DE645611C - Method and device for the accelerated lowering of the pressure and the evaporator temperature at the end of the cooking period of intermittently working absorption refrigerators - Google Patents

Description

The invention relates to a method and an apparatus for accelerated Reduction of the pressure and the evaporator temperature at the end of the cooking period of intermittently working absorption chillers with circulation of the solution between a periodically heated hotplate and an unheated storage vessel. Intermittently operating absorption chillers are to be understood as devices at those periods in which at higher pressure refrigerant from an absorbent is expelled and liquefied, alternating with periods in which, at low pressure, the liquefied refrigerant evaporated and taken up again by the absorbent.

In the previously known apparatus of this type, the cooker vapors are at the end of the Cooking period with the liquid surface of the digester and / or that of the storage vessel in touch. The pressure drop in the appliance at the end of the cooking period will be with these Apparatus caused by the fact that the Ko rather surface and possibly that of the Absorbers at the end of the cooking period are cooled by cooling water to cool the hot digester solution and thereby to make it absorbent again. In order to achieve the required cooling, passes practically, the longer the time, the greater the quantities of hot solution.

It is also already known in intermittent absorption chillers the solution contained in the cooker absorber through evaporator gas in a narrow ascending pipe into the gas space of the Bubbling up the cooker and so a better absorption of the over the cooker surface to achieve standing gas. In this case, absorption solution, its temperature corresponds to the contents of the cooker, used to absorb the vapors above the cooker level and thereby the Reduce pressure, whereby already a certain acceleration of the pressure reduction takes place.

The aim of the invention is to prevent this cooling period, in which the pressure reduction takes place, continues to shorten substantially and consists essentially in the fact that they in addition to the liquid surface of the digester and / or the storage vessel, additional Amounts of liquid that are colder than the contents of the digester vessel are used to am End of cooking period to absorb cooker fumes. The use of quantities of liquid that are colder than the contents of the kettle causes, compared to the previously known arrangements, a practically extraordinary

neatly valuable shortening of the pressure drop, so that an apparatus arises whose dead times, d. H. Times that arise between the alternation of periods, practically ,, ^ become small so that they bleed without being taken into account can practice. '·: ^

The invention is to be described in more detail with reference to the accompanying drawing are, further characterizing ίο features of the invention will result.

In the figure, ii denotes an unheated storage vessel for absorption solution, 12 a liquid temperature changer, 13 the cooker, 14 the condenser and 15 the evaporator of the apparatus. It is assumed that the apparatus works with water as the absorbent and ammonia as the refrigerant, but the apparatus can be operated with any other known refrigerant and absorbent. The apparatus is originally filled up to the level line marked with I. The storage vessel 11 is therefore completely filled with absorption solution and also remains completely filled, especially during the cooking periods of the apparatus. The apparatus works as follows: During the cooking periods, the cooker 13 was used in any known manner, e.g. B; by a heating cartridge, a gas flame, an oil burner, a steam jacket ο. Like., Heat supplied. By supplying heat to the cooker, which is provided with insulation 30 in a manner known per se, the liquid in it becomes lighter than the solution in the unheated storage vessel or in one leg of the temperature changer, so that the cooker level rises and there is a tendency for the liquid to circulate between the boiling point and the storage vessel. In order to increase this still further, as shown in the figure, a pump loop 13 ″, ie a gas bubble boiling lifter, can be used, which is heated in a known manner by the heat supply to the cooker and the absorption solution between the unheated storage vessel 11 and the boiling point 13. In this case in particular, it is useful to provide a chimney 31 which extends through the insulation 30, around which the pump loop 13 ″ is wrapped and which is in good metallic connection with the, for example, tubular cooker 13. Suitably, highly thermally conductive metal masses are poured between both tubes so that chimney and boiler with large surfaces to each other in metallisehen \ ^r genetic binding sites.

