Nailable steel floor channel with anti-skid surface
First Claim
1. In a nailable steel floor construction including support means supporting a plurality of elongated substantially identical floor planking members, the planking members comprising,a structural channel member roll formed from flat steel stock of substantially uniform thickness, the channel member having a central web defining a substantially flat load bearing surface and first and second downwardly depending flange members formed one on each side of the central web and each terminating at its lower edge in an inwardly turned ledge,the first flange having a longitudinally extending outwardly concave corrugation formed thereon and the second flange having an outwardly convex corrugation which is substantially complementary to the concave corrugation on the first flange,spacing means formed on at least one of the flanges at spaced intervals therealong for engaging the flange on an adjacent planking member in the floor construction to provide a nailing groove therebetween when the planking members are assembled into a floor,an elongated substantially U-shaped reinforcing channel rigidly welded to the central web between the flanges and extending substantially the full length of the structural channel, the reinforcing channel having a base web disposed in a plane substantially parallel to the plane of the ledges on the first and second flanges and spaced slightly therefrom in the direction of said central web and upwardly extending legs formed one on each side edge of the base web and terminating in parallel spaced edges, the free edges being rigidly welded to the central web one on each side of the longitudinal center line thereof, anda plurality of anti-skid projections of generally cylindrical configuration integrally formed on and projecting outwardly from the load bearing surface of the central web, the anti-skid projections being die pressed from the material of the flat steel stock located in substantially parallel rows extending longitudinally of the structural channel, the anti-skid projections each having a top surface extending generally parallel to and spaced from the load bearing surface of the central web and side edges extending substantially perpendicular to the load support surface of the central web, said top surface and said side edges intersecting at an angle to provide an abrupt, relatively sharp top peripheral edge on the anti-skid projections.
0 Assignments
0 Petitions
Accused Products
Abstract
A steel floor construction for freight hauling vehicles includes a plurality of elongated floor planking members arranged in side-by-side relation to provide a load bearing floor with a nailing groove between adjacent planking members. Each plank includes a downwardly open channel member having a relatively wide central web supported along its edges by integrally formed downwardly extending flanges, with the web being reinforced along its length by an upwardly directed generally U-shaped member welded to its bottom surface and having a pattern of anti-skid projections die-formed on and project upwardly from its top surface. The channels are progressively roll formed from a continuous length of strip steel by passing the strip through a series of forming roll pairs. A pair of die rolls are employed between two adjacent sets of forming rolls, with the die rolls being driven together and cooperating to form the anti-skid projections by a cold forming process after the sheet has been partially formed into this channel shape by passing through a plurality of the sets of forming rolls. The U-shaped reinforcing member is welded to the strip after the anti-skid projections are formed.
22 Citations
4 Claims
-
1. In a nailable steel floor construction including support means supporting a plurality of elongated substantially identical floor planking members, the planking members comprising,
a structural channel member roll formed from flat steel stock of substantially uniform thickness, the channel member having a central web defining a substantially flat load bearing surface and first and second downwardly depending flange members formed one on each side of the central web and each terminating at its lower edge in an inwardly turned ledge, the first flange having a longitudinally extending outwardly concave corrugation formed thereon and the second flange having an outwardly convex corrugation which is substantially complementary to the concave corrugation on the first flange, spacing means formed on at least one of the flanges at spaced intervals therealong for engaging the flange on an adjacent planking member in the floor construction to provide a nailing groove therebetween when the planking members are assembled into a floor, an elongated substantially U-shaped reinforcing channel rigidly welded to the central web between the flanges and extending substantially the full length of the structural channel, the reinforcing channel having a base web disposed in a plane substantially parallel to the plane of the ledges on the first and second flanges and spaced slightly therefrom in the direction of said central web and upwardly extending legs formed one on each side edge of the base web and terminating in parallel spaced edges, the free edges being rigidly welded to the central web one on each side of the longitudinal center line thereof, and a plurality of anti-skid projections of generally cylindrical configuration integrally formed on and projecting outwardly from the load bearing surface of the central web, the anti-skid projections being die pressed from the material of the flat steel stock located in substantially parallel rows extending longitudinally of the structural channel, the anti-skid projections each having a top surface extending generally parallel to and spaced from the load bearing surface of the central web and side edges extending substantially perpendicular to the load support surface of the central web, said top surface and said side edges intersecting at an angle to provide an abrupt, relatively sharp top peripheral edge on the anti-skid projections.
Specification