Accumulator arrangement with an integrated subcooler
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F25B-039/04
F25B-041/00
F25B-040/02
F25B-023/00
출원번호
US-0773214
(2013-02-21)
등록번호
US-9719706
(2017-08-01)
우선권정보
EP-12 001 232 (2012-02-24)
발명자
/ 주소
Piesker, Markus
Sieme, Martin
Chodura, Johannes
Kiryaman, Ahmet Kayihan
출원인 / 주소
AIRBUS OPERATIONS GMBH
대리인 / 주소
Dickinson Wright
인용정보
피인용 횟수 :
0인용 특허 :
11
초록▼
An accumulator arrangement for use in a cooling system suitable for operation with two-phase refrigerant includes a condenser having a refrigerant inlet and a refrigerant outlet. The accumulator arrangement further includes an accumulator for receiving the two-phase refrigerant therein, the accumula
An accumulator arrangement for use in a cooling system suitable for operation with two-phase refrigerant includes a condenser having a refrigerant inlet and a refrigerant outlet. The accumulator arrangement further includes an accumulator for receiving the two-phase refrigerant therein, the accumulator having a refrigerant inlet connected to the refrigerant outlet of the condenser and a refrigerant outlet. Finally, the accumulator arrangement includes a subcooler having a refrigerant inlet and a refrigerant outlet, the refrigerant inlet of the subcooler being connected to the refrigerant outlet of the accumulators, and the subcooler being arranged at least partially within the interior of the accumulator.
대표청구항▼
1. An accumulator arrangement for use in a cooling system suitable for operation with a two-phase refrigerant, the accumulator arrangement comprising: a condenser having a refrigerant inlet and a refrigerant outlet,an accumulator for receiving the two-phase refrigerant therein, the accumulator havin
1. An accumulator arrangement for use in a cooling system suitable for operation with a two-phase refrigerant, the accumulator arrangement comprising: a condenser having a refrigerant inlet and a refrigerant outlet,an accumulator for receiving the two-phase refrigerant therein, the accumulator having a refrigerant inlet connected to the refrigerant outlet of the condensera tubing forming a refrigerant outlet of the accumulator in the region of a sump of the accumulator, the tubing extending from the sump of the accumulator through the interior of the accumulator in the direction of a head of the accumulator and exiting the accumulator in a region of the head of the accumulator, the tubing connecting the formed refrigerant outlet of the accumulator to a conveying device for discharging refrigerant from the accumulator, the discharging refrigerant running in the tubing from the sump of the accumulator to the region of the head of the accumulator, anda subcooler having a refrigerant inlet and a refrigerant outlet, the refrigerant inlet of the subcooler being connected to the refrigerant outlet of the accumulator, and the subcooler being arranged at least partially within the interior of the accumulator, wherein the tubing extending from the sump of the accumulator to the region of the head of the accumulator passes through the subcooler in the interior of the accumulator. 2. The accumulator arrangement according to claim 1, wherein the subcooler comprises a heat exchanger comprising a coil heat exchanger or a double tube heat exchanger. 3. The accumulator arrangement according to claim 1, wherein the subcooler and the tubing connecting the refrigerant outlet of the accumulator to the conveying device for discharging refrigerant from the accumulator are formed as an assembly unit which is releasably connected to the accumulator. 4. The accumulator arrangement according to claim 1, wherein the subcooler and the condenser are configured to be supplied with cooling energy by a common heat sink, wherein a refrigerant provided by the heat sink first is directed to the subcooler and thereafter to the condenser or vice versa. 5. The accumulator arrangement according to claim 4, wherein the heat sink supplying cooling energy to the subcooler and the condenser comprises a chiller. 6. The accumulator arrangement according to claim 1, wherein the condenser is arranged at least partially within the interior of the accumulator. 7. The accumulator arrangement according to claim 6, wherein the accumulator, the subcooler, the condenser and the heat sink are formed as an assembly unit. 8. A method of operating an accumulator arrangement for use in a cooling system suitable for operation with a two-phase refrigerant, the method comprising the steps of: condensing the two-phase refrigerant in a condenser,receiving the refrigerant condensed in the condenser in an accumulator,discharging the refrigerant from the accumulator to a conveying device through a tubing forming a refrigerant outlet of the accumulator in the region of a sump of the accumulator, the tubing extending from the sump of the accumulator through the interior of the accumulator in the direction of a head of the accumulator and exiting the accumulator in a region of the head of the accumulator, the tubing connecting the formed refrigerant outlet of the accumulator to the conveying device, andsubcooling the refrigerant discharged from the accumulator in a subcooler being arranged at least partially within the interior of the accumulator, wherein the tubing extending from the sump of the accumulator to the region of the head of the accumulator passes through the subcooler in the interior of the accumulator,wherein discharging the refrigerant includes moving the refrigerant in the tubing from the sump of the accumulator to the region of the head of the accumulator. 