Abstract: A thermally conductive board includes a first metal layer, a second metal layer, and a thermally conductive layer. The material of the first metal layer includes copper, and the first metal layer has a first top surface and a first bottom surface opposite to the first top surface. A first metal coating layer covers the first bottom surface. The material of the second metal layer includes copper, and the second metal layer has a second top surface and a second bottom surface opposite to the second top surface. A second metal coating layer covers the second top surface and faces the first metal coating layer. The thermally conductive layer is an electrically insulator laminated between the first metal coating layer and the second metal coating layer.

Abstract: The present invention provides a surgical method of osteotomy device with an in-vitro alignment component comprises the steps of: placing a first body component and a second body component on the surface of a bone; engaging an engaging member with a connecting member; inserting at least one aiming bone pin in at least one aiming hole to confirm the cutting direction; inserting at least one fixation bone pins in a plurality of fixation holes to fix the osteotomy device with an in-vitro alignment component; cutting along a guide slot to produce an osteotomy; spreading the osteotomy; placing a bone plate to maintain the osteotomy.

Abstract: The present invention provides a surgery device for osteotomy comprises a first body component, a second body component. The first body component has a side guide edge and an upper guide edge for forming a cutting track. The second body component has a lower guide edge disposed below the upper guide edge. A guide groove is formed between the upper guide edge and the lower guide edge for guiding the saw blade to cut. The upper guide edge has a first correcting perforation. The lower guide edge has a second correcting perforation. There is a regulative angle between a first hole axis of the first correcting perforation and a second hole axis of the second correcting perforation. Compared to the prior art, the present invention can improve the efficiency and accuracy of the surgery.

Abstract: The present invention provides an osteotomy device with an extracorporeal alignment component comprising a first body component, a second body component and an extracorporeal alignment component. The first body component has an upper guide edge for forming a cutting track. The second body component has a lower guide edge disposed below the upper guide edge. A guide slot is formed between the upper guide edge and the lower guide edge for guiding the saw blade to cut. The guide slot has a connecting member for connecting the upper guide edge and the lower guide edge. The extracorporeal alignment component has an engaging member and at least one aiming hole. The engaging member is engaged with the connecting member. The aiming hole is used to confirm the direction of cutting.

Abstract: The present invention provides a universal osteotomy device comprising a first body component and a second body component. The first body component has an upper guide edge for forming a cutting track. The second body component has a lower guide edge disposed below the upper guide edge. A guide slot is formed between the upper guide edge and the lower guide edge for guiding the saw blade to cut. The guide slot has a connecting member for connecting the upper guide edge and the lower guide edge. The surface of the first body component and the surface of the second body component have an average curvature of the bone surface.

Abstract: The present invention provides a surgical method of universal osteotomy device comprises the steps of: placing a first body component and a second body component on the surface of a bone; engaging an engaging member with a connecting member; inserting at least one aiming bone pin in at least one aiming hole to confirm the cutting direction; cutting along a guide slot to produce an osteotomy; spreading said osteotomy; placing a bone plate to maintain the osteotomy; wherein the surface of the first body component and the surface of the second body component have an average curvature of bone surface or a uniform curvature.

Abstract: The present invention is a location control apparatus for bone resection, the location control apparatus includes a guiding module, located at the bottom of the location control apparatus for bone resection, a blocking plate module, formed on the rear end of the guiding module and has a protruding shape, and, a guide groove, located at the bottom of the blocking plate module to allow a osteotome or bone saw to be inserted, wherein the dimension of the inserted osteotome or bone saw could be adjusted.

Abstract: The present invention provides a universal osteotomy device comprising a first body component and a second body component. The first body component has an upper guide edge for forming a cutting track. The second body component has a lower guide edge disposed below the upper guide edge. A guide slot is formed between the upper guide edge and the lower guide edge for guiding the saw blade to cut. The guide slot has a connecting member for connecting the upper guide edge and the lower guide edge. The surface of the first body component and the surface of the second body component have an average curvature of the bone surface.

Abstract: The present invention provides a surgical method of osteotomy device with an in-vitro alignment component comprises the steps of: placing a first body component and a second body component on the surface of a bone; engaging an engaging member with a connecting member; inserting at least one aiming bone pin in at least one aiming hole to confirm the cutting direction; inserting at least one fixation bone pins in a plurality of fixation holes to fix the osteotomy device with an in-vitro alignment component; cutting along a guide slot to produce an osteotomy; spreading the osteotomy; placing a bone plate to maintain the osteotomy.

Abstract: The present invention provides a surgical method of universal osteotomy device comprises the steps of: placing a first body component and a second body component on the surface of a bone; engaging an engaging member with a connecting member; inserting at least one aiming bone pin in at least one aiming hole to confirm the cutting direction; cutting along a guide slot to produce an osteotomy; spreading said osteotomy; placing a bone plate to maintain the osteotomy; wherein the surface of the first body component and the surface of the second body component have an average curvature of bone surface or a uniform curvature.

Abstract: The present invention provides an osteotomy device with an in-vitro alignment component comprising a first body component, a second body component and an in-vitro alignment component. The first body component has an upper guide edge for forming a cutting track. The second body component has a lower guide edge disposed below the upper guide edge. A guide slot is formed between the upper guide edge and the lower guide edge for guiding the saw blade to cut. The guide slot has a connecting member for connecting the upper guide edge and the lower guide edge. The in-vitro alignment component has an engaging member and at least one aiming hole. The engaging member is engaged with the connecting member. The aiming hole is used to confirm the direction of cutting.

Abstract: The present invention provides a surgery device for osteotomy comprises a first body component, a second body component. The first body component has a side guide edge and an upper guide edge for forming a cutting track. The second body component has a lower guide edge disposed below the upper guide edge. A guide groove is formed between the upper guide edge and the lower guide edge for guiding the saw blade to cut. The upper guide edge has a first correcting perforation. The lower guide edge has a second correcting perforation. There is a regulative angle between a first hole axis of the first correcting perforation and a second hole axis of the second correcting perforation. Compared to the prior art, the present invention can improve the efficiency and accuracy of the surgery.