• 专利标题:   Production device used for producing carbon nano material e.g. graphene nano material, has carbon nano control device that is arranged on carbon nano-vacuum device such that carbon nano-vacuum device is controlled.
  • 专利号:   DE202017102520-U1, HK1230849-A2, JP3214780-U, CN207091008-U
  • 发明人:   HO T, HO T K, HE Z
  • 专利权人:   HO T K, WORLD LINKAGE HOLDINGS LTD, WORLD LINKAGE HOLDINGS LTD, CHINA LEAD HOLDINGS LTD
  • 国际专利分类:   B82B003/00, B82Y040/00, C01B032/15, C01B000/00, C01B032/154, C01B032/184
  • 专利详细信息:   DE202017102520-U1 06 Jul 2017 C01B-032/15 201749 Pages: 10 German
  • 申请详细信息:   DE202017102520-U1 DE20102520 28 Apr 2017
  • 优先权号:   CN20336138, DE20102520, JP002028

▎ 摘  要

NOVELTY - The device has an alternating current (AC)/direct current (DC) rectifier (2) that is connected to a short-circuit generator (1). A carbon nano-vacuum device is arranged at the output end of the AC/DC rectifier for producing the carbon nano materials. A carbon nano control device (3) is arranged on the carbon nano-vacuum device such that carbon nano-vacuum device is controlled. USE - Production device used for producing carbon nano materials such as graphene nano material, fullerene nano material and fibrous carbon nano material used in industry such as aerospace industry, transport industry, sports and leisure products manufacturing industry, medical industry, mechanical engineering industry and textile industry. ADVANTAGE - The structure of production device is simplified. The production device is environmentally friendly. The energy saving effect of production device is improved. The production efficiency of production device is improved. The production cost of production device is reduced. DETAILED DESCRIPTION - The device has generator that is provided with a stator induction coil arranged with a double core structure. The distance between iron cores is larger than magnet. A magnetic circuit is an open circuit. The carbon nano-vacuum device is provided with a vacuum box (4), feeding devices (5,7), graphite rods (6,8), a nano material receiving device (9) and a graphite cover (10). The first graphite rod is attached to the upper end of the first feed device. The graphite rods are arranged in parallel to each other. The graphite rods are connected to the AC/DC rectifier. A nano material accommodating device is mounted between feeding devices and is arranged at the lower end of the connecting point of the graphite rods. The lower end of the graphite cover is attached to the upper end of the nano material receiving unit. The upper end or the middle end of the graphite cover is arranged at the connecting point of the graphite rods. The connecting point of first graphite rods is connected with upper end of the nano material receiving device through the graphite cover to form a closed space. The graphite rods, feed devices, graphite cover and the nano material receiving device are provided in the vacuum box. The control device is arranged to control the distance between feed devices to ensure that stable electrical high-voltage arc is generated at the connection point of the graphite rods. The alarm signal is generated from control unit when high voltage electrical arc is abnormal. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic view of the production device. Short-circuit generator (1) AC/DC rectifier (2) Carbon nano control device (3) Vacuum box (4) Feeding devices (5,7) Graphite rods (6,8) Nano material receiving device (9) Graphite cover (10)