Disclosed is a method for producing a horseshoe, wherein the following steps are carried out: a) at least partially viewing the hoof (16) to be shod in order to determine the required measurements for producing a shoe that fits the hoof, b) processing the measurements in order to deduce a provisional shape of the horseshoe, c) recording definitive parameters of the horseshoe, and d) producing the horseshoe on the basis of the definitive parameters. Before step b), the potential existence of at least one area of inflammation and/or at least one area of reduced blood circulation of the foot of the horse, of which the hoof is to receive the shoe, is determined by an infrared detector (17), and in step b), the existence of at least one such area is taken into account in order to determine the provisional shape and/or the structure of the horseshoe.

Disclosed is a method for producing a customized horseshoe (10), the shoe being designed to fit the form of a hoof of a specific horse for which it has been produced, the shoe including a metal part (14) which is at least partially visible. At least a portion of the outer surface of the metal part is treated in order to color same, the treatment including an anodization step and a coloring step, or the application of a decorative coating.

A U-shaped shoeing for horses comprises a running surface and a hoof contact surface has reinforcing layers embedded in a plastic matrix. The reinforcing layers longitudinally extend and follow the U-shaped curvature of the shoeing. Reinforcing layers extend transversally to their longitudinal extension from the running surface towards the hoof contact surface. Reinforcing layers are arranged on the hoof contact surface side, parallel to the hoof contact surface, parallel to the hoof contact surface, or parallel to the hoof contact surface and penetrate in the matrix as far as below the hoof contact surface or form the hoof contact surface. The reinforcing layers may be in the form of textile tube structures produced from fiber strands containing a multiplicity of fibers. The invention also relates to a production method for such a shoeing.

There is provided an elastomeric sheet with a thickness of from 5 mm to 20 mm the elastomeric sheet having with a first side and a second side, where the first side has a plurality of deformable support members where the support members have a cavity with an opening towards the second side of the elastomeric sheet, and where the hardness of the sheet is from 40 Shore A to 80 Shore A.

There is provided an elastomeric sheet with a thickness of from 5 mm to 20 mm the elastomeric sheet having with a first side and a second side, where the first side has a plurality of deformable support members where the support members have a cavity with an opening towards the second side of the elastomeric sheet, and where the hardness of the sheet is from 40 Shore A to 80 Shore A.

A system for automated horseshoeing. The system is a three cell concept generally including a tool change area, a gluing area and a modification area. The system generally include a platform for a horse to stand thereon wherein all working components are contained below. The system is configured so that a horse can stand on said platform and the working components move from hoof to hoof thereby allowing the horse to remain in a neutral standing position during the entire shoeing process without having to bend its ankle. The automated horseshoeing process of the present specification is entirely monitored by a farrier.

A horseshoe nail for nailing a horseshoe to a hoof. The horseshoe nail is made from steel with a carbon weight percentage between 0.18 and 0.25. The horseshoe nail contains a shank with a tip at one end and a widened head at the other end. The head is at least hardened over a part of its length from its free end. The shank is not hardened over its entire or almost entire length from the tip.

A horseshoe nail for nailing a horseshoe to a hoof. The horseshoe nail is made from steel with a carbon weight percentage between 0.18 and 0.25. The horseshoe nail contains a shank with a tip at one end and a widened head at the other end. The head is at least hardened over a part of its length from its free end. The shank is not hardened over its entire or almost entire length from the tip.

A horseshoe for flexible and/or mouldable engagement with a hoof is provided. Also provided is a horseshoe attachment for engagement with a horseshoe. The horseshoe and the attachment will have respective bodies comprising a bridge connecting two legs. The horseshoe and the horseshoe attachment may each be of unitary construction. The horseshoe and the horseshoe attachment may each be formed of polyurethane, or a material comprising polyurethane. Methods of shoeing a hoof using the horseshoe and/or attaching the horseshoe attachment to a horseshoe are also provided.

A system for automated horseshoeing. The system is a three cell concept generally including a tool change area, a gluing area and a modification area. The system generally include a platform for a horse to stand thereon wherein all working components are contained below. The system is configured so that a horse can stand on said platform and the working components move from hoof to hoof thereby allowing the horse to remain in a neutral standing position during the entire shoeing process without having to bend it's ankle. The automated horseshoeing process of the present specification is entirely monitored by a farrier.