The rich liquid lifted by the pump loop 13 ° in the exemplary embodiment is degassed by the supply of heat in the cooker 13, which is designed as a relatively narrow tube, and flows through a ^ V line 20 to the temperature changer 12, which is similar to the cooker from an insulation 32 is surrounded. This insulation can expediently consist of cork or the like, while the insulation of the digester 13 and the pump loop 13 ″ is expediently designed as foil insulation or as vacuum insulation in order to have the lowest possible heat capacity the upper part of the storage vessel ii ″. The part ii ″ of the storage vessel consists in the exemplary embodiment of a cylindrical vessel which is connected ^{to the lower part of the storage vessel 11 * by two lines n c} and n *. This lower part ii ⁶ is also designed as a cylindrical vessel parts II ^a and II ⁶ of the absorbing solution contained storage vessel may be a cooling device to be exposed, which is exposed to both the cooking as in the absorption period the continuous influence of an external cooling means. in the exemplary embodiment, therefore, the parts' and provided with cooling fins 33 ii ⁶ which are offset in the \ ^r ertikalebene against each other, such that the cooling fins of both the vessel ii ⁶ and the vessel ii "with natural ventilation fresh air obtained. in the embodiment, therefore, the required for removing the heat of absorption from the apparatus cooling means 33 is right at the Storage vessel ii "attached. From the lower part ii ^{ft of} the storage vessel, the rich solution is conducted through line 19 via the insulated temperature changer 12 to the pump loop 13 ″ and from there raised to the digester can be provided in a manner known per se with insert plates 34 and optionally with cooling plates 35, but any other rectification arrangement or other device that prevents the liquid from boiling up in the narrow digester tube can also be used which is provided on the outside with cooling flanges yj and on the inside with perforated insert plates 38. Two lines 39 and 40 are led from the vessel 36 to a lower-lying vessel 41, namely the line 39 generally opens into vessel 36 at a slightly higher point than the line 40. Also in the vessel 41 is the mouth

645 Oil

place the line 39 higher than that of the line 40, which must in any case be pulled down under the confluence point of the line 39. During operation, a certain amount of liquid, which consists mainly of absorbent and which collects on the insert plates 38, condenses in the vessel 36. Excess amounts of liquid flow into the vessel 41 and collect there. These excess quantities can be dewatered through a line 42 after the storage vessel, for example after the line n ^d. The amount of liquid collected in vessel 41 has a purpose to be discussed later. From the vessel 41 ', the vapors expelled in the digester pass through a line 18 to the condenser 14, which can be designed in any known manner. In the exemplary embodiment, the refrigerant liquefied in the condenser runs by itself into the evaporator 15, the upper part 15 ° of which, which represents a collecting container for the expelled condensate, is expediently insulated by an insulation 43. In the exemplary embodiment, the actual evaporator 15 * protrudes downward from this part 15 ° of the evaporator into the cooling space, for example a refrigerator. In the exemplary embodiment, this actual evaporator is designed in the form of a cylindrical vessel 44, from which pipe coils 45 pull downwards in a known manner, into which ice boxes or other objects that need to be cooled quickly can be inserted. However, any other type of vaporizer can also be used without affecting the essence of the invention. The evaporator is expediently provided with an automatically acting drainage device. The automatic drainage of the evaporator is also not a fundamental requirement of the invention. Rather, the drainage can also be done by known manually operated or periodically controlled valves. In the exemplary embodiment, the automatic drainage of the evaporator is achieved by a U-tube 46 which opens into a vessel 47. Since the water remaining in the evaporator in an absorption period is heavier than the newly arriving ammonia of the next boiling period, the remaining water is at the lowest part of the evaporator and is therefore pushed up the tube 46 when the new filling is made until it is at the end of the next boiling period overflows into the container 47. This overflowed water is drained through a line 48 after the pipe 18, vessel 41 and line 42. However, this line 48 can also be led directly after the liquid in the storage tank 11 or to any other unheated amount of liquid. However, the drainage can also take place in any other way.

The formation of the evaporator and the rectification arrangement 34, 35 in the line 16 and the vessel 36 can be designed as desired. It can, for example, at Place the rectifying arrangement shown, the rectification of the coming from the cooker Before it enters the condenser through its own condensate, or the cooker vapors can be bubbled through rich or poor absorption solution, as shown in the vessel 41, brought and thereby rectified or else by other heat exchange with rich or poor solution. The upper part of the evaporator can, as shown, be isolated, advantageously an isolation of less Heat capacity, e.g. B. foil insulation or vacuum insulation is used. Any other means can also be used used to prevent uncondensed 85 during the boiling periods Refrigerant vapor enters the evaporator and heats it up. For example, the vaporizer be partially filled with an auxiliary liquid that is lighter than the refrigerant, so that this liquid becomes parts 44 and 45 of the figure during the cooking periods fills, but gradually displaced towards the top by the running in of the condensate will.

