Refrigeration – With means preventing or handling atmospheric condensate... – Means utilizing heat developed by refrigeration producer
Reexamination Certificate
2001-05-30
2003-06-10
Tanner, Harry B. (Department: 3744)
Refrigeration
With means preventing or handling atmospheric condensate...
Means utilizing heat developed by refrigeration producer
C062S156000, C062S196100
Reexamination Certificate
active
06574978
ABSTRACT:
RELATED APPLICATIONS (INCORPORATED HEREIN BY REFERENCE)
U.S. provisional application 60/214,560
U.S. provisional application 60/214,562
FIELD OF THE INVENTION
This invention is directed to heating/defrost cycles of a very low temperature refrigeration system, and more particularly, to an improved heating cycle incorporating a defrost supply loop and a defrost return bypass loop for optimizing the heating/defrost cycle, for preventing overload (excessive pressure) of its refrigeration process and thereby allowing the defrost cycle to operate continuously, for shorter recovery period between heating/defrost and cooling operating modes, for controlled flow where the rate of the temperature change during cool down or warm up is controlled in an open loop fashion.
BACKGROUND OF THE INVENTION
Refrigeration systems have been in existence since the early 1900s, when reliable sealed refrigeration systems were developed. Since that time, improvements in refrigeration technology have proven their utility in both residential and industrial settings. In particular, low-temperature refrigeration systems currently provide essential industrial functions in biomedical applications, cryoelectronics, coating operations, and semiconductor manufacturing applications. In many of these applications, it is necessary that refrigeration systems not only need to provide low temperatures but also undergo a defrost cycle in which the system is brought to a temperature well above 0° C. The company that develops the refrigeration systems that can perform across this range of temperatures and own the related intellectual property stands to reap substantial gains.
Providing refrigeration at temperatures below −50 C has many important applications, especially in industrial manufacturing and test applications. This invention relates to refrigeration systems which provide refrigeration at temperatures between −50 C and −250 C. The temperatures encompassed in this range are variously referred to as low, ultra low and cryogenic. For purposes of this Patent the term “very low” or very low temperature will be used to mean the temperature range of −50 C to −250 C.
In many manufacturing processes conducted under vacuum conditions, and for a variety of reasons, the heating of a system element is required. This heating process is known as a defrost cycle. The heating elevates the temperature of the manufacturing system, enabling parts of the system to be accessed and vented to atmosphere without causing condensation of moisture in the air. The longer the overall defrost cycle and subsequent resumption of producing very low temperatures, the lower the throughput of the manufacturing system. Enabling a quick defrost and a quick resumption of the cooling of the cryosurface in the vacuum chamber is beneficial. What is needed is a way to increase the throughput of a vacuum process.
There are many vaccuum processes which have the need for such very low temperature cooling. The chief use is to provide water vapor cryopumping for vacuum systems. The very low temperature surface captures and holds water vapor molecules at a much higher rate than they are released. The net effect is to quickly and significantly lower the chamber's water vapor partial pressure. Another application involves thermal radiation shielding. In this application large panels are cooled to very low temperatures. These cooled panels intercept radiant heat from vacuum chamber surfaces and heaters. This can reduce the heat load on surfaces being cooled to lower temperatures than the panels. Yet another application is the removal of heat from objects being manufactured. In some cases the object is an aluminum disc for a computer hard drive, a silicon wafer for an integrated circuit, or the material for a flat panel display. In these cases the very low temperature provides a means for removing heat from these objects more rapidly than other means, even though the object's final temperature at the end of the process step may be higher than room temperature. Further, some applications involving, hard disc drive media, silicon wafers, or flat panel display material involve the deposition of material onto these objects. In such cases heat is released from the object as a result of the deposition and this heat must be removed while maintaining the object within prescribed temperatures. Cooling a surface like a platen is the typical means of removing heat from such objects. In all these cases it is to be understood that the evaporator surface is where the refrigerant is removing heat from these customer applications when providing cooling at very low temperatures.
In many refrigeration applications, a high temperature for a longer period is needed to allow for a slow response time of the item being heated. With extended defrost times, conventional systems get overloaded and shut down due to high discharge pressures ranging from 300 to 500 psi. The system's compressor's discharge pressure needs to be limited to protectagainst excessive discharge pressures; otherwise, downstream components are over-pressurized. Typically, a safety switch or pressure relief valve is in place to prevent excessive discharge pressure; however, this inhibits the defrost cycle. What is needed is a way to increase the defrost time of a refrigeration system without exceeding its operating limits.
In many applications, gradual heating or cooling may be required. For example, rapid temperature changes in a ceramic chuck of a semiconductor wafer manufacturing process cannot exceed certain limits that vary based on the specific material properties of the chuck. If this rate is exceeded, the chuck will crack. What is needed is a way to provide a variable heating and cooling system.
Conventional very low temperature refrigeration systems have a normal defrost time ranging typically from 2 to 4 minutes, and as much as 7 minutes for a large coil. With these defrost times, the refrigeration system is strained due to the high discharge pressures, therefore requiring a 5-minute recovery period before cooling can be resumed, and extending the overall defrost cycle. What is needed is a way to shorten the overall defrost cycle of a refrigeration system.
A bakeout process is the heating of all surfaces in a vacuum chamber to remove water vapor in the chamber after it has been exposed to the atmosphere (such as when the chamber is opened for maintenance). Conventional techniques of performing a bakeout process involve heating the surfaces with a heater that exposes the vacuum chamber components to above 200° C. for a prolonged period of time to expedite outgassing of water vapor from the chamber surfaces. If a cooling surface is in a chamber being heated with this method the remaining refrigerants and oils consequently break down, thus decreasing the reliability of the refrigeration process. What is needed is a way to maintain the chemical stability of the process fluids during a bakeout process.
Background Patents
U.S. Pat. No. 6,112,534, “Refrigeration and heating cycle system and method,” assigned to Carrier Corporation (Syracuse, N.Y.), describes an Improved Refrigeration System and Heating/Defrost Cycle. The system, for heating circulating air and defrosting an enclosed area, includes a refrigerant, an evaporator using said refrigerant for heating the circulating air; and a compressor for receiving the refrigerant from the evaporator and compressing the refrigerant to a higher temperature and pressure. The system further includes the combination of an expansion valve positioned between the compressor and the evaporator for forming a partially expanded refrigerant, a controller for sensing system parameters, and a mechanism responsive to said controller, based on the sensed parameters, for increasing temperature differential between the refrigerant and the circulating air, for improving system efficiency and for optimizing system capacity during heating and defrost cycles.
U.S. Pat. No. 6,089,033, “High-speed evaporator defrost system,” assigned to Dube,
Flynn Kevin
Hall Paul H.
Katten Muchin Zavis & Rosenman
Tanner Harry B.
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