Embodiments of the present invention generally relate to planetary gear systems using planetary bearings in power transmission mechanisms. More specifically, embodiments of the present invention relate to a planetary pin for delivering lubricating fluids to a planetary gear and a planetary pin assembly using same.
Some power transmission mechanisms, for example automotive transmissions, employ planetary gearsets requiring lubrication for reliable operation and thermal stability. In some transmissions, planet pins have fluid passages drilled through the pin body to deliver a lubrication fluid, for example oil, from a source such as an “oil dam” or a “lube catcher” to a raceway of a planetary bearing during operation. The flow of the oil requires rotation of the planetary gear carrier to generate centrifugal head to push the oil into the planet pin fluid passages.
Current planetary gear systems may include a planet pin having a lubrication port formed through the pin wall to provide a flow of oil. The lubrication port may be fed with lubricant from a passage formed at an acute angle with the longitudinal axis of the planet pin. Drilling at an angle through bearing-grade steel can be a multi-step and complicated drilling operation. Therefore a need exists for a more easily manufactured planet pin.
In other known pins, the lubrication port may be the opening of a radial passage in fluid communication with an axial passage. An oil dam or lube catcher directs an oil flow into and through the axial passage and radial passage.
Axial space is at a premium in modern automotive transmission applications. Current planet pins utilize drilled radial holes as lubrication ports to supply the oil into the planet pin, or as features used to fix the pin in the planetary carrier which can increase the overall axial length of the planet pin.
Accordingly, a need exists for an improved planet pin for use in a planetary gear system.
Embodiments of a planet pin for use in a planetary gear system and a planetary pin assembly using the planetary pin are provided. In one embodiment, the planetary pin comprises a cylindrical body having an outer surface, a first end, an inner surface defining an axial passage extending from the first end, and a wall thickness between the inner surface forming the axial passage and the outer surface. A cylindrical lateral passage is formed through the wall thickness in fluid communication with the axial passage. A slot is formed in the first end from the outer surface and intersecting with the axial passage.
In one embodiment, a planetary pin assembly comprises a planetary carrier having a body including a planetary pin receptacle formed as a blind hole and an oil feed extending radially from a center of the body to the planetary pin receptacle adjacent to a bottom of the blind hole. The assembly further comprises a planetary pin with a cylindrical body having an outer surface, a first end, an inner surface defining an axial passage extending from the first end, and a wall thickness between the inner surface forming the axial passage and the outer surface. A cylindrical lateral passage is formed through the wall thickness in fluid communication with the axial passage. A slot is formed in the first end from the outer surface and intersecting with the axial passage. The bottom of the blind hole, the first end of the planetary pin, and a portion of a wall defining the blind hole form a plenum for receiving and directing an oil flow from the center of the body to the axial passage.
Other and further embodiments of the present invention are described below.
Embodiments of the present invention, briefly summarized above and discussed in greater detail below, can be understood by reference to the illustrative embodiments of the invention depicted in the appended drawings. It is to be noted, however, that the appended drawings illustrate only typical embodiments of this invention and are therefore not to be considered limiting of its scope, for the invention may admit to other equally effective embodiments.
To facilitate understanding, identical reference numerals have been used, where possible, to designate identical elements that are common in the figures. The figures are not drawn to scale and may be simplified for clarity. It is contemplated that elements and features of one embodiment may be beneficially incorporated in other embodiments without further recitation.
While described in reference to an automotive transmission, the present invention may be modified for a variety of applications while remaining within the spirit and scope of the claimed invention, since the range of the potential applications is great, and because it is intended that the present invention be adaptable to many such variations.
A generally cylindrical lateral passage 118 is formed through the wall thickness 116 at a location offset from the first end 106 along a longitudinal axis 304 (
The axis 302 of the lateral passage 118 may extend along a radius of the planetary pin 100 and terminate in the axial passage 110 as illustrated in
A slot 120 is formed in the first end 106 of the planetary pin 100 from the outer surface 104 towards the axial passage 110 so that the slot 120 and the axial passage 110 are in fluid communication. In the embodiment illustrated in
The slot 120 may extend beyond the axial passage 110 and may, in some embodiments, be formed along a diameter through the wall thickness 116 and the axial passage 110, and at least partially through the wall thickness 116 on the opposite side of the axial passage 110. Thus, the slot 120 may be a through slot (not shown).
In one embodiment, the second end 114 of the planetary pin 100 includes a fixing slot 308 formed through the diameter of the planetary pin 100. In some embodiments, the axis 310 of the fixing slot 308 is parallel with the axis 306 of the slot 120 as illustrated in
In the embodiment illustrated in
In the planetary pin assembly illustrated in
A portion of the body 404 spaced apart from the bottom 408 includes a flange 422 including a passage 424 formed through a first portion 422a and at least partially through the second portion 422b. When installed in a preferred orientation, the fixing slot 308 at the second end 114 of the planetary pin 100 is aligned with the passage 424. A fixing pin, for example a roll pin or dowel pin, may be disposed through the portion of the passage 424 formed in flange first portion 422a and pass through the fixing slot 308 and received at least partially into the second portion 422b. At least one of the first and second portions 422a and 422b are sized to accept the fixing pin in an interference fit and the fixing slot 308 receives the fixing pin with clearance to minimize the rotation of the installed planetary pin 100 about the longitudinal axis 304.
The inventors have noted that by creating a slot 120 at the first end 106 of the planetary pin 100 to form a plenum 418 when the pin is installed in the planetary carrier 402, the length of the pin may advantageously be reduced. Typical planetary pins require a full wall around the ports used to provide lubrication to the planetary bearing. By eliminating one wall of the lubricant supply passage to the pin, the pin length is reduced by approximately one wall thickness.
A similar benefit is realized at the second end 114 of the planetary pin 100. Typical planetary pins require a full wall around the passages used to receive a fixing pin to fix the planetary pin against undesirable rotation. The inventors have noted that by providing a slot in the second end 114, the planetary pin axial length can be reduced by approximately one wall thickness.
Further benefits are realized in that each passage formed in the pin, axial passage 110, lateral passage 118, and slot 120, are formed normal to a surface of the planetary pin 100, avoiding complicated machining operations such as angled drilling through the cylindrical body 102 of the planetary pin 100.
Thus a planetary pin and a planetary pin assembly are provided herein. The inventive planetary pin and planetary pin assembly may advantageously have a reduced axial length compared to some known planetary pins and planetary pin assemblies. The inventive pin may also eliminate complicated machining operations in production of the pin, beneficially reducing manufacturing costs.
This application claims the benefit of U.S. patent application Ser. No. 61/993,027 filed on May 14, 2014, which is incorporated by reference as if fully set forth.
Number | Date | Country | |
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61993027 | May 2014 | US |