As soon as the heating is turned on in the apparatus shown, because of the 'small amount of liquid that has to be heated in the cooker, a strong evolution of gas from this small amount of liquid will immediately occur, so that only a short time elapses before the first refrigerant vaporizes step to the condenser. Since the absorption of heat by means of the cooling fins 33 continue generating cooling element, that is the actual absorption heat releasing absorption site 11 ^a is formed as a storage and liquid filled during the cooking period, can no condensation or absorption of boiler steam to enter therein. Rather, the liquid in the line 42 represents a seal that keeps the cooking gases away from cold absorption solution and ensures their immediate routing to the condenser, so that this is fully utilized from the beginning to the end of the cooking period. Through the circulation device, i.e. either through the thermosyphon effect of the cooker, which is caused by the specific weight difference between the liquids in the cooker and storage vessel and the lines connecting them, or, as shown,

The gas bubble pump 13 ^s gradually replaces the degassed contents of the digester, and the heat absorbed by the liquid in the digester is used in the temperature changer 12 to preheat the new rich solution flowing to the digester. The poor solution emerging from the temperature changer into the storage vessel is in the exemplary embodiment withdrawn from the heat taken from the cooker by the cooling device 33, which removes the heat of absorption in the absorption periods, so that a certain part of the circulating solution is always ready for absorption and so the cooling device 33 is constantly used. If all of the ^{solution contained in parts n a} and ii ^{6 of} the storage vessel and in the temperature changer 12 is sufficiently degassed, for example from its original concentration of 40% to 18%, for example, then in any known manner, for example by a thermostat system, which in an in a known manner either by the temperature or the pressure in any of the apparatus parts is controlled, the heating is turned off.

As soon as the heating is switched off, the pressure drops very quickly because of the cooling flanges 37 in the vessel 36 and, in the exemplary embodiment, also through the cooling flanges 35 in the line 16, especially since the content of the digester is extremely low in relation to the overall system. The lowering of the pressure in the line 16 and in the vessel 36 has the consequence that the liquid rises from the vessel 41 into the lines 39 and 40 and thus automatically creates a pressure column in the connecting line between the evaporator and the evaporator gas that locks the way to the boiling point the cooker or the apparatus parts cooled by the cooling fins 37 and 35, on the other hand, when the heat supply to the apparatus changes or when the period changes. The upper part ii ″ of the storage vessel is connected via a line 49 of small diameter to an equalization vessel 21, which is expediently cylindrical and is surrounded by any insulation jacket 50 , the volume of which is suitably smaller than that of the storage vessel. From the upper part of the vessel 21 a line 51 leads to the gas chamber of the digester or to the pressure area of the vessel 36 Not shown or open above the bumpers 34. This line has the effect that the pressure above the level of the expansion tank 21 in the boiling and absorption periods is just as great as the pressure above the expulsion point Apparatus area by at the Abstel len the digester heater, the pressure drops quickly, as z. B. is achieved by the vessel-like enlargement 36 in the embodiment. This compensating vessel 21 ensures that the pressure drop in the area of the vessel 36 and the line 16 is transferred to the vessel 21 and thus to the storage vessel 11.

As soon as the boiling period is completed and the pressure drop occurs in the vessel 36 and thus simultaneously in the cooker 13 and the equalizing vessel 21, gas flows out of the evaporator, which generates cold when it is generated, as the way to the cooker is through the liquid lock 39, 40 is locked, from the evaporator via line 18, vessel 41 and line 42 to line n ^d and bubbles up in line n "*. The columns of liquid arising in lines 39 and 40 counterbalance the pressure Gas entering the upper part ii ″ of the storage vessel is quickly absorbed since the solution in both parts 11 ″ and ii * of the storage vessel was already cooled during the heating period. The absorption and thus the cooling capacity begins much faster than was possible with machines of the previous type, in which the entire amount of absorbent had to be cooled down from the digester temperature to the absorption temperature. The refrigerant vapors entering the uncooled line ii ¹ * cause the absorption solution to circulate during the absorption period from the part ii ^{6 of} the storage vessel, which is only used as storage, through the cooling device of the actual absorption point, which in the exemplary embodiment is formed by the upper part ii ° of the storage vessel. The refrigerant vapors also cause the solution to circulate between parts ii ″ and ii ⁶ via line ii ^c . During the absorption period, the storage vessel 11 thus represents a self-contained circulation system that differs from the circulation system operated by the thermosyphon 13 ″ during the cooking period , in which the refrigerant vapors coming from the evaporator come into constant contact with new poor solution because of this circulation. The heat of absorption that is lost is dissipated by the cooling device 33, which is constantly exposed to air cooling, but

