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.

A method of treating a hoof of an ungulate animal. The method comprises coating one or both of (i) at least a portion of a bottom surface of the hoof or (ii) at least a portion of a block surface with a curable polymer and allowing the polymer to cure for a period of time. The polymer is cured within 60 seconds or less of the coating and the cured polymer has a Shore D hardness of about 10 to about 50. The curable polymer is provided as a two component system. The first component is a reaction product of (a) comprises 4-4-diphenylmethane-diisocyanate, castor oil, isocyanatopropyltriethoxysilane, and glycidoxypropyltrimethoxysilane, and wherein (b) comprises dicyclohexylmethane-4,4-diisocyanate, polyether polyol, 4,4-diphenylmethane-diisocyanate (MDI), and triethoxy(3-isocyanatopropyle)silane. The second component comprises polyoxypropylene oxide ether polyol, diol (2000 MW), polyxoypropylene oxide ether polyol, triol (450 MW), tetrahydroxypropylethylendiamine, metaxylenediamine, and organobismuth catalyst.

A method of treating a hoof of an ungulate animal. The method comprises coating one or both of (i) at least a portion of a bottom surface of the hoof or (ii) at least a portion of a block surface with a curable polymer and allowing the polymer to cure for a period of time. The polymer is cured within 60 seconds or less of the coating and the cured polymer has a Shore D hardness of about 10 to about 50. The curable polymer is provided as a two component system. The first component is a reaction product of (a) comprises 4-4-diphenylmethane-diisocyanate, castor oil, isocyanatopropyltriethoxysilane, and glycidoxypropyltrimethoxysilane, and wherein (b) comprises dicyclohexylmethane-4,4-diisocyanate, polyether polyol, 4,4-diphenylmethane-diisocyanate (MDI), and triethoxy(3-isocyanatopropyle)silane. The second component comprises polyoxypropylene oxide ether polyol, diol (2000 MW), polyxoypropylene oxide ether polyol, triol (450 MW), tetrahydroxypropylethylendiamine, metaxylenediamine, and organobismuth catalyst.

The present invention relates to a horseshoe having a toe end, a heel end opposite the toe end, a top surface that spans between the heel end and the toe end, and a bottom surface that spans between the heel end and the toe end, wherein the top surface tapers toward the bottom surface from the heel end to the toe end.

The present invention relates to a horseshoe having a toe end, a heel end opposite the toe end, a top surface that spans between the heel end and the toe end, and a bottom surface that spans between the heel end and the toe end, wherein the top surface tapers toward the bottom surface from the heel end to the toe end.

A horseshoe for attaching a non-metallic horseshoe to a horse's hoof using an adhesive is described. In one example, the horseshoe includes a first layer composed of an elastomeric material, which forms a body of the horseshoe. The first layer may extend longitudinally from a ground-facing surface of the horseshoe to a portion of the hoof-facing surface of the horseshoe. A second layer is embedded at least partially in and on the first layer. The second layer forms at least a portion of the hoof-facing surface of the horseshoe. The second layer may include an acrylonitrile butadiene styrene (ABS) material, a polyvinyl chloride (PVC) material, and/or an aluminum powder. Also described is a method of making the elastomeric horseshoe.

A horseshoe for attaching a non-metallic horseshoe to a horse's hoof using an adhesive is described. In one example, the horseshoe includes a first layer composed of an elastomeric material, which forms a body of the horseshoe. The first layer may extend longitudinally from a ground-facing surface of the horseshoe to a portion of the hoof-facing surface of the horseshoe. A second layer is embedded at least partially in and on the first layer. The second layer forms at least a portion of the hoof-facing surface of the horseshoe. The second layer may include an acrylonitrile butadiene styrene (ABS) material, a polyvinyl chloride (PVC) material, and/or an aluminum powder. Also described is a method of making the elastomeric horseshoe.

An equine shoe including a platform and cuffs or lateral walls. The lateral wall of the platform has proximal and distal cut outs. The proximal and distal cutouts of the lateral wall allows for expansion and contraction of a horse hoof through phases a horses gait. The shoe allows for variable customization to cater to all types of horse hoof width and sizes. The lateral walls can either be a uniform material with the shoe platform or the lateral walls can be separate parts of the shoe to allow custom fixture to the horse hoof. The separate lateral walls can then be heat welded to the platform to create a uniform shoe. Alternatively a cuff can be glue to the horse hoof and be received by a corresponding shoe.

An equine shoe including a platform and cuffs or lateral walls. The lateral wall of the platform has proximal and distal cut outs. The proximal and distal cutouts of the lateral wall allows for expansion and contraction of a horse hoof through phases a horses gait. The shoe allows for variable customization to cater to all types of horse hoof width and sizes. The lateral walls can either be a uniform material with the shoe platform or the lateral walls can be separate parts of the shoe to allow custom fixture to the horse hoof. The separate lateral walls can then be heat welded to the platform to create a uniform shoe. Alternatively a cuff can be glue to the horse hoof and be received by a corresponding shoe.

Embodiments disclosed herein are directed to a method for forming an all-in-one packing, pad, and shoe substitute for a hoof having a hoof side wall and bottom wall forming an interior recess, where the method comprises adding a resin formulation to the interior recess of the hoof to form a resin plug that substantially fills an entirety of the interior recess and extends a predetermined amount beyond the bottom wall of the hoof for ground contact. The resin formulation is configured to freely flow throughout the interior recess of the hoof when added thereto and cure at a predetermined rate to form the resin plug without spillage of the resin formulation from the hoof. The formed resin plug is not attached to an external shoe. Embodiments are also directed to the all-in-one packing, pad, and shoe substitutes for a hoof formed via such method.