This invention relates generally to mechanical power transmission systems and, more specifically, to gearing arrangements for mechanical power transmission systems having skewed mechanical transmission shafts.
Power transmission designers tend to avoid low shaft angles if possible but sometimes are constrained to use them. Current gear configurations are not optimized for these low angles and many times they have problems efficiently transferring power. This problem drives the gear designer to use larger and heavier gears. Currently, low shaft angles usually mean the use of crossed axis helical gears. Crossed axis helical gears are configured such that the resulting contact between gears is theoretically a point. This point takes the full load of the gear and thus the gear must be much larger and heavier to handle the full load.
Therefore, there exists an unmet need for a lightweight gearing system that is capable to handle forces between shafts that are aligned at a low angle.
The present invention relates to mechanical power transmission systems and, more specifically, to gearing arrangements for misaligned mechanical power transmission systems. Apparatus and methods in accordance with the present invention may provide power transmission across misaligned gear joints with significant improvement in performance and reduction in weight, in comparison with comparable prior art devices.
In one embodiment, the present invention provides an adapter gear for allowing rotating shafts having a low angular difference to interact. The adapter gear may be used when new components are inserted into old systems, shaft alignment cannot be achieved, and the alignment is less than 30°. Various gears may be used, however the adapter gear of the present invention provides a strong lightweight solution that is important for many systems.
The adapter gear is a low angle face gear that includes a drum having an inner cylindrical wall adapted to be mounted on a shaft, and a drum face connected to the inner cylindrical wall. A gear ring is mounted on and fixed to the drum face and gear teeth are formed on an outer circumference of the gear ring. A vector normal to the gear teeth at a radial and a vector perpendicular to the inner cylindrical wall at the radial have an angular difference that is less than 30°.
The preferred and alternative embodiments of the present invention are described in detail below with reference to the following drawings.
The present invention relates to gears and gearing systems. Many specific details of certain embodiments of the invention are set forth in the following description and in
The low angle face gear 20 includes a cavity 22 that receives a shaft of a motor, transmission, or other type of mechanism. A face or drum 24 of the gear 20 surrounds the shaft cavity 22. The drum 24 preferably includes numerous circular cavities 26 for decreasing the overall weight of the gear 20 without sacrificing the structural support that the drum 24 provides. The gear 20 also includes a gear flange 30 that surrounds the drum 24. Located on an outside surface of the gear flange 30 are gears 32. The gear flange 30 is angled out of the plane of the gear 20. In other words, the normal to the surface of the drum 24 is different from the normal of the side surface of the gear flange 30. The angular distance between the two normals varies by a pre-defined amount depending upon the desired angular relationship that one wishes for the gear flange 30.
The low angle face gear 20 may be used anywhere where adapting between shafts having low angled differentials is needed. Also, one can design engine and transmission systems that are not limited to high angled differences between shafts or strictly parallel shafts.
In one embodiment, the gears 32 of the low angle face gear 20 are created by a precision grinding method, such as that shown in U.S. Pat. No. 5,823,857 to Tan, which is hereby incorporated by reference. When the gears 32 are produced in this manner, higher specific load capabilities are possible, because line contact occurs versus point contact.
While the preferred embodiment of the invention has been illustrated and described, as noted above, many changes can be made without departing from the spirit and scope of the invention. Accordingly, the scope of the invention is not limited by the disclosure of the preferred embodiment. Instead, the invention should be determined entirely by reference to the claims that follow.
This invention was made with Government support under U.S. Government contract number DAAH10-01-2-0005. The Government has certain rights in this invention.