The cooling of the absorber as well as that of the condenser 14 can also take place by water cooling or indirect cooling systems. Appropriately, the confluence points of the lines n ^ä , ii ^c , 19 and 20 in the storage vessel are chosen so that during the absorption periods in the line ι i ^d from below only solution enriched therein can enter when the entire contents of the storage vessel have already become rich is, and that during the boiling periods at the mouth of the line 19 poor solution can only come when the entire remaining contents of the storage vessel is already poor, so that no or as little mixtures of the absorption solution arise in the storage vessel itself. This can be ensured, for example, that the storage vessel itself, instead of, as shown,

to consist of two cylinders with connecting pipes, in the form of a single vessel, its content z. B. a certain path is prescribed by perforated partition walls, is or is designed in the form of a pipe spiral, the diameter of which is so narrow, that no mixtures of the two solutions can occur in the storage vessel.

In particular, the line 49, which creates an open fluid connection between the storage vessel 11 and the compensation vessel 21, is expediently made of such a narrow diameter that no convection currents can arise between the storage vessel and the vessel 21. The content, in particular the liquid level of the vessel 21, therefore does not take part in the circulation of the absorption solution, but is withdrawn from all flow movements. The equalizing vessel 21, which can be located at any point in the liquid circulation, but according to the invention should be spatially and thermally separated from the cooling point of the apparatus, ie the cooling flanges 33, initially has the above-mentioned purpose of reducing the pressure between the cooker level when the cooker heating is switched off ^{and the vessel 41 arises, to be transferred to the storage vessel and, to a certain extent,} to facilitate the evaporation gas tearing open the liquid lock in the line 42 and the way to the absorption point n a through this suction effect. The vessel 21 also serves to accommodate the level fluctuations of the liquid that occur during degassing and absorption. While, as mentioned, the apparatus was originally filled to level line I, the level in vessel 21 sinks to level line II during the expulsion. The amount of liquid corresponding to this level difference is again in the evaporator as a liquid refrigerant at the end of the expulsion period. In other words: During the boiling period, the actual absorption point ii ° is separated from the gas space of the cooker by two columns of liquid 42 and 21, one of which, 42, is made to tear open when the period changes, while the other, 21, corresponds to the boiled or boiled-off temperature. reabsorbed amounts of refrigerant fluctuates and is kept above the condensation temperature of the refrigerant vapors during the boiling period. The vessel 21 is surrounded by a thermal insulation jacket 50. It is therefore kept at an intermediate temperature between the expulsion and cooling temperatures during the cooking periods. However, it can also be brought into heat-exchanging connection with the line 16, which is an extension of the digester. In any case, it must be kept at a temperature high enough, if necessary by additional heating, to prevent condensation of the digester vapors flowing through the line 16.

When turning off the heat supply to the cooker occurs, as mentioned, because of the automatic Formation of the liquid lock 39, 40 a negative pressure in line 16 and in the Vessel 36 because of the condensation of the vapors contained in these rooms. Will the rectification arrangements, as shown, with the help of on from the altitude of the digester level arranged push plates 34 or insert plates 38 of such a nature that they can be used as storage devices for during the sub-temperature cooking period of the cooker held absorption solution serve, so conditioned by the constant Cooling of these plates with the help of the external air cooling fins caused temperature reduction who stand on the plates, both from the stove top and The absorption solution different from the solution contained in the storage vessel Rapid drop in pressure, since, in addition to condensation, there is also absorption of Cooker fumes take place on these plates, no intimate contact with the cooker fumes with the solution guarantee. This pressure increase causes the entry of evaporator gas into the circulation device i'i * and, as mentioned that from the vessel 41 liquid in the lines 39 and 40 is pushed up so that a liquid lock between the evaporator on the one hand and the cooker 13, the compensation tank 21 and the Plates 38 stored absorption solution "o is created. The evaporator gas, however another way, namely through line 42

to absorption solution different from the solution standing on the plates 38, namely the solution contained in the storage vessel 11 is opened. To with rapid pressure reductions in the system of vessels 36, line 16 and in the digester ensure that not the liquid can be ejected from the liquid lock 39,40 and for Kocher runs back, the vessel 36 ίο is firstly provided with the insert plates 38, which a Prevent the liquid from flowing back to the digester, and furthermore the pipe 40 connected to the vessels 36 and 41 in such a way that if the Liquid closure through line 39, the expelled liquid through line 40 can flow back and re-establish the liquid seal.

