| 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 | 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。 | ||||||
| 2 | 一种用于铜米机的粉碎装置 | CN201510870958.0 | 2015-12-02 | CN106816233A | 2017-06-09 | 刘勇 |
| 本发明公开了一种用于铜米机的粉碎装置,包括一个开有三个安装槽的机架所述机架的两端均通过紧固螺栓螺接安装有轴承架,所述轴承架在安装槽对应位置处安装有轴承,且位于中间的轴承安装有主滚刀、位于两侧的轴承安装有副滚刀,所述副滚刀上阵列有环形滚刀片,所述安装槽上开有与环形滚刀片相匹配的滚刀槽,所述主滚刀的安装轴上安装有滚刀片和拨线板,所述滚刀片上端一体成型有V型刀刃,所述装置通过将原有铜米机粉碎装置裸漏的单排滚刀改进为两侧副刀封闭的模式,有效的解决了线缆卡在切刀夹缝中,无法被有效的切除的问题,同时新增的拨线板能够有效带动未切削完全线缆继续参与切削。 | ||||||
| 3 | 一种用于铜米机的粉碎装置 | CN201510869799.2 | 2015-12-01 | CN106816232A | 2017-06-09 | 黄梁 |
| 本发明公开了一种用于铜米机的粉碎装置,包括一个两端安装有防护板的底板,所述底板的后端安装有轴承架,所述轴承架上开有上下两排轴孔,且上方轴孔内部安装有左旋滚刀、下方轴孔内部安装有右旋滚刀,所述左旋滚刀和右旋滚刀均由滚刀轴、滚刀刀片和拨线槽组成,所述左旋滚刀的正下方均设置有与底板螺接安装的刀架,所述刀架的上端均焊接有一排横向切刀,所述底板对应右旋滚刀的正下方位置处均开有筛孔,所述装置通过将原有铜米机粉碎装置的单排切刀增加为现有的双排双向滚到,并在滚刀下方设置横向切刀,增强了铜米机粉碎装置的粉碎效率,并且螺旋滚刀的侧向磨压作用也能够有效地去除线缆保护层。 | ||||||
| 4 | Method for recycling waste wire harness | US10304997 | 2002-11-27 | US20030115989A1 | 2003-06-26 | Makoto Katsumata; Hiroshi Suzuki |
| In a waste wire harness including electric wires each coated with a resin comprised of an olefin-based resin and magnesium hydroxide as a fire retardant, and including accompanied members having at least one of terminals, connectors, various kind of boxes such as junction boxes and fuse boxes, tapes, tubes, grommets, wiring clips, and protectors, a method for recycling the waste wire harness includes a step of removing the accompanied members from the waste wire harness, a step of crushing the waste wire harness after removing the accompanied members to obtain crushed particles, a step of incinerating the crushed particles to produce incinerated ash, a step of converting a magnesium compound contained in the incinerated ash into magnesium hydroxide, and a step of collecting the magnesium hydroxide. | ||||||
| 5 | Apparatus for stripping a sheath of plastic material from a core | US80188859 | 1959-03-25 | US2951403A | 1960-09-06 | BUNCH TILLMAN T; DINSMORE JR MARION G; HENNING GEORGE E |
| 6 | Apparatus for stripping a sheath from a core | US80184859 | 1959-03-25 | US2951402A | 1960-09-06 | ADAMS GEORGE P; BUNCH TILLMAN T |
| 7 | Insulation stripping unit | US57723856 | 1956-04-10 | US2882769A | 1959-04-21 | STOCKER EDWARD T |
| 8 | Delaminating method and apparatus | US473518 | 1974-05-28 | US3951727A | 1976-04-20 | William B. Greenberg |
| A delaminating method and apparatus wherein a laminated assembly of generally flat strips is passed between rotary pressure members having different speeds and surface characteristics to simultaneously apply localized compressive and shear forces to effect delamination of the assembly. The term "delaminating" is used broadly herein to include both separating and the reduction of adherence or bonding tenacity between strips of the assembly without actual separation. | ||||||
| 9 | Method for recycling waste wire harness | EP02258184.7 | 2002-11-27 | EP1321191A2 | 2003-06-25 | Katsumata, Makoto, c/o Yazaki Parts Co., Ltd.; Suzuki, Hiroshi, c/o Yazaki Parts Co., Ltd. |
