Patent Application
20110194913
Cage nut assemblies are used to hold a threaded nut in a location that may be difficult or impossible to reach. Cage nut assemblies may be used to simplify final assembly operations in various manufacturing situations.
A cage nut assembly for a drain pan is disclosed herein. The cage nut assembly includes a nut having a barrel with a barrel end and a distal end opposed to the barrel end. A flange having an outer edge is disposed at the distal end of the nut. A flange face is defined on an end of the flange, and the flange face is configured to abut an inner surface of the drain pan. A threaded bore is defined along a central axis through the barrel and the flange. At least one channel is defined in the flange face. The at least one channel is configured to allow substantially complete drainage of a fluid from a sump through a single drain aperture. The cage nut assembly further includes a cage having a plate with a central aperture defined therein configured to receive the barrel with substantial clearance to an edge of the central aperture. At least one leg extends substantially orthogonally from the plate. An attachment projection is defined on the leg(s). The attachment projection is configured for attachment of the cage nut assembly to the drain pan. The cage nut assembly is configured to accept a flange bolt removably installed through the single drain aperture. The flange bolt is configured to removably compress a seal around a periphery of the single drain aperture.
Features and advantages of embodiments of the present disclosure will become apparent by reference to the following detailed description and drawings, in which like reference numerals correspond to similar, though perhaps not identical, components. For the sake of brevity, reference numerals or features having a previously described function may or may not be described in connection with other drawings in which they appear.
The present disclosure relates generally to a cage nut assembly, and more particularly to a cage nut assembly for a drain pan.
A drain pan is used to hold a fluid and allow the fluid to be selectively drained from the drain pan though a drain port established in the drain pain. Examples of a drain pan are an oil drain pan for crankcase oil in an internal combustion engine, and a transmission fluid drain pan for a hydraulic automatic transmission of an automobile. A drain plug may be a flange bolt threaded into the drain port, thereby providing a means for selectively draining and sealing the drain port. The drain pan may be formed from sheet metal that is too thin to provide threads in sufficient number and with sufficient durability for engaging the drain plug. A nut on the inside of the drain pan may provide sufficient threaded engagement to durably retain the drain plug. However, the inside of the drain pan may not be accessible for holding the nut during installation of the drain plug. In conventional drain pans, a nut secured to the drain pan (prior to installation of the drain pan) tends to prevent the complete drainage of the drain pan because the nut forms a dam around the drain port.
Some currently used methods for securing a nut to a drain pan are welding and brazing the nut to the drain pan. Welding and brazing nuts to a drain pan have been found to have drawbacks. For example, welding and brazing operations may not have sufficient locating accuracy to install the nut over the drain port without winking. It is to be understood that “winking” refers to the partial occlusion of a hole by a threaded fastener caused by misalignment between the threaded fastener and the hole. Welded and brazed nuts also may form a small dam around the drain port (as discussed above).
Clinch nuts are also currently used with drain pans. The clinch nuts have drawbacks in that they also form a small dam around the drain port. Further, providing a drain hole adjacent to the nut, with a large diameter seal circumscribing the drain hole, has been disclosed in the art.
The current disclosure includes a nut that provides threaded engagement of a drain plug, but substantially without drawbacks heretofore found in drain pan nut assemblies. Embodiments of the cage nut assembly of the present disclosure provide a nut that tolerates misalignment in the attachment operation, allows substantially complete drainage of the fluid from the drain pan, allows relatively close placement of the drain port to a side wall, and requires only a single drain aperture through the drain pan that can be sealed using a relatively small and conventional flange bolt with a seal.
Referring now to
A flange 28 is disposed at the distal end 26 of the barrel 22. The flange 28 has an outer edge 30. A flange face 32 is defined on an end 34 of the flange 28. The flange face 32 is configured to abut an inner surface 36 of the drain pan 12. A threaded bore 38 is defined along a central axis 40 through the barrel 22 and the flange 28. At least one channel 42 is defined in the flange face 32. The channel 42 is configured to allow substantially complete drainage of a fluid (not shown) from a sump 44 through the single drain aperture 14. In the embodiments depicted in
It is to be understood that the substantial clearance between the barrel 22 and the edge 50 may range from about 0.5 mm to about 2.0 mm per side. It is believed that the substantial clearance functions to allow the nut 20 to align with the single drain aperture 14, thereby tolerating misalignment of the cage nut assembly 10 in an operation attaching the cage nut assembly 10 to the drain pan 12. Further, it is to be understood that larger or smaller amounts of clearance may be advantageous for a particular use of the cage nut assembly 10.
In an embodiment, the central aperture 48 may have a diameter ranging from about 17 mm to about 20 mm, and the barrel 22 may have an outer diameter of about 16 mm.
An attachment projection 54 may be defined on each leg 52. The attachment projection 54 is configured for attachment of the cage nut assembly 10 to the drain pan 12. It is to be understood that the attachment projection 54 may be any suitable projection, including but not limited to an attachment projection 54′, 54″, 54′″, 54″″ having a profile with the shape of a trapezoid, triangle, circular segment, or rectangle, as shown in
As shown in the embodiment depicted in
The channel 42 may be sized suitably to allow drainage of the fluid from the drain pan 12. More viscous fluids may drain more rapidly if the channel 12 is larger than it would be for less viscous fluids. Fluids likely to have contamination (e.g., particulates and sludge) may require the channel 12 to be larger to prevent clogging. In an example, the channel 12 ranges from about 1-3 mm to about 3-6 mm wide and from about 2-4 mm deep.
