | 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。 | ||||||
| 7 | 废物处理上的改进 | CN201180053254.4 | 2011-09-07 | CN103282177A | 2013-09-04 | 奥弗奈尔·亨利·帕瑞; 瑞法特·阿尔·沙拉比 |
| 提供了一种处理废物材料的设备(100),其包括绝热腔(102)、用于加热绝热腔(102)的内部的高温气体入口(106,112)以及用于包含待处理的废物的旋转滚筒(118)。旋转滚筒(118)中具有间隙(120),定位在绝热腔(102)内且围绕绝热腔的边缘与绝热腔分离开一间隙。所述处理废物材料的设备(100)还设置有用于以一速度旋转所述旋转滚筒(118)的驱动装置(126,128),以便在使用中使被加热软化的废物材料与所述废物的剩余部分离心地分离开并穿过旋转滚筒(118)中的间隙(120)。 | ||||||
| 8 | Process and apparatus for recovery of unoxidized metal from scrap of metal insulated with organic substance | JP6205077 | 1977-05-27 | JPS5316302A | 1978-02-15 | ARUBAATO BII BEIKAA |
| 9 | Regeneration method of insulated wire scrap | JP2273976 | 1976-03-04 | JPS51113176A | 1976-10-06 | EMANIYUERU SUKARUKO |
| 10 | Anti-theft cable | EP11306303.6 | 2011-10-07 | EP2579278A1 | 2013-04-10 | Cofre Luna, Jorge Antonio |
The present invention relates to an electric cable (10) comprising an elongated electrical conductor composed of at least a first metallic elongated element (1) surrounded by a second metallic elongated element (2), characterized in that the electric cable (10) further comprises an elongated mineral element (3) including a mineral material having a melting point superior or equal to the melting point of the first and second metallic elements, said elongated mineral element being positioned along the electric cable (10) and between the first and the second metallic elongated elements (1, 2).
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| 11 | Recycle system for coated wire | JP2012170653 | 2012-07-31 | JP2014029817A | 2014-02-13 | AJISAKA YASUO; KUMAI YOSHIHISA; OKI HIDENOBU |
| PROBLEM TO BE SOLVED: To provide a system capable of separating and recovering copper wires and coating materials obtained by carbonizing a coat of a coated wire in a short time.SOLUTION: A recycle system 1 for a coated wire comprises: a continuous carbonization apparatus 2 which separates and recovers coating materials and copper wires by pyrolysis of a coated wire 14 under an oxygen-free or low oxygen atmosphere using electric heaters 36 and microwave irradiation and further using heating means using superheated steam; a catalytic gas purification device 3 which purifies decomposition gas generated in the continuous carbonization apparatus 2; and a hydrogen chloride absorption column 4 which removes hydrogen chloride generated by the pyrolysis of the coated wire 14. The continuous carbonization apparatus 2 includes a one stage or two or more stages pyrolysis chamber 30. The pyrolysis chamber 30 is provided with rotatable eccentric plates having a fire grate directly receiving the coated wire 14, and a coat is carbonized and peeled at a plate part. | ||||||
| 12 | JPS564175B2 - | JP2273976 | 1976-03-04 | JPS564175B2 | 1981-01-29 | |
| 13 | Waste processing | US13878137 | 2011-09-07 | US08869425B2 | 2014-10-28 | Ophneil Henry Perry; Rifat Al Chalabi |
| An apparatus (100) for processing waste material is provided which comprises a heat proof chamber (102), a hot gas inlet (106, 112) for heating the interior of the heat proof chamber (102), and a rotatable drum (118) for containing waste to be processed. The drum (118) has gaps (120) therein, is located within the heat proof chamber (102), and separated therefrom around its edge by a gap. The apparatus (100) is also provided with a drive (126, 128) for rotating the drum (118) at a speed such that, in use, waste material that is heat softened is centrifugally separated from the remainder of the waste and passes through the gaps (120) in the drum (118). | ||||||
| 14 | Method for cleaning grease-filled cable stub | US119095 | 1980-02-06 | US4272300A | 1981-06-09 | Frederick W. Burtelson |
| An unsheathed grease-filled cable stub has the grease removed from around the insulated wires by subjecting the cable stub to radiant heat over the length of the stub and over a major portion of its circumference while the stub is supported on a flexible open mesh of material that overlies a trough. The heated grease melts and flows downwardly for collection into the trough, the grease also flowing through the supporting mesh. The heating temperature of the cable stub is kept low enough to prevent damage to the insulation of the wires. | ||||||