In a waste wire harness including electric wires each coated with a resin comprised of an olefin-based resin and magnesium hydroxide as a fire retardant, and including accompanied members having at least one of terminals, connectors, various kind of boxes such as junction boxes and fuse boxes, tapes, tubes, grommets, wiring clips, and protectors, a method for recycling the waste wire harness includes a step of removing the accompanied members from the waste wire harness, a step of crushing the waste wire harness after removing the accompanied members to obtain crushed particles, a step of incinerating the crushed particles to produce incinerated ash, a step of converting a magnesium compound contained in the incinerated ash into magnesium hydroxide, and a step of collecting the magnesium hydroxide. |
||||||
| 10 | Method for recycling waste wire harness | EP02258184.7 | 2002-11-27 | EP1321191A3 | 2004-06-02 | Katsumata, Makoto, c/o Yazaki Parts Co., Ltd.; Suzuki, Hiroshi, c/o Yazaki Parts Co., Ltd. |
In a waste wire harness including electric wires each coated with a resin comprised of an olefin-based resin and magnesium hydroxide as a fire retardant, and including accompanied members having at least one of terminals, connectors, various kind of boxes such as junction boxes and fuse boxes, tapes, tubes, grommets, wiring clips, and protectors, a method for recycling the waste wire harness includes a step of removing the accompanied members from the waste wire harness, a step of crushing the waste wire harness after removing the accompanied members to obtain crushed particles, a step of incinerating the crushed particles to produce incinerated ash, a step of converting a magnesium compound contained in the incinerated ash into magnesium hydroxide, and a step of collecting the magnesium hydroxide. |
||||||
| 11 | Method for recycling waste wire harness | US10304997 | 2002-11-27 | US06855187B2 | 2005-02-15 | Makoto Katsumata; Hiroshi Suzuki |
| In a waste wire harness including electric wires each coated with a resin comprised of an olefin-based resin and magnesium hydroxide as a fire retardant, and including accompanied members having at least one of terminals, connectors, various kind of boxes such as junction boxes and fuse boxes, tapes, tubes, grommets, wiring clips, and protectors, a method for recycling the waste wire harness includes a step of removing the accompanied members from the waste wire harness, a step of crushing the waste wire harness after removing the accompanied members to obtain crushed particles, a step of incinerating the crushed particles to produce incinerated ash, a step of converting a magnesium compound contained in the incinerated ash into magnesium hydroxide, and a step of collecting the magnesium hydroxide. | ||||||
| 12 | Wire and cable insulation removing device | US29338772 | 1972-09-29 | US3822615A | 1974-07-09 | REED C |
| A power-operated device for removing insulation from various sized scrap wires and cables without burning, and thus improving the ecology by eliminating the discharge of smoke and fumes into the ambient atmosphere.
|
||||||
| 13 | Stripping method and apparatus for insulated covered wire and cable | US3641852D | 1969-10-24 | US3641852A | 1972-02-15 | TERADA MANZO |
| A stripping device and method for insulated covered wire and cables, providing an automatic and continuous stripping apparatus for perfect recovery of the metal core from various wires or cables which are different in size and construction, providing a forced pressure to the insulation cover at the place where four angle parts are formed in each pair of oppositely facing concave grooves which are engraved with different widths in the outer peripheral surfaces of a pair of rotatables facing rollers, insuring the stripping to be performed.
