Interface apparatus for permitting microprocessor-based electronic control of non-electronically controlled air compressors
First Claim
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1. The combination comprising:
- A) a non-electronically controlled air compressor comprising a load solenoid valve and a pressure switch;
B) a microprocessor-based sequencing apparatus; and
C) an interface apparatus operably connected to the sequencer and non-electronically controlled air compressor, the interface apparatus comprising;
signal converting means for converting input signals from the sequencer to a predetermined usable signal for the interface apparatus, and for converting output signals from the interface to a predetermined usable signal for the sequencer;
a processor having a predetermined logic routine which processes sequencer communication commands into electrical signals which control the operation of the non-electronically controlled air compressor, the processor communicating with the signal converting means;
at least one AC switch which selectively switches a predetermined AC voltage, on and off, in response to the logic routine, the at least one AC switch communicating with the processor;
timer means for timing out a predetermined time period and wherein if there elapses a time period of more than one second during which the non-electronically controlled air compressor does not receive a predetermined control signal, the non-electronically controlled air compressor will begin to operate under its own control,means for sensing an AC voltage, the AC voltage sensing means communicating with the processor; and
means for outputting at least one predetermined control signal from the interface apparatus to the non-electronically controlled air compressor and for inputting at least one predetermined status signal from the non-electronically controlled air compressor to the interface apparatus.
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Abstract
An interface apparatus permits microprocessor-based control of an air compressor having no microprocessor-based control capabilities. The interface apparatus includes a signal converter for permitting bi-directional communication between the interface apparatus and a microprocessor-based air compressor sequencer. A processor has a predetermined logic routine which processes sequencer communication commands into electrical signals which control the operation of the compressor. The processor communicates with the signal converter. At least one AC switch selectively switches a predetermined AC voltage, on and off, in response to the logic routine. The at least one AC switch communicates with the processor. An AC voltage sensor communicates with the processor. At least one control signal is outputted from the interface apparatus to the air compressor. At least one status signal is inputted to the interface apparatus from the air compressor.
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Citations
14 Claims
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1. The combination comprising:
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A) a non-electronically controlled air compressor comprising a load solenoid valve and a pressure switch; B) a microprocessor-based sequencing apparatus; and C) an interface apparatus operably connected to the sequencer and non-electronically controlled air compressor, the interface apparatus comprising;
signal converting means for converting input signals from the sequencer to a predetermined usable signal for the interface apparatus, and for converting output signals from the interface to a predetermined usable signal for the sequencer;a processor having a predetermined logic routine which processes sequencer communication commands into electrical signals which control the operation of the non-electronically controlled air compressor, the processor communicating with the signal converting means; at least one AC switch which selectively switches a predetermined AC voltage, on and off, in response to the logic routine, the at least one AC switch communicating with the processor; timer means for timing out a predetermined time period and wherein if there elapses a time period of more than one second during which the non-electronically controlled air compressor does not receive a predetermined control signal, the non-electronically controlled air compressor will begin to operate under its own control, means for sensing an AC voltage, the AC voltage sensing means communicating with the processor; and means for outputting at least one predetermined control signal from the interface apparatus to the non-electronically controlled air compressor and for inputting at least one predetermined status signal from the non-electronically controlled air compressor to the interface apparatus. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. An interface apparatus for use in combination with a microprocessor-based air compressor sequencing apparatus and an air compressor which includes a load solenoid valve, a pressure sensing switch and timer means for timing out a predetermined time interval, the interface apparatus comprising:
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signal converting means for converting input signals from the sequencer to a predetermined usable signal for the interface apparatus, and for converting output signals from the interface to a predetermined usable signal for the sequencer; a processor having a predetermined logic routine which processes sequencer communication commands into electrical signals which control the operation of the air compressor, the processor communicating with the signal converting means and wherein an "unload" signal is continuously outputted to the timing means until a "load" signal is outputted to the air compressor; at least one AC switch which selectively switches a predetermined AC voltage, on and off, in response to the logic routine, the at least one AC switch communicating with the processor; means for sensing an AC voltage, the AC voltage sensing means communicating with the processor; and means for outputting at least one predetermined control signal from the interface apparatus to the air compressor and for inputting at least one predetermined status signal from the air compressor to the interface apparatus.