The vessel 41, the contents of which is a permanently maintained liquid lock between the gas space of the equalization vessel 21 and the condenser and / or evaporator, can either receive its contents by condensation of vapors coming from the cooker or, as shown in the figure, in arranged at a height which corresponds approximately to the level line I, so that it is immediately charged with solution when the apparatus is filled. As can be seen, the vessel 41 is connected through line 18 to the evaporator, through lines 39 or 40 and line 16 with the digester and through line 42, which also serves as a drainage line for the vessel 41 and, if necessary, for the automatic evaporator drainage (line 46, vessel 47 and line 48) is connected to the storage vessel. After the end of the boiling period, the evaporator gases that pass through line 18 not only push the solution contained in vessel 41 up through lines 39 and 40, but they also push the solution in line 42 into storage vessel 11, so that the line 42 is liquid-filled in the boiling period, but gas-filled in the absorption period. The amount of liquid in the line 42 pressed into the storage vessel leads to a slight increase in the level in the vessel 21 and in the digester, the level of which tends to rise as a result of the negative pressure in the vessel 36 and in the line 16. In other words, the actual absorption site 11 "has two connection paths to the evaporator, of which one {\ i ^d, 42, 41, 18) during the cooling period \ ^'T erdampfergas leads to the absorption site, while the other path (49, 21 , 16, 36, 39, 41, 18) contains means, which in the exemplary embodiment exist in the liquid column 39, 40, which independently maintain the pressure difference between the absorption point and the evaporator Connection path can also be understood as a connection path between the evaporator and the cooker.

Temporarily, a can also occur in the line 18 and in the capacitor 14 Short-term negative pressure occurs when the vapors contained therein condense. However, the pressure here can never fall below the condensation pressure of the refrigerant at the temperature prevailing in the upper part of the evaporator 15.

If the pressure in the vessel 36 and in the line 16 has dropped far enough, evaporation occurs in the evaporator, and these vapors will tear open the liquid seal of the U-tube formed from the lines 42 and 11 "* and enter the line n "* occur where they act as a gas bubble pump and cause a strong circulation in the circulation system of the absorption period, in which other amounts of liquid circulate than in the boiling period, since in the exemplary embodiment the contents of the digester do not participate in the circulation of the solution during the absorption period. Some of the conveying vapors are already absorbed in the leg n ^{d of} the U-tube. This absorption as well as the further absorption of the evaporator gases in the absorption solution contained in the actual absorber element 1 i ^a and thermally separated from the absorption solution on the plates 38 causes a further pressure reduction in the apparatus beyond the pressure reduction introduced by the plates 38. The pressure column III 'between the evaporator and the cooker arising in the lines 39 and 40 because of the negative pressure in the vessel 36 and in the line 16 assumes a value that is greater than the pressure difference between the evaporator and the absorption point and greater than the pressure column III, which represents the difference between the liquid level in vessel 21, which is kept above the condensation temperature of the cooker vapors during the boiling period, and the opening of line 42 into line n **. In other words: The pressure in the evaporator is greater than the pressure above the level of the equalization tank 21 during the absorption periods. The pressure difference between ΙΙΓ and III represents the pressure with which the evaporator gases are pressed into the storage vessel or the absorption element and the circulation effect of the absorption solution.

Characteristic of the apparatus according to the invention is, as can be seen from the above, that the changes in the heat supply to the apparatus occur in it-

the internal changes of state cause a displacement of liquid columns 42, 21, 39, 40, which have different positions during the cooking and absorption periods and thereby dictate different ways for the gas circulating the absorption solution of the storage vessel in both periods - / What the size dimensions of the As far as individual parts of the apparatus are concerned, it should be mentioned that the evaporator or evaporator plus condensate collecting tank can hold 1 kg of ammonia, for example. Accordingly, the size of the storage vessel should be designed in such a way that it expediently contains at least 3 kg of poor solution. The vessel 21 is to be designed so that it can absorb the level difference of ι kg ammonia and the evaporator automatically drains before the vessel 21 is emptied. The digester is expediently designed so that it contains about Y _{10 of} the volume of the storage vessel. However, the digester volume can be even smaller with respect to the storage vessel and temperature changer, for example ^χ / ₂ o ^{un <} i contain even less of the storage vessel volume. The greater the difference is made between the volume of the cooker and the storage vessel, the faster the expulsion and absorption periods can alternate, since in an apparatus according to the invention both the cooking begins immediately when the heating is switched on and the absorption immediately after Switching off the heating begins because large amounts of poor solution at absorption temperature are already available ready for absorption when the heating is switched off. The periods can therefore be repeated several times a day, e.g. B. all