|
||||||
| 14 | Methods of and apparatus for stripping a sheath of plastic material from a core | US80184559 | 1959-03-25 | US2977831A | 1961-04-04 | BUNCH TILLMAN T |
| 15 | Method of reclaiming insulated wire | US61966056 | 1956-11-01 | US2882188A | 1959-04-14 | LEVIN ALLAN F; SZPILA JEROME S |
| 16 | Method for recycling waste wire harness | EP02258184.7 | 2002-11-27 | EP1321191B1 | 2007-01-24 | Katsumata, Makoto, c/o Yazaki Parts Co., Ltd.; Suzuki, Hiroshi, c/o Yazaki Parts Co., Ltd. |
| 17 | PROCESS AND APPARATUS FOR RECOVERING MATERIALS FROM INSTALLATION CABLES WITH A BUNCHED CONDUCTOR | EP02710587.3 | 2002-01-22 | EP1354327A1 | 2003-10-22 | Maraszewski, Jan; Maraszewski, Witold; Plata, Kazimierz; Plata, Bronislaw |
| The present invention relates to a process for recovering materials from installation cables with bunched conductors and plastic insulation. The process is characterised in that the installation cable is cut into segments which are, after pressing down, rolled at an increased temperature ranging from 70 ° to 130 °C, while maintain during rolling the position of the longitudinal axis of segments, which is perpendicular to the direction of motion, and next the separated conductor segments are separated form insulation and non-separated cable segments which are again subjected to the recovery process. The present invention relates further to the apparatus provided with a separating sieve (9), which comprises the segments comprising a lower plate (1) and an upper plate (2) associated with a connecting-rod mechanism (5), a pressing servo-motor (8), and a separating sieve (9) arranged under it in an angular manner. | ||||||
| 18 | 폐전선 동분리장치 | KR1020160117558 | 2016-09-12 | KR101689871B1 | 2016-12-28 | 김선옥 |
| 본발명은폐전선의피복과도선을상호효과적으로분리하여재활용할수 있도록된 새로운구조의폐전선동분리장치에관한것이다. 본발명에따른폐전선동분리장치는상기선별판(41)의후방에구비되어상기선별판(41)의후방으로배출된도선조각(1)을후방으로이송하는이송수단(50)과, 상기이송수단(50)의일측에구비되며작동시상기이송수단(50)에의해이송되는피복조각(2)이결합된도선조각(1)이배출되도록하는배출수단(60)과, 상기이송수단(50)에의해후방으로이송되는도선조각(1)을촬영하는카메라(70)와, 상기카메라(70)에의해촬영된영상을분석하여피복조각(2)이결합된도선조각(1)을감지하며상기배출수단(60)의작동을제어하여피복조각(2)이결합된도선조각(1)이배출되도록하는제어수단(80)과, 상기배출수단(60)에의해배출된피복조각(2)이결합된도선조각(1)을수집하여도선조각(1)과피복조각(2)으로분리하여배출하는피복분리수단(90)을이용하여, 선별유닛(40)에서배출된도선조각(1)에, 피복조각(2)이결합된도선조각(1)이포함되었을경우, 이를감지하여자동으로배출함으로, 작업자가수작업으로피복조각(2)이결합된도선조각(1)을제거하는불편함을해결하고, 작업효율을향상시킬수 있는장점이있다. | ||||||
| 19 | 세척수단을 구비한 폐전선의 재생 시스템 | KR1020180033637 | 2018-03-23 | KR101886859B1 | 2018-08-08 | 한미화 |
| 본발명은사용된후 폐기되는폐전선에서동선만을채취하여재활용할수 있도록함으로써경제적효율성의향상과더불어환경개선에기여할수 있고특히폐전선에남아있는합성수지재의피복을동선과최대한분리시킬수 있어동선의최대회수가가능한세척수단을구비한폐전선의재생시스템에관한것이다. | ||||||
| 20 | 폐통신선 및 폐전선의 친환경 신재생방법 | KR1020140112902 | 2014-08-28 | KR1020160027276A | 2016-03-10 | 강길용; 황성철; 권형남 |
| 본발명은폐전선의재생방법에관한것으로, 보다상세하게는폐전선내에포함되어있는젤리및 세선외피를친환경적으로깨끗하게분리하여구리선을재활용할 수있도록한 폐전선의재생방법에관한것이다. 본발명에따른폐전선의재생방법은, 폐전선의외피가탈피된세선을시약분무실에투입하고상기시약분무실내에서액상의파라핀에열을가하여고온의증기상태로분무시켜세선으로부터젤리를분리하는젤리분리단계와; 젤리가분리된세선을넣은교반조에분리촉진첨가제를혼합하여 30분간교반시켜세선에잔존하는젤리를분리하는잔존젤리분리단계와; 상기교반조를일정온도로가열시켜잔존젤리가분리된세선을열처리하여세선외피를탈피시키는세선외피탈피단계와; 상기교반조내에서세선외피가탈피되고남은구리선을회수하는회수단계를포함하는것을특징으로한다. | ||||||
QQ群二维码
意见反馈
意见反馈