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9. An interface apparatus for use in combination with a microprocessor-based air compressor sequencing apparatus and an air compressor which includes a load solenoid valve and a pressure sensing switch, the interface apparatus comprising:
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signal converting means for converting input signals from the sequencer to a predetermined usable signal for the interface apparatus, and for converting output signals from the interface to a predetermined usable signal for the sequencer; a processor having a predetermined logic routine which processes sequencer communication commands into electrical signals which control the operation of the air compressor, the processor communicating with the signal converting means, and wherein the processor processes a "load" output signal, a "local" output signal, and an "unload" output signal to the air compressor; a pair of TRIAC type AC switches which selectively switch a predetermined AC voltage, on and off, in response to the logic routine, each of the AC switches communicating with the processor; means for sensing an AC voltage, the AC voltage sensing means communicating with the processor; and means for outputting at least one predetermined control signal from the interface apparatus to the air compressor and for inputting at least one predetermined status signal from the air compressor to the interface apparatus. - View Dependent Claims (10, 11)
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12. An interface apparatus for use in combination with a microprocessor-based air compressor sequencing apparatus and an air compressor which includes a load solenoid valve and a pressure sensing switch, the interface apparatus comprising:
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signal converting means for converting input signals from the sequencer to a predetermined usable signal for the interface apparatus, and for converting output signals from the interface to a predetermined usable signal for the sequencer; a processor having a predetermined logic routine which processes sequencer communication commands into electrical signals which control the operation of the air compressor, the processor communicating with the signal converting means, and wherein the processor processes a "load" output signal, a "local" output signal, and an "unload" output signal to the air compressor; at least one mechanical type AC switch which selectively switches a predetermined AC voltage, on and off, in response to the logic routine, the at least one AC switch communicating with the processor; means for sensing an AC voltage, the AC voltage sensing means communicating with the processor; and means for outputting at least one predetermined control signal from the interface apparatus to the air compressor and for inputting at least one predetermined status signal from the air compressor to the interface apparatus. - View Dependent Claims (13)
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14. An interface apparatus for use in combination with a microprocessor-based air compressor sequencing apparatus and an air compressor which includes a load solenoid valve and a pressure sensing switch, the interface apparatus comprising:
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signal converting means for converting input signals from the sequencer to a predetermined usable signal for the interface apparatus, and for converting output signals from the interface to a predetermined usable signal for the sequencer; a processor having a predetermined logic routine which processes sequencer communication commands into electrical signals which control the operation of the air compressor, the processor communicating with the signal converting means and wherein the processor processes a "load" output signal, a "local" output signal, and an "unload" output signal to the air compressor and also processes a "run" input signal from the air compressor; at least one AC switch which selectively switches a predetermined AC voltage, on and off, in response to the logic routine, the at least one AC switch communicating with the processor; means for sensing an AC voltage, the AC voltage sensing means communicating with the processor, and wherein the AC voltage sensing means determines the existence of the "run" input signal, which is a 115 VAC signal sent from the air compressor, and wherein the existence of the "run" signal establishes that the air compressor is in a "run" state or a "ready to run" state; and means for outputting at least one predetermined control signal from the interface apparatus to the air compressor and for inputting at least one predetermined status signal from the air compressor to the interface apparatus.
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Specification
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Current AssigneeIngersoll-Rand Company (Trane Technologies plc)
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Original AssigneeIngersoll-Rand Company (Trane Technologies plc)
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InventorsHarrison, Duane N., Buhrmaster, Marc A.
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Primary Examiner(s)Casaregola, Louis J.
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Assistant Examiner(s)THAI, XUAN MARIAN
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Application NumberUS08/259,581Time in Patent Office700 DaysField of Search417/12, 417/18, 417/44.2, 417/44.11, 417/45, 417/290, 415/15-51US Class Current417/12CPC Class CodesF04B 2203/0202 VoltageF04B 2207/02 External pressureF04B 49/022 by means of pressureF04B 49/065 and making use of computersF04C 2270/01 LoadF04C 28/06 specially adapted for stopp...F04D 27/02 Surge control surge detecti...
