Handle for a hydraulically driven tool with heat transmission reducing properties

The invention claimed is: 1. A hydraulically driven tool comprising: a body formed of a heat transmissive material, the body having at least one channel through which a high temperature fluid flows, wherein heat is transmitted to the body as a result of contact with the high temperature fluid, the body defining a perimeter; a non-conductive housing having an interior surface and an exterior surface, the interior surface facing the body, the interior surface defining a cavity in which the body is seated and which extends around the perimeter of the body; and the interior surface of the non-conductive housing having a plurality of spaced apart standoffs extending therefrom, the standoffs contacting the body, such that an air gap is formed between the interior surface of the non-conductive housing and the body at locations where standoffs of the non-conductive housing are not provided; wherein the housing and body form a handle of the tool which in use is configured to have a user's hand contact a portion of the exterior surface of the housing such that the user's hand is adjacent to the body, the channel and at least a portion of the standoffs wherein the air gap provides a spacing of 0.10″ between the interior surface of the non-conductive housing, and the body. 2. The hydraulically driven tool as defined in claim 1 , wherein the interior surface of the non-conductive housing has a plurality of fastener receiving extensions extending therefrom toward the body, each fastener receiving extension having an aperture provided therethrough. 3. The hydraulically driven tool as defined in claim 2 , wherein the body includes a plurality of passageways therethrough, each passageway having a countersink provided in the body at each end thereof, wherein respective apertures and respective passageways align with each other such that the fastener receiving extensions seat within the countersinks, the fastener receiving extensions being smaller than the countersinks such that the fastener receiving extensions do not contact the body. 4. The hydraulically driven tool as defined in claim 3 , further including a plurality of fasteners, respective fasteners extending through the aligned apertures and passageways. 5. The hydraulically driven tool as defined in claim 1 , wherein the standoffs are cross-shaped. 6. The hydraulically driven tool as defined in claim 1 , wherein the interior surface of the non-conductive housing further has a plurality of spaced apart ribs extending therefrom. 7. The hydraulically driven tool as defined in claim 1 , wherein the housing is formed in two parts and is formed by injection molding. 8. The hydraulically driven tool as defined in claim 1 , further including a grip material on the housing. 9. A hydraulically driven tool comprising: a body formed of a heat transmissive material, the body having at least one channel through which a high temperature fluid flows, wherein heat is transmitted to the body as a result of contact with the high temperature fluid, the body including a plurality of passageways therethrough, each passageway having a countersink provided in the body at each end thereof; a non-conductive housing partially surrounding the body, the housing having an interior surface and an exterior surface, the interior surface facing the body; the interior surface of the non-conductive housing having a plurality of spaced apart standoffs and a plurality of ribs extending therefrom, the standoffs and the ribs contacting the body, such that an air gap is formed between the interior surface and the body at locations where standoffs and ribs are not provided; the interior surface of the non-conductive housing having a plurality of fastener receiving extensions extending therefrom toward the body, each fastener receiving extension having an aperture provided therethrough, wherein respective apertures and respective passageways align with each other such that the fastener receiving extensions seat within the countersinks, the fastener receiving extensions being smaller than the countersinks such that the fastener receiving extensions do not contact the body; a plurality of fasteners, respective fasteners extending through the aligned apertures and passageways; and a grip material on the non-conductive housing; wherein the housing and body form a handle of the tool which in use is configured to have a user's hand contact a portion of the exterior surface of the housing such that the user's hand is adjacent to the body, the channel, at least a portion of the standoffs and at least a portion of the ribs. 10. The hydraulically driven tool as defined in claim 9 , wherein the air gap provides a spacing of 0.10″ between the interior surface and the body. 11. The hydraulically driven tool as defined in claim 9 , wherein the standoffs are cross-shaped. 12. The hydraulically driven tool as defined in claim 9 , wherein the body is formed of aluminum and the non-conductive housing is formed of nylon. 13. The hydraulically driven tool as defined in claim 9 , wherein the non-conductive housing is formed in two parts and formed by injection molding. 14. The hydraulically driven tool as defined in claim 2 , wherein the body includes a plurality of passageways therethrough, each passageway having a countersink provided in the body at each end thereof, wherein respective apertures and respective passageways align with each other such that the fastener receiving extensions seat within the countersinks. 15. The hydraulically driven tool as defined in claim 14 , further including a plurality of fasteners, respective fasteners extending through the aligned apertures and passageways. 16. The hydraulically driven tool as defined in claim 2 , wherein the interior surface of the non-conductive housing further has a plurality of spaced apart ribs extending therefrom. 17. The hydraulically driven tool as defined in claim 1 , wherein the body is formed of aluminum and the non-conductive housing is formed of nylon. 18. A hydraulically driven tool comprising: a body formed of a heat transmissive material, the body comprising at least one channel through which a high temperature fluid flows, wherein heat is transmitted to the body as a result of contact with the high temperature fluid, the body further comprising a plurality of passageways therethrough, each passageway having a countersink provided in the body at each end thereof; a non-conductive housing partially surrounding the body, the housing having an interior surface and an exterior surface, the interior surface facing the body, the interior surface of the non-conductive housing comprises a plurality of fastener receiving extensions extending therefrom toward the body, each fastener receiving extension having an aperture provided therethrough; wherein respective apertures and respective passageways align with each other such that the fastener receiving extensions seat within the countersinks, the fastener receiving extensions being smaller than the countersinks such that the fastener receiving extensions do not contact the body; and the interior surface of the non-conductive housing having a plurality of spaced apart standoffs extending therefrom, the standoffs contacting the body, such that an air gap is formed between the interior surface of the non-conductive housing and the body at locations where standoffs of the non-conductive housing are not provided; wherein the housing and body form a handle of the tool which in use is configured to have a user's hand contact a portion of the exterior surface of the housing