COMPRESSOR HAVING IMPROVED VALVE PLATE
A compressor valve plate assembly includes a first valve plate formed of a unitary casting that separates a compressor head and a compressor body and defines a suction chamber receiving refrigerant at a suction pressure.
This application is a continuation of U.S. patent application Ser. No. 12/244,396 filed on Oct. 2, 2008, which claims the benefit of U.S. Provisional Application No. 60/976,873, filed on Oct. 2, 2007. The entire disclosures of each of the above applications are incorporated herein by reference.
FIELDThe present disclosure relates to valve plate assemblies, and more specifically to compressor valve plate assemblies.
BACKGROUNDThe statements in this section merely provide background information related to the present disclosure and may not constitute prior art.
Compressor valve plates are typically formed from a series of stamped parts coupled to one another. The valve plates usually include first and second plates with a series of spacers providing support between adjacent surfaces of the first and second plates. The use of stamped parts limits the geometry that the first and second plates may include. This results in the spacers being formed as separate parts, creating additional cost and increased complexity in assembly.
SUMMARYA compressor valve plate assembly may include a first valve plate formed of a unitary casting that separates a compressor head and a compressor body and defines a suction chamber receiving refrigerant at a suction pressure.
The first valve plate may define a discharge passage. The first valve plate may include a central recessed portion surrounded by an outer wall integrally formed therewith and extending a height above the central recessed portion. The discharge passage may pass through the central recessed portion.
The first valve plate may include a central recessed portion defining the suction chamber and surrounded by an outer wall integrally formed therewith and extending a height above the central recessed portion. The compressor valve plate assembly may additionally include a second valve plate including an outer perimeter portion abutting the outer wall of the first valve plate.
The suction chamber may be defined between first and second valve plates. The second valve plate may include an inlet port in communication with the suction chamber. The second valve plate may include an outlet port in communication with the suction chamber. The first valve plate may include a support member integrally formed with and extending from the central recessed portion and engaged with the second valve plate.
The support member may include a rib extending therefrom. The first and second valve plates may be brazed together. The second valve plate may be formed from a stamping process. The second valve plate may include a circumferentially outer surface mechanically engaged with a circumferentially inner surface of the outer wall of the first valve plate.
The first valve plate may be made from a steel. The valve plate assembly may consist of a single cast valve plate. The single cast valve plate may be formed by a lost foam casting process. The lost foam casting process may include a mold formed from Mullite sand. The single cast valve plate may include an as-cast reed valve relief therein. The single cast valve plate may be made from a steel. The single cast valve plate may include a sand cleanout passage that facilitates removal of sand from internal passages of the single cast valve plate.
In another arrangement, a monolithic compressor valve plate that separates a compressor head and a compressor body may include a first plate region defining a suction passage, a second plate region defining a discharge passage, and an outer wall extending between the first and second plate regions and defining a suction chamber in communication with the suction passage. The first and second plate regions may be disposed on opposite sides of the valve plate.
Further areas of applicability will become apparent from the description provided herein. It should be understood that the description and specific examples are intended for purposes of illustration only and are not intended to limit the scope of the present disclosure.
The drawings described herein are for illustration purposes only and are not intended to limit the scope of the present disclosure in any way.
The following description is merely exemplary in nature and is not intended to limit the present disclosure, application, or uses. It should be understood that throughout the drawings, corresponding reference numerals indicate like or corresponding parts and features.
With reference to
First valve plate 18 may include generally planar first and second surfaces 22, 24 having a series of suction inlet passages 26, suction outlet passages 28, and bolt holes 30 passing therethrough. As seen in
Second valve plate 20 may include first and second surfaces 32, 34 having discharge passages 36 and bolt holes 38 extending therethrough and spacers 40 extending therefrom. First surface 32 may include a recessed central portion 42 having a wall 44 extending therearound. Central recessed portion 42 may generally define a suction chamber within valve plate assembly 16. The suction chamber may be in fluid communication with the inlet and outlet passages 26, 28. First valve plate 18 may be formed from a stamping process and may be made of steel. Second valve plate 20 may be formed by investment casting and may also be made from steel.
A casting mold may be made for second valve plate 20. The mold may be made for either a solid investment process or a ceramic shell process. In either form, as second valve plate 20 is a cast part, each of the features discussed above that are associated with second valve plate 20 may be integrally formed with the entire second valve plate 20. This may eliminate the need for multiple loose parts during assembly. Use of an investment casting may also provide for use of a higher carbon steel and improved heat treatment process relative to the currently used stampings.
More specifically, use of investment castings may provide a greater control of chemistry variation of parts, providing a lower cycle time for a carburizing process. Steel used in conventional stampings may be provided from commercial steel mills. The steel provided by the commercial steel mills may include a range of chemistry variation that is significantly greater than the chemistry variation of the investment casting. This increased chemistry variation may result in use of a carburizing process with increased cycle times relative to cycle times associated with cast parts to ensure adequate hardness.
