RU2009147441A

RU2009147441A - CAPACITOR RADIATOR

Info

Publication number: RU2009147441A
Application number: RU2009147441/06A
Authority: RU
Inventors: Патрик ТИНДЕЙЛ (GB); Патрик ТИНДЕЙЛ; Стюарт Питер РЕДШОУ (GB); Стюарт Питер РЕДШОУ
Original assignee: 4 Энерджи Лтд. (Gb); 4 Энерджи Лтд.
Priority date: 2007-05-22
Filing date: 2008-05-22
Publication date: 2011-06-27
Also published as: US20100242530A1; WO2008142412A1; BRPI0811899A2; GB0805660D0; GB2449522A; GB0805661D0; EP2167888A1; US20100154466A1; GB2449523A; WO2008142414A1; RU2431088C2

Abstract

1. Холодильный агрегат, работающий по абсорбционно-диффузионному циклу, содержащий трубку конденсатора, проходящую через теплоотводящий радиатор и охватываемую им снаружи, при этом радиатор снабжен герметичным кожухом, образующим внутреннюю полость, окружающую трубку конденсатора, служащую для размещения жидкого теплоносителя, причем трубка конденсатора расположена в пределах поперечного сечения радиатора, которое сужается до минимальной толщины в направлении верхнего конца радиатора, установленного на холодильном агрегате. ! 2. Агрегат по п.1, в котором радиатор имеет форму крыла, имеющего, по существу, типовое поперечное сечение со скругленным нижним концом и сужающимся верхним концом. ! 3. Агрегат по п.1 или 2, в котором радиатор включает среднюю часть, герметизированную на противоположных концах с помощью первой и второй концевых частей, образующих указанное поперечное сечение радиатора, при этом указанная средняя часть охватывает трубку конденсатора. ! 4. Агрегат по любому из пп.1 и 2, в котором радиатор снабжен заливочным патрубком, предназначенным для ввода жидкого теплоносителя во внутреннюю полость радиатора. ! 5. Агрегат по п.3, в котором радиатор снабжен заливочным патрубком, предназначенным для ввода жидкого теплоносителя во внутреннюю полость радиатора. ! 6. Агрегат по любому из пп.1, 2, 5, в котором поперечное сечение радиатора, по существу, одинаково в направлении, параллельном трубке конденсатора. ! 7. Агрегат по п.3, в котором поперечное сечение радиатора, по существу, одинаково в направлении, параллельном трубке конденсатора. ! 8. Агрегат по п.4, в котором поперечное сечение радиатора, по существу, од 1. A refrigeration unit operating on an absorption-diffusion cycle, containing a condenser tube passing through a heat-removing radiator and covered by it from the outside, while the radiator is equipped with a sealed casing forming an internal cavity surrounding the condenser tube, which serves to accommodate the coolant liquid, and the condenser tube is located within the cross section of the radiator, which tapers to a minimum thickness towards the upper end of the radiator mounted on the refrigeration unit. ! 2. The unit according to claim 1, wherein the radiator is in the shape of a wing having a substantially typical cross-section with a rounded lower end and a tapering upper end. ! 3. The apparatus of claim 1 or 2, wherein the radiator includes a middle portion sealed at opposite ends by first and second end portions defining said cross-section of the radiator, said middle portion enclosing a condenser tube. ! 4. The unit according to any of claims 1 and 2, in which the radiator is equipped with a filling pipe designed to introduce coolant liquid into the internal cavity of the radiator. ! 5. The unit according to claim 3, in which the radiator is equipped with a filling pipe designed to introduce coolant liquid into the internal cavity of the radiator. ! 6. The unit according to any one of claims 1, 2, 5, in which the cross-section of the radiator is substantially the same in a direction parallel to the condenser tube. ! 7. The unit according to claim 3, wherein the cross-section of the radiator is substantially the same in a direction parallel to the condenser tube. ! 8. The unit according to claim 4, in which the cross-section of the radiator is essentially the same

Claims

1. A refrigeration unit operating on an absorption-diffusion cycle, comprising a condenser tube passing through a heat sink and covered by it externally, the radiator provided with a sealed casing forming an internal cavity surrounding the condenser tube, which is used to house the heat transfer fluid, the condenser tube being located within the cross section of the radiator, which tapers to a minimum thickness in the direction of the upper end of the radiator mounted on the refrigeration unit.

2. The assembly according to claim 1, in which the radiator has the shape of a wing having an essentially typical cross section with a rounded lower end and a tapering upper end.

3. The unit according to claim 1 or 2, in which the radiator includes a middle part, sealed at opposite ends with the first and second end parts forming the specified cross section of the radiator, while the specified middle part covers the condenser tube.

4. The unit according to any one of paragraphs.1 and 2, in which the radiator is equipped with a filling pipe designed to enter the liquid coolant into the internal cavity of the radiator.

5. The unit according to claim 3, in which the radiator is equipped with a filling pipe designed to enter the liquid coolant into the inner cavity of the radiator.

6. The unit according to any one of claims 1, 2, 5, in which the cross section of the radiator is essentially the same in the direction parallel to the condenser tube.

7. The assembly according to claim 3, in which the cross section of the radiator is essentially the same in the direction parallel to the condenser tube.

8. The unit according to claim 4, in which the cross section of the radiator is essentially the same in the direction parallel to the condenser tube.

9. A temperature-controlled chamber equipped with a refrigeration unit operating on an absorption-diffusion cycle according to any one of claims 1 to 8.

10. A cabinet with temperature-controlled equipment, equipped with an absorption-diffusion cycle unit, according to any one of claims 1 to 8, in which the evaporator tube passes through the cabinet wall and passes through a second sealed enclosure to accommodate the heat transfer fluid, the hermetic shell extends transversely and forms part of the inner surface of the chamber so that the refrigeration unit during its operation extracts heat from the inner volume of the chamber and transfers it to the environment.

11. Cabinet with equipment according to claim 10, in which the wall of the cabinet includes a layer of thermal insulation through which the evaporator tube passes.

12. The cabinet with the equipment of claim 10, in which the evaporator tube passes through a recess made in the wall.

13. Cabinet with equipment according to any one of paragraphs.10-12, in which the second sealed enclosure is made essentially flat in design along the entire inner surface of the wall.

14. Cabinet with equipment according to any one of paragraphs.10-12, in which the evaporator tube passes horizontally through the upper part of the second sealed casing, when the cabinet is oriented for use in such a way that when used, the convective flow of heat transfer fluid contributes to the transfer of heat from the internal cabinet volume.

15. The unit according to any one of claims 1, 2, 5, 7, 8, in which the internal cavity of the sealed casing contains a mixture of water and glycol as a heat transfer fluid.

16. The unit according to claim 3, in which the internal cavity of the sealed casing contains as a heat transfer fluid a mixture of water and glycol.

17. The unit according to claim 4, in which the internal cavity of the sealed casing contains a mixture of water and glycol as a liquid coolant.

18. The unit according to claim 6, in which the internal cavity of the sealed casing contains a mixture of water and glycol as a heat transfer fluid.