CLOUD FLOW

Brand Owner (click to sort) Address Description
CLOUDFLOW On Clouds GmbH Pfingstweidstrasse 106 Zurich 8005 Switzerland CLOUD FLOW;Footwear, headwear; shirts, neckties; trousers, bathing suits, coats, clothing, namely, jumpsuits, pelerines, cyclists' clothing, namely, shirts, shorts, jerseys; sashes for wear, clothing, namely, aprons; clothing, namely, headbands, tracksuits; parkas, namely, anoraks; ski pants; clothing, namely, waist belts; fur coats; clothing, namely, mufflers; clothing, namely, gloves; dressing gowns; footwear for infants, slippers, shoes, sports shoes, esparto shoes and sandals, beach shoes, heels, bath slippers, boot liners, boots, socks and sandals; leather clothing, namely, leather pants, leather jackets, leather belts; pockets for clothing;Scientific and technological services and research and design relating thereto, namely, research and development of technology in the field of gymnastic and sporting articles and footwear for sports; scientific research and development, design and testing of new products for others, particularly in the field of gymnastic and sporting articles and footwear for sports;
CLOUDFLOW Penguin Computing, Inc. 45800 Northport Loop West Fremont CA 94538 CLOUD FLOW;Platforms as a service featuring computer software platforms for working with video data;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A sterilization apparatus wherein one or more electron beam tubes are used to direct electron beams into an ambient gaseous environment to create an electron plasma cloud into which non-sterile target objects may be moved. The electron plasma cloud is formed by interaction of the electron beam with the ambient atmosphere. Helium or other like gaseous may be used to expand the effective volume of the electron plasma cloud. Manipulators are used to move target objects in the electron plasma cloud, exposing non-sterile surfaces to the cloud and then joining the surfaces together where appropriate. The beam tube used to generate the electron beam has a thin low energy absorbing window which allows relatively low energy beams to be used, minimizing damage to materials within the surface of the target objects.