Fluid handling – Systems – With pump
Reexamination Certificate
2002-05-09
2002-12-31
Lee, Kevin (Department: 3753)
Fluid handling
Systems
With pump
C137S565330, C417S053000, C417S286000
Reexamination Certificate
active
06499504
ABSTRACT:
TECHNICAL FIELD
This invention relates to a compressor system and more particularly, to a compressor control system and method of operating a compressor system comprising multiple compressors.
BACKGROUND
Compressed fluids, such as air, are commonly used in an industrial environment and serve as a power source for various machines and tools. The actual demand for such compressed fluids typically fluctuates throughout the course of a standard work day due to the varying load requirements of each machine and tool. In order to fulfill the demand for a wide variation in load level, the system for supplying the compressed fluid typically includes a plurality of various sized compressors. The compressors are usually connected in parallel and/or series in order to produce a total capacity that can adequately satisfy the anticipated demand.
The compressors are typically started in sequence beginning with the smallest sized compressor and ending with the largest sized compressor. Thereafter, the compressors are cycled “on” or “off” (i.e., loaded or unloaded) in response to the pressure demands required by the load(s) within the system. For example, in an industrial environment, the activation of one or more pneumatically powered tools that is connected to a compressed air system results in an outflow of compressed air, thereby reducing the overall system pressure. In order to maintain the desired system pressure, it may be necessary to load another compressor onto the system. Similarly, if a machine requiring compressed air is turned “off”, the system will have an over abundance of pressurized fluid, thereby increasing the system pressure. Hence, it may be necessary to unload one or more compressors. The issue, therefore, becomes which compressor should be loaded or unloaded (i.e., added or removed from the compressor system).
A pressure responsive control system typically includes a controller that is wired to measure the system pressure. When the system pressure drops below or climbs above a predetermined pressure set-point, the controller loads or unloads the next available compressor. This process is repeated as often as necessary, or until all of the compressors are either loaded or unloaded, in order to compensate for the change in system demand. Similarly, rather than controlling the compressor system in response to the system pressure, the compressor system could be responsive to a flow sensor that measures the fluid flow.
Whether responding to the system pressure or fluid flow within the system, it may be advantageous to initially sequence the loading and unloading of the compressors in order to produce an electrically efficient compressor system. Particularly, the operator of the system may recognize that the load requirements increase as the day progresses. Therefore, certain compressors are loaded and/or unloaded accordingly such that the pressure capacity of the system increases to satisfy the anticipated load requirements. In other words, the sequence is typically based upon an estimate of the anticipated system demand such that the estimate is close as possible to the actual system requirements. The goal of estimating the actual system demand and loading the appropriately sized compressors is to provide a moderately efficient system by minimizing the unused pressure capacity of the system, thereby minimizing the wasteful use of electrical power.
After initially loading the compressors according to the sequence, the compressors are thereafter loaded and/or unloaded in response to the pressure or fluid flow sensors to more particularly satisfy the demands of the system. In other words, if after the initial sequence of compressors is loaded and the system senses that it requires additional pressure, an additional compressor may be loaded to the system to satisfy the immediate demand. Likewise, if the system senses that it has an over abundant pressure capacity, a compressor may be unloaded to reduce the overall system pressure. Again, in order to produce an efficient compressor system, a compressor having a pressure rating similar to the additional system demand or similar to the over abundant pressure capacity will be selected and loaded or unloaded, respectively, such that total system pressure capacity closely resembles the actual system demand, thereby minimizing the wasteful use of electrical power.
However, controlling the compressor system solely in response to the pressure differential between the actual system pressure and the pressure requirement of the system may be not be as electrically efficient as originally believed. Specifically, although the system may produce fluid with sufficient pressure, the volume of fluid being produced may be inadequate or substantially excessive than what is actually required. Similarly, controlling the compressor system solely in response to a change in fluid flow may not be the most electrically efficient control method because although the system may produce the required volume of fluid, the pressure of fluid being produced may be substantially higher or lower than what is actually required.
Additionally, compressors may require a significant amount of time to produce fluid at their rated pressure capacity and fluid flow rate. Moreover, during such period, the compressors utilize a significant amount of electrical energy, which translates into a high operating cost. Furthermore, upon the compressors attaining their rated capacity, the present control systems do not insure that the appropriate blend of compressors is loaded to the system in order to produce the most suitable pressure and volumetric flow rate capacity. In other words, controlling the compressors in response solely to a change in pressure or fluid flow may produce excessive amounts thereof. These unnecessary quantities of fluid flow and pressure are the by products of the compressors utilizing an over abundance electrical energy. Thus, controlling the compressors in response solely to a change in pressure or fluid flow utilizes an unwarranted amount of electrical power, thereby producing an inefficient compressor control system.
OBJECTS OF THE INVENTION
It is an object of the invention to produce a more efficient compressor control system.
It is an other object of the invention to produce a compressor control system that does not merely control the operation of compressors as a function of the system pressure.
It is a further object of the invention to produce a compressor control system that does not merely control the operation of compressors as a function of the system's volumetric flow rate capacity.
SUMMARY OF THE INVENTION
The present invention is a more efficient compressor control system and a more efficient method of operating a multiple compressor system because the method and control system are a function of both the system pressure and the volumetric flow rate capacity of the system. Specifically, a compressor is loaded or unloaded from the compressor system after sensing the actual pressure and volumetric flow rate capacity of the compressor system.
Moreover, the actual flow rate of the compressor system is compared to the online flow rate capacity, and the set-point pressure is compared to the actual pressure of the compressor system. Upon completing these two comparisons, a determination is made as to which, if any, compressors should be loaded or unloaded. These two comparisons allow the control system to load or unload the compressor that will produce the most efficient compressor system. If the pressure of the compressor system is greater than the pressure set-point and the flow rate for one of the compressors is less than the excess flow rate for the compressor system, that particular compressor will be unloaded from the compressor system. Additionally, if the actual pressure of the compressor system is less than the set-point pressure and the actual flow rate of the compressor system is equal to or greater than the online flow rate capacity of the compressor system, then a compressor will be loaded to the compressor system.
Accordingly, the
Blaney Harper Jones, Day , Reavis & Pogue
Lee Kevin
Scales Air Compressor
LandOfFree
Control system for controlling multiple compressors does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Control system for controlling multiple compressors, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Control system for controlling multiple compressors will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-2947870