PARTITION WALLS METAL

Brand Owner (click to sort) Address Description
CCS DIGITAL_FABRIC CCS digital_fabric GmbH Ungelsheimer Weg 1-3 40472 Düsseldorf Germany Partition walls of metal, aforesaid partition walls in particular dismountable; stationery or mobile partition walls primarily composed of metal; removable partition walls of metal; removable partition walls primarily composed of metal for fairs;Advertising signs of paper or cardboard; photograph stands of plastics or metals; posters; printed matter, produced by digital printing machines, namely, wall calendars, illustration boards, photo prints; banners and posters;Photocopying; preparation of colour document reproductions;Picture frames; picture frame brackets; point of purchase displays and display boards; display stands;
FABRIC FRAME CCS digital_fabric GmbH Ungelsheimer Weg 1-3 40472 Düsseldorf Germany Partition walls of metal, aforesaid partition walls in particular dismountable; stationary or mobile partition walls of metal for advertising; stationary or mobile partition walls primarily composed of metal; removable partition walls of metal; removable partition walls primarily composed of metal for fairs;Advertising signs of paper or cardboard; photograph stands of plastics or metals; posters; printed matter, produced by digital printing machines, namely, wall calendars, illustration boards, photo prints, advertising novelties, namely, advertising signs in the form of paper cubes and advertising signs in the form of paper banners and posters;
 

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

    
Technical Examples
  1. A honeycomb structural body having a plurality of cells and partition walls defining the cells, wherein a cross-section of each partition wall perpendicular to the flow direction of a fluid to be permeated has a grille shape of which gratings cross in x axis and Y axis directions, and there are at least two kinds of cells different in their cross-sectional areas perpendicular to the flow direction of a fluid to be filtered by virtue of changing intervals of the partition walls in the x axis direction and/or intervals of the partition walls in the y axis direction, as predetermined. Each cell is defined by two parallel partition walls having the same length and another two parallel partition walls having the same length crossing each other and being formed at the predetermined intervals. A die usable for forming such a honeycomb structure is also disclosed.