TH7295B - Reduction gear - Google Patents

Abstract

The invention is intended to provide a smaller, lower cost reduction gear with a smooth structure. It is easy enough and makes it possible to obtain a reliable effect in limiting the rotation difference, ie when the chamber and the partition turn around their own axis. The torque is forwarded to the groove of the assembly. Each rotating assembly is passed via a rolling piece and; a pair of rotating assemblies then rotates along with the chamber. When a rotating difference occurs between the aforementioned pair of spinning assemblies. ; The resulting rolling piece In the guide of the aforementioned partition, it will roll along the groove of the aforementioned pair of rotating assemblies. In order to move back and forth within the range of the aforementioned channels at this time when the force which causes the difference Of the upward rotation between the above pairs of rotating assemblies is performed from the side of the assembly Only spins one of the aforementioned pair of rotating assemblies Due to the rolling parts which travel to the side Followed when the difference in rotation occurs, it acts in the movement of the groove which will arrive. The leading side when the difference in rotation occurs in the direction of their own movement. Resulting reaction force Up this time, it becomes a resistance to limit the difference in the spinning cycle that takes place. Come between a pair of rotating assemblies mentioned above, hence This invention is able to produce results in Reliable limiting of torque-sensitive variations Without the need for additional special mechanisms To obtain results in limiting the difference of the rotation

Claims (1)

1. The reduction gear is characterized by its structure consisting of A pair of rotating assemblies that are positioned in such a way that they face each other in the direction of Co-axial Room for loading the aforementioned rotating assemblies. A number of rolling parts that are positioned between the faces of each other, the axial direction of the aforementioned pair of rotating assemblies, and the barricade that serves to hold the aforementioned part. In position between the assembled pieces Spin the two above The aforementioned barriers are equipped with a number of guides with longitudinal axes aligned in the radial direction of the aforementioned rotating assembly in such a way that the guide channels. It passes through the thickness of the aforementioned partition in the axial direction of the rotating assembly. To block the aforementioned rolling parts in such a way that they allow them to roll freely. The aforementioned rotating assembly is provided with a groove on its surface. Assembled that face each other in an axial direction. In which the grooves are continuous in the Of the perimeter and will coordinate with the rolling parts mentioned above And the aforementioned groove will be Designed in such a way that ; When a difference in rotation occurs between two spinning assemblies The foregoing The aforementioned rolling part moves back and forth along the path of the aforementioned guide. 2. The reduction gear corresponding to claim 1 is characterized by its structure which The aforementioned chamber spaces, or at the very least, the space where the aforementioned rolling parts roll inside is filled with a viscous fluid. 3. The reducer corresponding to claim 2 is unique. Due to the structure which At least one of the aforementioned grooves or guides will be provided. Prepared with a margin to allow the aforementioned viscous fluid to flow backwards 4. The reduction gear corresponding to claim 1 is characterized by its structure which The aforementioned grooves of the aforementioned rotating assemblies contain: The leading area where one is made Duty of moving the aforementioned rolling part from one side of the aforementioned slit to the other. One of the aforementioned opening and a second leading area, which serves to move the rolling piece at From the other side of the aforementioned channel to the opposite side. Which are contiguous in such a way that they alternate in directions according to the perimeter And for a rotating assembly piece at one of A pair of assemblies rotates around the first area mentioned above, being formed longer compared to the second leading region mentioned. While for another rotating assembly Guiding area The second, as mentioned above, will be given a longer form. Compared with the preceding area one of the above 5. The reduction gear corresponding to claim 4 is characterized by its structure which The contact angle between the aforementioned groove and the aforementioned rolling part in the radial direction of the part The aforementioned spin assembly will be defined in such a way that Even when the distance between each rotating assembly and each rolling piece changes. The size of the reaction force at the groove The aforementioned, obtained from the aforementioned rolling parts, will always remain constant. 6. The reducer corresponding to claim 4 is characterized by its structure which The contact angle between the aforementioned groove and the aforementioned rolling part in the axial direction of the part. The aforementioned glyphs will be defined in such a way that Even when the distance between the axes Of each rotating assembly, with each rolling piece changing The magnitude of the reaction force at the said groove It has been obtained from the aforementioned rolling parts, and it remains constant. 7. The reducer corresponding to claim 1 is characterized by its structure, which The aforementioned grooves of the aforementioned rotating assemblies contain: The leading area where one is made Duty of moving the aforementioned rolling part from one side of the aforementioned slit to the other. One of the above mentioned fields The second leading area, which serves to move the said rolling parts. Came from the other side of the aforementioned channel to one opposite side and the third guiding area, which serves to maintain the aforementioned rolling part inside. Range as obtained Predefined fields of the aforementioned fields They are continuous in an alternating direction along the perimeter and are designed in such a way that the degree of contact with the aforementioned rolling parts within The aforementioned first leading area and within the aforementioned second leading area will always remain the same, while providing the aforementioned third leading area within the range of the aforementioned second leading zone. The first one is for the rotating assembly of one of the aforementioned pair of rotating assemblies and provides that the aforementioned third leading area is within the range of the aforementioned second leading area. For another swivel assembly of the aforementioned pair of swivel assemblies, 8. The reducer corresponding to claim 1 is characterized by its structure which The aforementioned grooves of the aforementioned rotating assemblies contain: The leading area where one is made Duty of moving the aforementioned rolling part from one side of the aforementioned slit to the other. One of the above mentioned fields And the second area, which serves to move the said rolling parts Came from the aforementioned side of the aforementioned channel to opposite sides, which are contiguous, alternating in the periphery direction. By the number of leading regions, or The second leading area of the rotating assembly, one of the aforementioned pair of rotating assemblies, differs. Goes from the number of leading regions, one leading area, second leading area of another rotating assembly. 9. The reducer corresponding to claim 8 is characterized by its structure which The total number of the first leading area or the second leading area of the rotating assembly. One of the above pairs of rotating assemblies with the number of leading regions, one or the leading area. The second of the other rotating assemblies is equal to the total number of rolling parts as mentioned. 1 0. The reduction gear corresponding to claim 9 is characterized by its structure. It consists of a minimum of three spindle assemblies, and at least two partitions provided between the two rotating assemblies. Adjacent area, each piece 1 1. The reduction gear is characterized by its structure consisting of A pair of rotating assemblies that are positioned in such a way that they face each other in an axial direction. Co-axially Room for loading the aforementioned rotating assemblies. A number of rolling parts that are aligned between the surfaces facing each other in the radial direction of the aforementioned pair of rotating assemblies and multiple partitions. The part which serves to block one of the above rolling parts. To be positioned on one rotating assembly and on another At the same time in such a way that it can roll freely at the same time The aforementioned chamber surfaces are provided with a number of guide grooves, each with a longitudinal axis parallel to the axial direction of the aforementioned rotating assembly, and a guide groove. The foregoing will harmonize with the aforementioned rolling parts in such a way that it allows them to roll independently. The aforementioned rotating assembly is provided with a groove on its surface. The assembly faces the surface around the holes in the room mentioned above. In which the furrows are continuous in one direction Along the contour of the perimeter and will coordinate with the above rolling parts and the aforementioned grooves will Are designed in such a way that When the difference in rotation occurs between the rotating assembly Two pieces of the foregoing The aforementioned part and the aforementioned rolling part will go back and forth. Along the aforementioned guiding holes that have been prepared in the surface around the holes of the aforementioned rooms.