RU2010132100A - DESIGN FOR STACKING PLATES FROM CERAMIC BUILDING MATERIAL - Google Patents

Abstract

 1. Design for stacking plates of ceramic building material, in which plates of ceramic building material are stacked on a pallet,! moreover, a coating film and / or uneven relief are applied on the surface of said plates! on the front surfaces of the plates of ceramic building material is a sheet of cushioning paper, and! there is a gasket on the pallet, which has a hollow structure and on top of which plates of ceramic building material are stacked. ! 2. The design for stacking plates of ceramic building material according to claim 1, characterized in that the gasket is made of synthetic resin. ! 3. The design for stacking plates of ceramic building material according to claim 1, characterized in that the average compressive strength of the gasket is 2000N or more. ! 4. The design for stacking plates of ceramic building material according to claim 1, characterized in that the gasket contains holes passing through its inner part, and the gasket is located so that the holes extend parallel to the longitudinal boards of the pallets. ! 5. The design for stacking plates of ceramic building material according to claim 1, characterized in that on the surface of the plates of ceramic building material an uneven relief is applied with a depth of 3 mm or more and an inclination angle of 45 ° or more, and a coating film covering said uneven relief . ! 6. Design for stacking plates of ceramic building material according to claim 1,! characterized in that said stacking plates�

Claims (8)

1. Design for stacking plates of ceramic building material, in which plates of ceramic building material are stacked on a pallet, moreover, on the surface of these plates coated coating film and / or uneven relief, on the front surfaces of the plates of ceramic building material is a sheet of cushioning paper, and there is a gasket on the pallet, which has a hollow structure and on top of which plates of ceramic building material are stacked. 2. The design for stacking plates of ceramic building material according to claim 1, characterized in that the gasket is made of synthetic resin. 3. The design for stacking plates of ceramic building material according to claim 1, characterized in that the average compressive strength of the gasket is 2000N or more. 4. The design for stacking plates of ceramic building material according to claim 1, characterized in that the gasket contains holes passing through its inner part, and the gasket is located so that the holes extend parallel to the longitudinal boards of the pallets. 5. The design for stacking plates of ceramic building material according to claim 1, characterized in that on the surface of the plates of ceramic building material an uneven relief is applied with a depth of 3 mm or more and an inclination angle of 45 ° or more, and a coating film covering said uneven relief . 6. Design for stacking plates of ceramic building material according to claim 1, characterized in that said plates are stacked on a gasket in a state in which at least two plates of ceramic building material are stacked and connected by bonding materials, wherein when stacking packages, the positions of the materials connecting the upper and lower packages are mutually different. 7. Design for stacking plates of ceramic building material according to claim 6, characterized in that the plates of ceramic building material are stacked on the gasket in a state in which at least two plates are laid in one bag and connected by bonding materials, the positions of the materials connecting the bag stacked directly on top of the gasket are such that they are not located above the transverse strips of the pallet. 8. Design for stacking plates of ceramic building material according to any one of claims 1 to 7, characterized in that the plates of ceramic building material are folded on the gasket in a state in which at least two plates are laid in one bag and connected by bonding materials, the provisions of the materials that bind the package, stacked directly on top of the specified gasket, are such that they are not located above the holes provided for the input fork fork.