With reference to
With reference to
However, rather than being brazed to one another, first and second valve plates 218, 220 may be connected through an interference fit engagement. More specifically, first valve plate 218 may have a length that is greater than the distance between opposite portions of second portion 248 of wall 244 and may be forced into engagement with second portion 248 of wall 244 of second valve plate 220. First valve plate 218 may therefore be mechanically secured to second valve plate 220. The mechanical, or interference fit, engagement between first and second valve plates 218, 220 may provide for the use of localized heat treatment options that may not be available with a brazed engagement.
More specifically, rather than using a batch or oven-type heat treatment process associated with a brazed engagement, an individual localized heat treatment process may be used. The individual heat treatment process may be a laser or induction heat treatment process and may be applied to valve plate 220 at a region around discharge passages 236.
With reference to
The use of the lost foam casting process may generally provide for easier design modifications relative to stamping or investment casting processes, since the sacrificial foam part is primarily the portion of the process that is altered for design modifications. Intricate passages, such as those found in valve plate 316, may typically provide difficulty in removal of the sand typically used in the casting process. However, valve plate 316 may be cast using Mullite sand (Al4.5Si1.5O9.5). Use of Mullite sand for the mold of valve plate 316 may generally provide for easier clean-out of valve plate 316 relative to traditional silica sands.
In order to further facilitate sand clean-out after casting of valve plate 316, several clean-out passages 312 may be cast into valve plate 316. Additionally, as a result of the use of the lost foam casting process to form valve plate 316, additional machining operations that may typically be required for stamping or investment casting processes may be eliminated. For example, reed valve relief 314 may be formed as-cast in valve plate 316.
Claims
1. A compressor valve plate assembly including a first valve plate formed of a unitary casting that separates a compressor head and a compressor body and defines a suction chamber receiving refrigerant at a suction pressure.
2. The compressor valve plate assembly of claim 1, wherein said first valve plate defines a discharge passage therethrough.
3. The compressor valve plate assembly of claim 2, wherein said first valve plate includes a central recessed portion surrounded by an outer wall integrally formed therewith and extending a height above said central recessed portion, said discharge passage passing through said central recessed portion.
4. The compressor valve plate assembly of claim 1, wherein said first valve plate includes a central recessed portion defining said suction chamber and surrounded by an outer wall integrally formed therewith and extending a height above said central recessed portion.
5. The compressor valve plate assembly of claim 4, further comprising a second valve plate including an outer perimeter portion abutting said outer wall of said first valve plate, said suction chamber being defined between said first and second valve plates and said second valve plate including an inlet port in communication with said suction chamber.
6. The compressor valve plate assembly of claim 5, wherein said second valve plate includes an outlet port in communication with said suction chamber.
7. The compressor valve plate assembly of claim 5, wherein said first valve plate includes a support member integrally formed with and extending from said central recessed portion and engaged with said second valve plate.
8. The compressor valve plate assembly of claim 7, wherein said support member includes a rib extending therefrom.
9. The compressor valve plate assembly of claim 5, wherein said first and second valve plates are brazed together.
10. The compressor valve plate assembly of claim 5, wherein said second valve plate is formed from a stamping process.
11. The compressor valve plate assembly of claim 5, wherein said second valve plate includes a circumferentially outer surface mechanically engaged with a circumferentially inner surface of said outer wall of said first valve plate.
12. The compressor valve plate assembly of claim 1, wherein said first valve plate is made from a steel.
13. The compressor valve plate assembly of claim 1, wherein said valve plate assembly consists of a single cast valve plate.
14. The compressor valve plate assembly of claim 13, wherein said single cast valve plate is formed by a lost foam casting process.
15. The compressor valve plate assembly of claim 14, wherein said lost foam casting process includes a mold formed from Mullite sand.
16. The compressor valve plate assembly of claim 13, wherein said single cast valve plate includes an as-cast reed valve relief therein.
17. The compressor valve plate assembly of claim 13, wherein said single cast valve plate is made from a steel.
18. The compressor valve plate assembly of claim 13, wherein said single cast valve plate includes a sand clean out passage that facilitates removal of sand from internal passages of said single cast valve plate.
19. A monolithic compressor valve plate that separates a compressor head and a compressor body and includes a first plate region defining a suction passage, a second plate region defining a discharge passage, and an outer wall extending between said first and second plate regions and defining a suction chamber in communication with said suction passage.
20. The compressor valve plate of claim 19, wherein said first and second plate regions are disposed on opposite sides of said valve plate.
Type: Application
Filed: Feb 28, 2011
Publication Date: Jun 23, 2011
Inventors: Richard A. Obara (Huber Heights, OH), Brad A. Schulze (Minster, OH)
Application Number: 13/036,632
International Classification: F04B 39/10 (20060101);