9. The method according to claim 8, wherein the subcooler and the condenser are supplied with cooling energy by a common heat sink, wherein a refrigerant provided by the heat sink first is directed to the subcooler and thereafter to the condenser or vice versa. 10. A cooling system, in particular for use on board an aircraft, the cooling system comprising: a cooling circuit allowing circulation of a two-phase refrigerant therethrough,a condenser disposed in the cooling circuit and having a refrigerant inlet and a refrigerant outlet,an accumulator for receiving the two-phase refrigerant therein, the accumulator having a refrigerant inlet connected to the refrigerant outlet of the condenser,a tubing forming a refrigerant outlet of the accumulator in the region of a sump of the accumulator, the tubing extending from the sump of the accumulator through the interior of the accumulator in the direction of a head of the accumulator and connecting exiting the accumulator in a region of the head of the accumulator, the tubing connecting the formed refrigerant outlet of the accumulator to a conveying device for discharging refrigerant from the accumulator, the discharing refrigerant running in the tubing from the sum of the accumulator to the region of the head of the accumulator, anda subcooler having a refrigerant inlet and a refrigerant outlet, the refrigerant inlet of the subcooler being connected to the refrigerant outlet of the accumulator and the subcooler being arranged at least partially within the interior of the accumulator, wherein the tubing extending from the sump of the accumulator to the region of the head of the accumulator passes through the subcooler in the interior of the accumulator. 11. The cooling system according to claim 10, wherein a bypass line branching off from the cooling circuit downstream of a refrigerant outlet of a conveying device for discharging refrigerant from the accumulator opens into the accumulator, wherein a valve disposed in the bypass line is adapted to open the bypass line if a pressure difference between the pressure of the refrigerant in the cooling circuit downstream of the refrigerant outlet of the conveying device and the pressure of the refrigerant in the cooling circuit upstream of a refrigerant inlet of the conveying device exceeds a predetermined level. 12. The cooling system according to claim 10, further comprising: an evaporator disposed in the cooling circuit and having a refrigerant inlet and a refrigerant outlet, anda valve disposed in the cooling circuit between the refrigerant outlet of the evaporator and the refrigerant inlet of the condenser, the valve being configured to control the flow of refrigerant through the cooling circuit such that a defined pressure gradient of the refrigerant in a portion of the cooling circuit between the refrigerant outlet of the evaporator and the refrigerant inlet of the condenser is adjusted. 13. A method of operating a cooling system, in particular for use on board an aircraft, the method comprising the steps of: circulating a two-phase refrigerant through a cooling circuit by a conveying device,condensing the two-phase refrigerant in a condenser,receiving the refrigerant condensed in the condenser in an accumulator,discharging the refrigerant from the accumulator through a tubing forming a refrigerant outlet of the accumulator in the region of a sump of the accumulator, the tubing extending from the sump of the accumulator through the interior of the accumulator in the direction of a head of the accumulator and exiting the accumulator in a region of the head of the accumulator, the tubing connecting the formed refrigerant outlet of the accumulator to the conveying device, andsubcooling refrigerant discharged from the accumulator in a subcooler being arranged at least partially within the interior of the accumulator, wherein the tubing extending from the sump of the accumulator in the direction of the head of the accumulator passes through the subcooler in the interior of the accumulator,wherein discharging the refrigerant includes moving the refrigerant in the tubing from the sump of the accumulator to the region of the head of the accumulator.
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이 특허에 인용된 특허 (11)
Amin Jayendra Jayantibhai ; Bramos Gary D. ; Schneider Jeffrey S. ; Adams Orthell LaVount, Accumulator for an air conditioning system.
Harris Thomas B. (Taylor MI) Muir Ronald Charles (Whitmore Lake MI) Dolinski Norman Henry (Grosse Pointe Woods MI) Patel Chhotubhai Nagarji (Farmington Hills MI), Accumulator for vehicle air conditioning system.
John Paul Telesz ; Timothy M. Gabel ; Ronald A. Lemmon, Accumulator-dehydrator assembly with anti-bump/venturi effect oil return feature for an air conditioning system.
Widdowson Richard E. (Dayton OH) Connolly James B. (Springfield OH) Schlotterbeck Earl S. (Lewisburg OH) Livesay J. D. (Tipp City OH), Universal internal tube accumulator.
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