1. Field of the Invention
The present invention relates to the field of coupler knuckles for use in coupling railroad cars and more particularly to a coupler knuckle designed to be stronger, have improved resistance to fatigue and have improved force handling characteristics.
2. Brief Description of the Related Art
Railroad vehicles are generally connected together with couplers. Railroad couplers are typically constructed to railroad standards so that couplers used on railroad cars may be coupled together, even if produced by different manufacturers. Common knuckles are American Association of Railroads (“AAR”) Standard E and F type railroad car couplers, and, in particular, the knuckles used in these couplers.
Railcar couplers are disposed at each end of a railway car to enable joining one end of such railway car to an adjacently disposed end of another railway car. The engageable portions of each of these couplers are known in the railway art as a knuckle. For example, railway freight car coupler knuckles are disclosed in numerous U.S. patents, such as, for example, including in the following U.S. patent documents: U.S. Pat. Nos. 461,312; 533,985; 693,998; 2,689,051; 2,088,135; 4,024,958; 4,206,849; 4,605,133; 5,582,307; 8,297,455 and U.S. patent application no. 2009/0289024. In addition, lightweight railway freight car coupler knuckles are disclosed in U.S. Pat. Nos. 5,954,212 and 6,129,227.
Coupler knuckles are generally manufactured from cast steel weighing approximately 84 lbs. The cast steel used is grade E, tensile strength 120,000 psi, yield strength of 100,000 psi, elongation of 14%, reduction of area 30%. These knuckles fatigue crack over time, which eventually leads to knuckle failure.
Knuckle failure accounts for about 100,000 train separations a year, or about 275 separations per day. Most of these separations occur when the train is out of a maintenance area. In such cases, a replacement knuckle, which can weigh about 80 pounds, must be carried from the locomotive at least some of the length of the train, which may be up to 25, 50 or even 100 railroad cars in length. The repair of a failed coupler knuckle can be labor intensive, can sometimes take place in very inclement weather, can cause train delays and delays and, due to its excessive weight, subjects the carrier or carriers to potential lifting related injuries.
The front core of a knuckle is commonly referred to as the finger core. The finger core is commonly constructed to produce an internal cavity having thin ribs. These ribs made out of the standard grade E cast steel have demonstrated a weakness to the load environment with the development of fatigue and/or hot tear cracks. The fatigue cracks can grow over time and eventually lead to knuckle failure which results in separation of railcars. Separately, internal or external cracks in the knuckle are a cause for replacement of the knuckle. The rear core of a knuckle is commonly referred to as the kidney core. Knuckles can sometimes break within this portion of the knuckle and this has proven to be a very undesirable location for a failure. A failure in this region of the knuckle can lead to knuckle jamming within the coupler body and prevent a change out of a failed knuckle, thereby requiring the entire coupler assembly to be replaced, a very costly repair.
The core of the finished knuckle is generally seen as a cavity in the knuckle. However, it is the practice of a knuckle that is cast to cast the knuckle around a core. The common practice is to utilize a core within the casting, and then break the core apart when the knuckle has been cast. This practice, aside from being time consuming, generally requires precise positioning of the core, such as, in a jig, and that the core remain in position during the casting process. The present methods used for forming knuckles have drawbacks and are known to produce failures in the final product when the core is misaligned or has shifted during the forming process.
There is a need for a process for producing a knuckle that may be done with improved precision and less waste, and for a knuckle having improved capabilities for handling forces and having improved strength or fatigue life.
In addition, there is a need for a lightweight knuckle that is lower in weight than conventional knuckles and with strength or fatigue life similar to or exceeding those of heavier knuckles, where the lightweight knuckle operates to be the weak link in the coupler system and fail under high loading conditions.
An improved coupler knuckle is provided. The improved coupler knuckle is designed to facilitate handling of force loads transmitted to the coupler knuckle through components of the coupling system, the vehicle to which the coupler is associated and other coupler knuckles (e.g., of an adjacent vehicle) that are in engagement with the coupler knuckle.
The improved coupler knuckle has improved force handling properties.
It is an object of the invention to produce an improved coupler knuckle that has an interior construction to facilitate improved force handling and transmission of force loads through the knuckle, including from one end of the knuckle to the other.
It is another object of the invention to provide an improved knuckle and a process for producing an improved knuckle, where the knuckle has increased fatigue resistance and improved strength.
It is another object of the invention to produce a knuckle that has a plurality of spaced apart layers in the knuckle interior which are separated by cavities.
It is another object of the invention to produce a knuckle that has improved strength without adding to the weight of the knuckle.
It is another object of the invention to provide an improved lightweight knuckle that is suitably strong while also still allowing the knuckle to handle stress and force loads imparted thereon by the railway vehicle, its contents and adjoining vehicles or engines.
It is another object of the invention to provide an improved knuckle that is reduced in weight while having equal or, preferably greater, fatigue resistance.
These and other advantages are provided by the invention.
The patent or application file contains at least one drawing executed in color. Copies of this patent or patent application publication with color drawing(s) will be provided by the Office upon request and payment of the necessary fee.
The knuckle 110 preferably is constructed with an improved force handling construction, which preferably, includes a plurality of layers 115,116,117,118 which are separated by cavities therebetween, including the cavities 124,125,128,121,122, as may be best viewed in
Referring to
As shown in
The knuckle 110 has a pin bore 150 formed therein. As shown in
Pulling lugs 178,179 are provided on the tail section 130. According to a preferred embodiment, the upper pulling lug 178 is provided at the tail section upper portion 160 and is illustrated being transversely aligned in a pulling direction and being aligned with the first mid layer 116. The lower pulling lug 179 is provided at the tail section lower portion 161 and is illustrated being transversely aligned in a pulling direction and being aligned with the second mid layer 117. The upper lug 178 is shown connected to the upper wall 162 and the lower lug 179 is shown connected to the lower wall 163. According to the preferred embodiment illustrated, the upper lug 178 is shown spaced apart from the lower lug 179, and preferably is spaced by the channel 136.