In an embodiment, the cage nut assembly 10 may further include one or more substantially flat edge facets 62 defined on the outer edge 30. The facets 62 are each substantially parallel to the central axis 40. In the embodiment shown in
Engagement may be with the one or more flat edge facets 62 or an other suitable structure defined or attached on the outer edge 30 that may engage the leg(s) 52. A non-limiting example of a suitable structure defined or attached on the outer edge 30 that may engage the leg(s) 52 is a prominence 63 that contacts leg(s) 52 upon suitable rotation of the nut 20. Other non-limiting examples of a suitable structure defined or attached on the outer edge 30 include hooks, pegs, roll-pins, dowels, set-screws, bumps, and/or the like, and/or combinations thereof. It is contemplated as being within the purview of the present disclosure to form the suitable structures (when included) from a single piece or multiple pieces.
It is to be understood that the cage 16 may be formed from any suitable material that is compatible with a desired attachment means and meets durability and strength requirements for a desired end use. For example, a plastic cage 16 may be used. In another embodiment, a metal cage 16 may be used. Examples of suitable metals include, but are not limited to aluminum, aluminum alloys, steel, zinc alloys, brass and cast iron. The cage 16 may be formed by any means suitable for the material of choice. For example, a plastic cage 16 may be molded, and a steel cage 16 may be formed by stamping and bending. In the embodiments depicted in
Referring now to
It is to be understood that any of the ranges provided herein include the stated range and any value or sub-range within the stated range. For example, a width range of about 1 mm to about 2 mm should be interpreted to include not only the recited width limits of about 1 mm to about 2 mm, but also to include individual widths, such as 1.2 mm, 1.3 mm, 1.4 mm, etc., and sub-ranges, such as 1.5 mm to 1.8 mm, 1.2 mm to 1.9 mm, etc.
Clause 1. A cage nut assembly for a drain pan having a single drain aperture defined therein, the cage nut assembly comprising:
a nut having a barrel with a barrel end and a distal end opposed to the barrel end;
a flange disposed at the distal end;
a flange face defined on an end of the flange, the flange face configured to abut an inner surface of the drain pan;
a threaded bore defined along a central axis through the barrel and the flange;
at least one channel defined in the flange face, the at least one channel configured to allow substantially complete drainage of a fluid from a sump through the single drain aperture;
a cage having a plate with a central aperture defined therein configured to receive the barrel with substantial clearance to an edge of the central aperture;
at least one leg extending substantially orthogonally from the plate; and
an attachment projection defined on the at least one leg, the attachment projection configured for attachment of the cage nut assembly to the drain pan;
wherein the cage nut assembly is configured to accept a flange bolt removably installed through the single drain aperture, the flange bolt configured to removably compress a seal around a periphery of the single drain aperture.
Clause 2. The cage nut assembly as defined in clause 1 wherein the flange has an outer edge, and wherein the assembly further comprises:
one or more substantially flat edge facets defined on the outer edge, the facets substantially parallel to the central axis;
the at least one leg being disposed substantially parallel to the one or more substantially flat edge facets on the outer edge; and
the at least one leg being configured to apply a reaction torque to the nut.
Clause 3. The cage nut assembly as defined in any of clauses 1 and 2 wherein the barrel is substantially a right prism having a polygon-shaped cross section and wherein the cage is configured to apply a reaction torque to the barrel at the edge of the central aperture.
Clause 4. The cage nut assembly as defined in clause 3 wherein the polygon-shaped cross section is substantially a hexagon-shaped cross section.
Clause 5. The cage nut assembly as defined in any of the preceding clauses, further comprising at least one retainer disposed on the barrel for retention of the nut in the cage.
Clause 6. The cage nut assembly as defined in any of the preceding clauses wherein the at least one channel leads from the outer edge to the threaded bore.
Clause 7. The cage nut assembly as defined in any of the preceding clauses wherein the one or more substantially flat edge facets is three substantially flat edge facets spaced at about 120 degree intervals around the central axis, and the at least one leg is three legs extending substantially orthogonally from the plate.
Clause 8. The cage nut assembly as defined in any of the preceding clauses, further comprising at least one retention stake formed on the barrel for retention of the nut in the cage.
Clause 9. The cage nut assembly as defined in any of the preceding clauses wherein the substantial clearance ranges from about 0.5 mm to about 2.0 mm per side.
Clause 10. The cage nut assembly as defined in any of the preceding clauses wherein the at least one channel leads from the outer edge to the threaded bore.
Clause 11. The cage nut assembly as defined in any of the preceding clauses wherein the at least one channel is from about 2 mm to about 4 mm wide and from about 2 mm to about 4 mm deep.
Clause 12. The cage nut assembly as defined in any of the preceding clauses wherein the cage is formed from a material having a thickness ranging from about 1.5 mm to about 2.5 mm.
Clause 13. The cage nut assembly as defined in any of the preceding clauses wherein the attachment projection is about 4 mm long, about 1.5 mm deep and about 2.5 mm thick.
Clause 14. The cage nut assembly as defined in any of the preceding clauses wherein the at least one channel comprises three channels defined radially in the flange face, and wherein the substantial clearance is substantial radial clearance.
Clause 15. The cage nut assembly as defined in any of the preceding clauses wherein the at least one retention stake formed on the barrel comprises three retention stakes swaged on the barrel.
Clause 16. The cage nut assembly as defined in any of the preceding clauses wherein the central aperture has a diameter ranging from about 17 mm to about 20 mm, the barrel has an outer diameter of about 16 mm, and the bore is threaded with M12 thread.
Clause 17. The cage nut assembly as defined in any of the preceding clauses wherein the drain pan is an oil drain pan, and wherein the fluid is oil.
Clause 18. The cage nut assembly as defined in any of the preceding clauses wherein the attachment projection is a weld projection used for projection welding.
While several embodiments have been described in detail, it will be apparent to those skilled in the art that the disclosed embodiments may be modified. Therefore, the foregoing description is to be considered exemplary rather than limiting.
