Abstract: The invention relates to a system and a method for mounting at least one solar panel on a substantially flat mounting surface. The system comprises thereto a base element, a support structure configured for supporting at least part of at least one solar panel, which is connected to the base element and wherein the support structure comprises a retaining element for retaining at least part of an upper edge of the solar panel and a clamping element configured for clampingly engaging at least part of a lower edge the solar panel.

Abstract: The invention relates to a system and a method for mounting at least one solar panel on a substantially flat mounting surface. The system comprises thereto a base element, a support structure configured for supporting at least part of at least one solar panel, which is connected to the base element and wherein the support structure comprises a retaining element for retaining at least part of an upper edge of the solar panel and a clamping element configured for clampingly engaging at least part of a lower edge the solar panel.

Abstract: A woodworking circle-drawing tool is an apparatus that enables the user to draw precise circles for an axe throwing target. The apparatus includes a support bar, a releasable anchor, a marker holder, a holder clamp, and a small-target stencil. The support bar serves to support the operation of the releasable anchor, the marker holder, and the small-target stencil. The support bar also serves to keep the marker holder at different distances from the releasable anchor to draw the different sized circles. The releasable anchor serves to secure the apparatus to the target board using an appropriate fastener. The holder clamp enables the secure attachment of the marker holder to the support bar. The marker holder enables the attachment of a marker that can be used to draw the target circles using the apparatus. The small-target stencil enables the drawing of smaller circles often found in axe throwing targets.

Abstract: The invention relates to a system and a method for mounting at least one solar panel on a substantially flat mounting surface. The system comprises thereto a base element, a support structure configured for supporting at least part of at least one solar panel, which is connected to the base element and wherein the support structure comprises a retaining element for retaining at least part of an upper edge of the solar panel and a clamping element configured for clampingly engaging at least part of a lower edge the solar panel.

Abstract: Proposed is a cable anchor for mounting a cable to a sheet. The cable anchor includes a first clamp portion to be mounted on a first side of the sheet and a second clamp portion to be mounted on the second side of the sheet, opposite to the first side. The first clamp portion and second clamp portion co-operate to retain a cable.

Abstract: Proposed is a cable anchor for mounting a cable to a sheet. The cable anchor includes a first clamp portion to be mounted on a first side of the sheet and a second clamp portion to be mounted on the second side of the sheet, opposite to the first side. The first clamp portion and second clamp portion co-operate to retain a cable.

Abstract: Proposed is a cable anchor for mounting a cable to a sheet. The cable anchor includes a first clamp portion to be mounted on a first side of the sheet and a second clamp portion to be mounted on the second side of the sheet, opposite to the first side. The first clamp portion and second clamp portion co-operate to retain a cable.

Abstract: Proposed is a cable anchor for mounting a cable to a sheet. The cable anchor includes a first clamp portion to be mounted on a first side of the sheet and a second clamp portion to be mounted on the second side of the sheet, opposite to the first side. The first clamp portion and second clamp portion co-operate to retain a cable.

Abstract: A system and method of altering damaged mammalian skin using a multiphoton processes is disclosed. A femtosecond laser initiates a multiphoton event using pulse energies of 2-5 mJ thereby causing multiphoton ablation without damaging surrounding tissue. The laser is focused to the vicinity of a target organelle that occurs naturally within the damaged skin, and is related to the dermatological condition being addressed. The type of organelle depends on the condition being addressed, and may be targeted by the depth beneath the surface of the skin at which it is located. The femtosecond laser beam is focused to an intensity of least 1012 W/cm2 to initiate the multiphoton event transforms the targeted organelle to mitigate the damage to the skin.

Abstract: A system and method of replacing a lens to treat a cataract is disclosed. Cataractous tissue is ablated via a multi-photon process using focused, ultra-short laser pulses. Multi-photon ablation requires an energy intensity between 1013 to 1015 W/cm2. Using lasers having femto-second duration pulses, this intensity is achieved with 50 micro-Joules of energy, allowing material disruption with very little heating or shock. The multi-photon ablated material is removed through a micro-channel that leads from the multi-photon ablated region to at least the surface of the eye. Once the material is removed a pre-polymer fluid is injected in to fill the void. This polymerizes into a gel once inside the lens. The polymerized, transformed material matches both the transparency to visible light and the Young's modulus of healthy lens.

Abstract: In a broad aspect of the invention there are provided liquid infused surfaces that feature drag reducing characteristics. In a further broad aspect, the present invention provides methods for designing and fabricating liquid infused surfaces that feature drag reducing characteristics. In a yet further broad aspect the present invention provides methods for increasing the operating efficiency of systems in which a flowing bulk fluid is in contact with a patterned surface, the increased operating efficiency specifically being realized from a reduction of the drag forces due to the bulk fluid flowing over the patterned surface.

Abstract: A system and method of replacing a lens to treat a cataract is disclosed. Cataractous tissue is ablated via a multi-photon process using focused, ultra-short laser pulses. Multi-photon ablation requires an energy intensity between 1013 to 1015 W/cm2. Using lasers having femto-second duration pulses, this intensity is achieved with 50 micro-Joules of energy, allowing material disruption with very little heating or shock. The multi-photon ablated material is removed through a micro-channel that leads from the multi-photon ablated region to at least the surface of the eye. Once the material is removed a pre-polymer fluid is injected in to fill the void. This polymerizes into a gel once inside the lens. The polymerized, transformed material matches both the transparency to visible light and the Young's modulus of healthy lens.