According to a preferred construction, the transverse layers 115,116,117,118 are provided along a path parallel to the anticipated force direction that the knuckle 110 handles when a pulling force is applied to the knuckle 110. The arrangement of the interior layers 115,116,117,118 of the knuckle 110 preferably allows force loads to be handled through the knuckle in preferred directions.
Referring to
According to some preferred embodiments, knuckles according to the invention provide improved force handling. Illustrations of force handling utilizing the stress indication provided by the von-Mises stress test are represented in the illustrations depicted in
According to a preferred construction, the coupler knuckle is made from a suitably strong material. One material is steel, and preferably grade E steel. According to some preferred embodiments, the coupler knuckle is made from austempered metal, such as, for example, austempered ductile iron, austempered steel, as well as other austempered metals and austempered metal alloys. The coupler knuckle made from austempered ductile iron (ADI) may be produced using a suitable austempering process. For example, austempering of ductile iron may be accomplished by heat-treating cast ductile iron to which specific amounts of nickel, manganese, molybdenum, or copper, magnesium or combinations thereof have been added to improve hardenability.
Austempered steel and other austempered metals and austempered metal alloys, may be produced by any suitable austempering process.
According to one embodiment, the knuckle has improved fatigue-resistance and is lighter in weight than existing current knuckles. When constructing the coupler knuckle from an ADI having a specific gravity of about 0.26 lbs/in̂3, the density is less than that of grade E cast steel, 0.283 lbs/in̂3 and a weight reduction of about 8% may be achieved using the ADI to construct the knuckle 110 versus using grade E cast steel.
According to an alternate embodiment, the knuckle 110 may be constructed from austempered steel. Austempered steel is produced by a suitable austempering process. For example, austempering of steel may be accomplished by heat-treating cast steel to which specific amounts of chromium, magnesium, manganese, nickel, molybdenum, or copper, or combinations thereof, have been added to improve hardenability; the quantities of the elements needed to produce the austempered steel from the cast alloy steel are related to the knuckle configurations and, for example, may depend on the thickest cross-sectional area of the knuckle.
According to alternate embodiments, the knuckle 110 may be formed using a molding process where the molten material is added to a mold. According to one embodiment, the knuckle 110 is constructed by forming a wax casting, where the wax is coated with a suitable material that can receive the molten metal. The wax is then removed from the coating that becomes the mold, and molten material is then introduced into the coating. The material may be subject to a suitable austenitizing process to produce a knuckle made from austempered metal.
Alternatively, the knuckle 110 may be formed by an alternative process that involves constructing a mold that is the shape of the knuckle 110, where the mold is formed from a material that is designed to disintegrate when contacted with the molten material that is to form the knuckle 110. A preferred method is set forth in co-pending U.S. patent application Ser. No. 14/171,700, filed on Feb. 3, 2014, for a process for producing a coupler knuckle and improved coupler knuckle. One preferred method involves forming the mold that resembles the knuckle 110, where the mold has the same and shape and volume of the knuckle 110 to be produced. The mold may be formed using injection molding, three dimensional (3-D) printing or other suitable procedure. The mold resembling the knuckle 110 in shape and volume is then coated with a coating that covers the interior and exterior surfaces of the mold. The coating may be applied one or more times, and may be applied by brushing, spraying, immersing, or other suitable application process. The mold interior spaces that are to remain as cavities in the formed knuckle 110 preferably are filled with an inert material, such as sand. The material that is to form the knuckle 110 is then introduced into the mold to contact the disintegratable mold material forming the mold, and the molten metal occupies the space that the mold previously had. The mold coating, which is made from a material that does not melt or degrade when exposed to the molten metal, remains and contains the molten metal. According to this method, preferably, the mold that is within the coating disintegrates by decomposing to form by products, such as a gas that passes through the coating. The molten metal may be subjected to an austenitizing process. Once the molten material used to form the knuckle 110 has been allowed to cure, then the knuckle 110 may be broken away from the coating to provide a formed product.
Although preferred methods for constructing the knuckle 110 are provided, alternate methods may be used to form the knuckle 110. Methods that involve the use of cores placed in a jig, although less preferred than other methods, may be used to form the knuckle 110.
These and other advantages may be realized with the present invention. While the invention has been described with reference to specific embodiments, the description is illustrative and is not to be construed as limiting the scope of the invention. The knuckles according to the invention preferably also may be constructed to have improved surface finishes to provide higher fatigue strength. Preferred embodiments may be provided having a surface finish of 125-175 RMS. According to some preferred embodiments, the knuckles 110,110′ may be constructed having wall thicknesses preferably from between about 0.25 in. and about 1.5 in., and more preferably from between about 0.25 in to 1.25 in. In addition, according to some preferred embodiments, the coupler knuckles according to the invention may be constructed having the advantages discussed herein and meet the AAR specification, M-216. Coupler knuckles according to some embodiments may be constructed to weigh about 25 lbs. less than standard knuckles, which for example weigh 85 lbs. For example, a 60 lb. knuckle according to the invention may result in a savings of 50 lb. per car, allowing for more payload. The knuckles of the invention although constructed to be lower in weight preferably also are stronger and less resistant to fatigue. Various modifications and changes may occur to those skilled in the art without departing from the spirit and scope of the invention described herein and as defined by the appended claims.
Number | Date | Country | |
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Parent | 13842229 | Mar 2013 | US |
Child | 14171719 | US | |
Parent | 13678021 | Nov 2012 | US |
Child | 13842229 | US |