<to half an hour, change, i.e. almost the same be long, or it can be a short cooking period of e.g. 15 minutes An absorption period of several hours follows until all of the refrigerant is driven out has evaporated. Such any change in the length of the cooking periods is made possible a simple regulation of the cooling capacity.

The invention is not limited to the illustrated embodiment. It can any evaporator design, any rectification device as well as other known improvement of the schematic in intermittent apparatus Drawing use. The storage vessel that is used during periods of absorption in the exemplary embodiment also serves as an absorber and a self-contained liquid circulation system can also be used in continuously operating machines Find.

Claims (15)

Patent claims: i. Process for the accelerated reduction of the pressure and the evaporator temperature at the end of the cooking periods of intermittent absorption chillers with circulation of the solution between a periodically heated cooker and an unheated one Storage vessel through absorption of the hot cooking vapors in absorption solution, thereby characterized in that in addition to the liquid surface of the digester and / or that of the storage vessel, additional amounts of liquid of a lower temperature than that of the contents of the digester vessel, that between the digester and Storage vessel circulating liquid are in constant open connection, to this be used to absorb cooker fumes at the end of the cooking period. 2. The method according to claim 1, characterized in that the pressure reduction initial absorption solution is constantly cooled appropriately by air. 3. The method according to claim 1 or 2, · characterized in that for initiation the pressure reducing solution is used, which was used for rectification purposes during the cooking periods. 4. The method according to claim 2 or 3, characterized in that the Absorption solution that absorbs digester gas automatically during the absorption periods from the evaporation point is closed by a liquid lock. 5. The method according to any one of the preceding claims, characterized in that the pressure reduction caused by absorption of the cooking gases of evaporator gas in a solution that is thermally separated from the aforementioned absorption solution (e.g. that of the storage vessel) is reinforced. 6. refrigeration apparatus for performing the method according to claim 1, characterized by one or more storage devices (38, 34) provided with cooling devices for absorption solution in the path of the gases passing from the cooker to the liquefier during the cooking periods. 7. Refrigerator according to claim 6, characterized in that the storage device (38, 34) is designed in such a way that it serves as a rectifier of the cooking gases during the cooking periods. 8. Refrigerator according to claim 6 or 7, characterized by a liquid lock between the evaporator and the Absorbent solution in the storage device. 9. Refrigerator according to claim 6, 7 or 8, characterized by a connecting line between the evaporator and an absorption solution separated from said stored absorption solution containing container. 10. Intermittently working absorption chiller for carrying out the method according to claim 1, characterized by the use of absorption solution from the surface of the heated cooker and the unheated, stored solution is different and colder than the contents of the cooker, for absorption the cooker vapors after the end of the cooking period. 11. Refrigerator according to claim 10, characterized in that the for Pressure reduction serving absorption solution is combined with the hot cooker vapors in such a way that a intimate contact of the gases with the liquid occurs speed by z. B. the liquid Plates with a large surface wetted. 12. Refrigerator according to claim 10 or 11, characterized in that the serving to lower the pressure absorption solution is arranged at a different altitude than the digester level. 13. absorption refrigeration apparatus for carrying out the method according to claim 6, characterized in that in addition to the storage devices (38, 34) for immediate Reduction of the cooker pressure at the end of the cooking period a heating coil (13 ") intended for immediate expulsion at the end of the absorption period is. 14. Refrigerator according to claim 6, characterized in that both in the Cooking as well as in the absorption periods of the apparatus that part of the Absorption solution, which is used to reduce the pressure on the cooker after the end of the cooking period serves, the action of a constantly effective cooling device, z. B. is exposed by cooling flanges. 15. Refrigerator according to claim 13, characterized by a closure that keeps the cooking gases away from cold absorption solution and their immediate management to the condenser, so that it is fully utilized from the beginning to the end of the cooking period. 1 sheet of drawings