| 15 | Insulation removal apparatus | US429967 | 1974-01-02 | US3932118A | 1976-01-13 | Frank W. Eggers, III; Ralph O. Wigger; Richard L. Coan |
| This application describes a continuous method of removing polyvinyl chloride insulation or other volatilizable material from items such as copper wire without producing undesirable by-products. The method involves the pyrolysis of the insulation on the wire in a fluidized bed reactor charged with small particles of calcium carbonate. The calcium carbonate reacts with the gaseous chlorine from the insulation to produce calcium chloride which then is collected and can be used for snow removal, road construction, and the like. After removal of the insulation, the copper wire is cooled and cleaned. The products of combustion are passed through an afterburner to a HCl scrubber containing CaCO.sub.3 where any remaining chlorine is reacted with calcium carbonate to produce CaCl.sub.2. The application also describes apparatus for moving the items across the heated reactor. An alternative process involves pyrolysis of the insulation in a pyrolysis chamber, passing the products of pyrolysis through an afterburner and thence to a fluidized bed reactor which uses fluidized particles of CaCO.sub.3 to remove any chlorine from the products of combustion of the afterburner. An HCl scrubber is also used as a final processing step in this form of the process to remove particulate matter and to prevent HCl emissions in the event of a system failure. | ||||||
| 16 | Copper recovery | US3480477D | 1967-05-19 | US3480477A | 1969-11-25 | LEVIN ALLAN F |
| 17 | Method and apparatus for recovering the copper of electrically insulated copper wire | US40513854 | 1954-01-20 | US2815278A | 1957-12-03 | WILKINS RICHARD A |
| 18 | WASTE PROCESSING | US13878137 | 2011-09-07 | US20140144043A1 | 2014-05-29 | Ophneil Henry Perry; Rifat Al Chalabi |
| An apparatus (100) for processing waste material is provided which comprises a heat proof chamber (102), a hot gas inlet (106, 112) for heating the interior of the heat proof chamber (102), and a rotatable drum (118) for containing waste to be processed. The drum (118) has gaps (120) therein, is located within the heat proof chamber (102), and separated therefrom around its edge by a gap. The apparatus (100) is also provided with a drive (126, 128) for rotating the drum (118) at a speed such that, in use, waste material that is heat softened is centrifugally separated from the remainder of the waste and passes through the gaps (120) in the drum (118). | ||||||
| 19 | Wire processing method of cross-linking coated wire | US10356595 | 2003-02-03 | US07234235B2 | 2007-06-26 | Tatsuya Kato; Masashi Kando |
| In wire cross-linking process, after microwave is launched into the inside of the waveguide coaxial converter, the coated wire is inserted into the wire insertion pipe. The coated wire is cross-linked by high frequency heat and a coating insulator is adhered well to an electric conductor by heat shrinking. | ||||||
| 20 | Cascade extracting and solvent refreshing method for recycling jelly cables | US10767440 | 2004-01-30 | US07011713B2 | 2006-03-14 | Daw-Ming Fann; Shiow-Chen Lu; Yih-Chyuan Lin; Jih-Yang Liu; Hsi-Pai Hsu |
| The method of continuously collecting jelly compounds from jelly filled cable is performed by recycling operation of a solvent by repeatedly heating, cleaning and condensing the recycling solvent used to deprive the jelly compounds of the jelly filled cable. The solvent can be retrieved for reuse unlimited times, and the collected jelly compounds can be purified for reuse too. The method is energy saving with less consumption of solvent. Absolutely no worry of an additional public nuisance. | ||||||
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