Abstract: A system and method of altering damaged mammalian skin using a multiphoton processes is disclosed. A femtosecond laser initiates a multiphoton event using pulse energies of 2-5 mJ thereby causing multiphoton ablation without damaging surrounding tissue. The laser is focused to the vicinity of a target organelle that occurs naturally within the damaged skin, and is related to the dermatological condition being addressed. The type of organelle depends on the condition being addressed, and may be targeted by the depth beneath the surface of the skin at which it is located. The femtosecond laser beam is focused to an intensity of least 1012 W/cm2 to initiate the multiphoton event transforms the targeted organelle to mitigate the damage to the skin.

Abstract: The invention relates to devices, compositions and methods used to improve vision and/or to treat an eye lens disease or condition. In some embodiments, the invention relates to altering or removing eye lens material for the treatment of presbyopia. In additional embodiments, the invention relates to placing compositions in a lens of an eye to improve elasticity of the lens both therapeutically by improving elasticity and/or improving refractive properties and/or prophylactically by preventing renewed stiffening and/or renewed deterioration of the lens refractive properties. In further embodiments, the invention relates to devices and methods of obtaining and analyzing data for use in altering the lens to optimize its elasticity and/or refractive properties.

Abstract: A method and device for flapless, intrastromal keratomileusis for the correction of myopia, hyperopia and astigmatism, i.e., for vision correction by corneal reshaping without creating a flap. Ultra-short laser pulses are used to create a temporary micro-channel extending to an end point located within the cornea. A second series of ultra-short laser pulses are then delivered to photo-ablate material in the vicinity of the micro-channel end-point. The photo-ablated material may exit through the micro-channel used to deliver the laser pulses, or via a separate micro-channel. With the micro-channel oriented substantially normal to the optical axis of the cornea, and by continuing to supply the ultra-short laser pulses in the appropriate number while moving the point of ablation along the micro-channel, the photo-ablation of the intrastromal tissue may continue in a controlled fashion and the cornea reshaped in a predetermined manner without creating a flap.

Abstract: The invention provides a heavy duty rim assembly (10) for use with a moulded or cast non-inflatable tyre, a wheel (100) including such a rim assembly and tyre (102), a mould (200) for such a tyre, and a method of manufacturing such a wheel. The rim assembly includes a nave (12) for mounting on a vehicle axle, a hollow barrel (14) around the nave, and a plurality of key members (16) around the barrel. The key members, in use, provide for effective bonding and keying of the rim assembly with the non-inflatable tyre. The key members define a belt (46) around the barrel, the belt being at least substantially concentric with and spaced apart from the barrel. The key members define holes (36) therethrough for tyre material to extend through in a completed wheel.

Abstract: The invention relates to devices, compositions and methods used to improve vision and/or to treat an eye lens disease or condition. In some embodiments, the invention relates to altering or removing eye lens material for the treatment of presbyopia. In additional embodiments, the invention relates to placing compositions in a lens of an eye to improve elasticity of the lens both therapeutically by improving elasticity and/or improving refractive properties and/or prophylactically by preventing renewed stiffening and/or renewed deterioration of the lens refractive properties. In further embodiments, the invention relates to devices and methods of obtaining and analyzing data for use in altering the lens to optimize its elasticity and/or refractive properties.

Abstract: A system and method for providing multi-photon processing treatment to a patient. A localized, multi-photon processing event is initiated within a vicinity of an unwanted pigment in order to remove the pigment. The multi-photon processing event requires a relatively low energy, but very intense, pulse of light. The low amount of energy per pulse allows ablation of the material to be highly localized, with negligible thermal damage to surrounding material. The multi-photon event may be initiated by focusing a suitable electromagnetic pulse, such as a 2 mJ laser pulse having a 100 to 300 femtoseconds pulse duration, into a focal volume small enough that the intensity exceeds 1011 Watts/cm2. A suitably configured Ti:Sapphire solid state laser may provide such pulses at 1-10 kHz. By repeating the multi-photon processing event along the location of a tattoo, the tattoo may be removed with no damage to the surrounding tissue.

Abstract: A method and device for flapless, intrastromal keratomileusis for the correction of myopia, hyperopia and astigmatism, i.e., for vision correction by corneal reshaping without creating a flap. Ultra-short laser pulses are used to create a temporary micro-channel extending to an end point located within the cornea. A second series of ultra-short laser pulses are then delivered to photo-ablate material in the vicinity of the micro-channel end-point. The photo-ablated material may exit through the micro-channel used to deliver the laser pulses, or via a separate micro-channel. With the micro-channel oriented substantially normal to the optical axis of the cornea, and by continuing to supply the ultra-short laser pulses in the appropriate number while moving the point of ablation along the micro-channel, the photo-ablation of the intrastromal tissue may continue in a controlled fashion and the cornea reshaped in a predetermined manner without creating a flap.