Refrigeration control systems and methods for modular compact chiller units
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F25B-007/00
F25B-049/02
F25B-025/00
출원번호
US-0508374
(2009-07-23)
등록번호
US-8973379
(2015-03-10)
발명자
/ 주소
Bittner, John D.
Rose, Vincent R.
Ferretti, Peter J.
출원인 / 주소
Hill Phoenix, Inc.
대리인 / 주소
Foley & Lardner LLP
인용정보
피인용 횟수 :
4인용 특허 :
18
초록▼
A controller for a modular compact chiller unit configured for integration into a refrigeration system utilizing a plurality of modular compact chiller units is shown and described. The controller includes a processing circuit configured to provide startup control, operational control, and shutdown
A controller for a modular compact chiller unit configured for integration into a refrigeration system utilizing a plurality of modular compact chiller units is shown and described. The controller includes a processing circuit configured to provide startup control, operational control, and shutdown control for the modular compact chiller unit.
대표청구항▼
1. A controller for a modular compact chiller unit configured for integration into a refrigeration system utilizing a plurality of modular compact chiller units, the controller comprising: a plurality of modular compact chiller units, wherein each modular compact chiller unit includes a controller c
1. A controller for a modular compact chiller unit configured for integration into a refrigeration system utilizing a plurality of modular compact chiller units, the controller comprising: a plurality of modular compact chiller units, wherein each modular compact chiller unit includes a controller comprising: an expansion valve interface configured to provide control signals to an expansion valve of the modular compact chiller unit; a compressor interface configured to provide control signals to a compressor of the modular compact chiller unit; and a processing circuit configured to provide startup control, operational control, and shutdown control for the modular compact chiller unit, wherein each of the of plurality of controllers provides control signals to a discrete modular compact chiller unit; anda main controller configured to provide control signals to the plurality of controllers,wherein the plurality of modular compact chiller units operate in parallel to provide chilling for a single chilled fluid system;wherein the startup control comprises: beginning opening an expansion valve to a pre-start position after a delay time has expired; while the expansion valve is in the pre-start position, receiving a signal from a pressure sensor, the signal representative of the pressure on the inlet side of a compressor for the modular compact chiller unit;while the expansion valve is in the pre-start position, comparing the signal representative of the pressure to a threshold; andwhile the expansion valve is in the pre-start position, providing a control signal to the compressor for the modular compact chiller unit that causes the compressor to activate for normal operation when the pressure meets or exceeds the threshold. 2. The refrigeration system controller of claim 1, wherein the startup control further comprises: comparing a number of starts per hour value for the modular compact chiller unit to a threshold value; andrefraining from beginning the startup routine when the number of starts exceeds the threshold value. 3. The refrigeration system controller of claim 1, wherein the startup control further comprises: recalling a startup superheat setpoint from memory;controlling the pre-start position for the expansion valve based on the startup superheat setpoint recalled from memory, based on a newly received signal from a temperature sensor configured to sense the temperature of superheat vapor, and based on a newly received signal from a pressure sensor configured to sense the pressure of the superheat vapor; andcontinuing to control the expansion valve according to the startup superheat setpoint for a predetermined period of time before controlling the expansion valve for an operating superheat setpoint rather than the startup superheat setpoint. 4. The refrigeration system controller of claim 1, wherein the operational control comprises: calculating adjustments to an expansion valve based on a superheat setpoint and inputs from at least a temperature sensor; andproviding control signals to the expansion valve based on the calculated adjustments. 5. The refrigeration system controller of claim 1, wherein the startup control comprises: providing a signal to a chilled fluid valve so that chilled fluid begins flowing past an evaporator portion of the modular compact chiller unit; andproviding a signal to a condenser fluid valve so that condenser fluid begins flowing past an a condenser portion of the modular compact chiller unit. 6. The refrigeration system controller of claim 5 wherein the shutdown control comprises: providing a signal to the chilled fluid valve that is configured to close the chilled fluid valve;providing a signal to the condenser fluid valve that is configured to close the condenser fluid valve;providing a signal to the expansion valve that is configured to close the expansion valve; andturning off the compressor when a low pressure setpoint at the compressor has been reached. 7. The refrigeration system controller of claim 6, wherein the shutdown control further comprises: causing an electronic display to display a representation of the reason for the shutdown. 8. A refrigeration system for providing chilled fluid to cooling loads, the refrigeration system comprising: a main controller;a plurality of modular compact chiller units;a chilled fluid system configured to allow the chilled fluid to be chilled by the plurality of modular compact chiller units;wherein each of the plurality of modular compact chiller units includes a controller configured to receive control signals from the main controller and to provide startup control, operational control, and shutdown control for its associated modular compact chiller unit;wherein the main controller is configured to cause some of the chilled fluid to bypass a set of more than one of the plurality of modular compact chiller units when the chilled fluid temperature is equal to or greater than the chilled fluid temperature setpoint and the pressure differential of the chilled fluid pressure upstream of the plurality of modular compact chiller units relative to the chilled fluid pressure downstream of the plurality of modular compact chiller units is above a setpoint differential pressure, and wherein the fluid that bypasses the set of more than one of the plurality of modular heat exchangers is recirculated. 9. The refrigeration system of claim 8, wherein the main controller is configured to cause the modular compact chiller units to turn on, one at a time, in order to meet a chilled fluid temperature setpoint. 10. The refrigeration system of claim 9, wherein the main controller is configured to discontinue causing some of the chilled fluid to bypass the modular compact chiller units when the pressure differential is less than the setpoint differential pressure. 11. The refrigeration system of claim 10, wherein the main controller is configured to cause a modular compact chiller unit of the system to turn off when the pressure differential is less than a minimum differential pressure, wherein the minimum differential pressure is less than the setpoint differential pressure, temperature of the chilled fluid is less than the chilled fluid temperature setpoint. 12. A method for starting a modular compact chiller unit that is a part of a larger refrigeration system utilizing a plurality of modular compact chiller units, the method comprising: receiving a call for cooling signal from a main controller for the refrigeration system;in response to the call for cooling signal, beginning a startup routine comprising: beginning opening an expansion valve to a pre-start position after a delay time has counted,while the expansion valve is in the pre-start position, receiving a signal from a pressure sensor representative of the pressure on the inlet side of a compressor for the modular compact chiller unit,while the expansion valve is in the pre-start position, comparing the signal representative of pressure to a threshold, andwhile the expansion valve is in the pre-start position, providing a control signal to the compressor for the modular compact chiller unit causing the compressor to activate for normal operation when the pressure meets or exceeds the threshold. 13. The method of claim 12, further comprising: providing a signal to a chilled fluid valve so that chilled fluid begins flowing past an evaporator portion of the modular compact chiller unit; andproviding a signal to a condenser fluid valve so that condenser fluid begins flowing past an a condenser portion of the modular compact chiller unit. 14. The method of claim 12, wherein the startup routine further comprises: recalling a startup superheat setpoint from memory;controlling the pre-start position for the expansion valve based on the startup superheat setpoint recalled from memory, a signal from a temperature sensor configured to sense the temperature of superheat vapor, and a pressure sensor configured to sense the pressure of the superheat vapor; andwaiting a time period before transitioning from controlling the expansion valve based on the startup superheat setpoint to controlling the expansion valve based on an operating superheat setpoint. 15. The method of claim 12, further comprising: in response to receiving the call for cooling signal, comparing a number of starts per hour value to a threshold value; andrefraining from beginning the startup routine when the number of starts exceeds the threshold value. 16. The method of claim 12, further comprising: in response to receiving the call for cooling signal, comparing a time since the modular compact chiller unit was last active to a threshold value; andrefraining from beginning the startup routine when the time since the modular compact chiller unit was last active is shorter than the threshold. 17. The method of claim 12, further comprising: coupling the modular compact chiller unit to the larger refrigeration system by connecting pipes from a condenser fluid system and chilled fluid system to inputs and outputs of the modular compact chiller unit.
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이 특허에 인용된 특허 (18)
Steven D. Centers ; Paul G. Moffat, Compressor system and method and control for same.
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