DE519897C - Periodically acting absorption refrigeration machine - Google Patents

Description

Periodically acting absorption refrigeration machine It is known, a pipe for the return of the liquid residue from the evaporator into the cooker absorber to be provided for periodic absorption chillers and such a return caused by liquid pressure, which results from the difference in the liquid level in the cooker absorber, so that liquid overflows:; t, when the liquid level in the v. vapor? - was higher than the highest point of the pipe and until the liquid level was below the point at which the pipe connected to the gas return pipe was. Such recirculation took place at the beginning of the cooling or absorption period.

In contrast to the known arrangements, the invention is characterized characterized in that the tube when it is closed by a liquid in the cooker absorber at the beginning of the heating season, is also independent of the other pipes, so that at the beginning of the heating season the vapor pressure will cause .that the liquid in the pipe from the cooker absorber and evaporator rises and the return of the liquid residue after the cooker absorber.

In the drawing, the subject of the invention is for example shown; It shows: Fig. i a side view partly in section of a device according to the invention, Fig. 2, 3 and d. similarly modified embodiments.

The same parts are denoted by the same reference numerals. i denotes a cooker absorber, 2 an evaporator, 3 a feed pipe. that of the cooker absorber after the evaporator, and q. a return pipe through which the ammonia gas is routed from the evaporator to the cooker absorber. Corresponding parts of the supply pipe 3 form a water separator 5 and a condenser 6; the former is than one Part of the pipe, which is inclined downwards towards the cooker absorber is, and the latter is drawn as a coiled pipe. Both parts, the water separator and condenser, are located within a container or housing 7. This is provided with a filler neck 8 and should be permanent, expediently as far as its capacity enough, a coolant, e.g. B. water included.

In every form of training, the supply pipe leads downwards the top of the evaporator to a point near the bottom so that, as long as there is actually any liquid in the vaporizer contain is, this-, liquid the pipe against the escape of ammonia gas from the evaporator concludes. The advantage of this facility should be explained. In every embodiment the bottom of the evaporator is expediently designed so that it has a collector or Has container into which the outlet end of the supply pipe is immersed and .in the the liquid precipitating in the evaporator as a result of gravity itself accumulates. While the bulbous bottom wall of a spherical or horizontally arranged cylindrical container or similar embodiment largely serves the purpose would satisfy is shown in Figs. i, 2 and q. a collector 2a is provided, which takes the form a bulge on the bottom wall of the evaporator.

The cooker absorber has expediently heat-dissipating parts io, which similar in shape and purpose to the cooling fins of air-cooled engine cylinders are; the space surrounding the cooker absorber is shown as in the vertical direction running and is indicated by dash-dotted lines and with the reference symbol ii denotes. The evaporator is in the cooling section, which is also marked with a dash-dotted line Lines indicated and denoted by 12. The invention also consists in one Cooker absorber element, which, as in known arrangements, consists of: separate chambers or containers in which the corresponding processes of expulsion and Absorption are carried out.

An oil burner 15 is arranged below the cooker absorber, expediently one without a wick; the oil flows to him through a pipe 16 from a container 17 into which a bottle 18 or the like can be inserted in the reverse position. This fuel tank has enough capacity to hold enough oil to provide the heat required to create a cycle. The user may conveniently have a number of such containers so that the refilling of fuel for each use consists of replacing the empty bottle with a full one.

In each embodiment of the invention, a suction device is provided, which is designated generally by the reference number 20. In the various embodiments he is trained differently. This teat forms the means to the iso-absorber the liquid left in the system's evaporator after each cooling period traced back. The action of the sucker will be described later.

In the embodiment according to Fig. I, a is above the evaporator Gas dome 25. The end of the outlet tube facing down is through its cover 3 arranged. This end ends in the collector 2a at the bottom of the evaporator. The short Leg of the suction cup 2o is also passed through the upper part of the gas dome 25, and its receiver end is located inside the collector 2a. The long leg of the nipple is shown as it is in the supply pipe 3 essentially in the horizontal plane of the upper part of the gas dome opens and then down through the pipe goes through it and a suitable piece hangs down in the cooker absorber .. It should be noted that, as far as the mode of operation of the device is taken into account, the long leg of the teat does not have to enter the supply pipe, but that it can be directly connected to the cooker absorber. The return pipe q. is at one end with the upper part of the gas dome 25 in connection, and the opposite end extends down through the cover of the cooker absorber and ends inside, this container below the lowest liquid level, which is indicated by the dotted line a. One sleeve. 27, the may be the same in all embodiments, encloses the outlet end of the return pipe and is suitably within the cooker absorber at a distance from the floor of the container arranged. The purpose of the sleeve is explained in the description of the operation set out.

The system is hermetically sealed and contains a lot of Ammonia water or an equivalent refrigerant. There is all of the liquid in the digester = absorber i, it has about a height as indicated by b. Around To put the device into operation, a bottle of i8 with C`51 is turned into the cup 17 is inserted and the burner 15 is lit.

The fuel supply is as previously stated, and it is practically consumed during the heating season. During this period -the increases Pressure within the system. The steepest increase in pressure occurs in the first few hours the heating season. If the heat supply stops, d. H. after the fuel supply has stopped, the temperature of the cooker absorber and the pressure fall immediately in the system. During the supply of heat, the ammonia in the cooker absorber is removed expelled of the solution and rises as vapor through the supply pipe 3. When passing through the part of the pipe which: forms the water separator marked 5, all or the largest percentage of the co-evaporated water is condensed and flows back into the cooker absorber. The ammonia gas goes on through the part of the tube which forms the condenser and condenses therein; the The resulting liquid ammonia is fed into the evaporator 2.

At the end of this period, the evaporator will contain the maximum amount of liquid, the liquid level of which is indicated by the dotted line c is, and this amount of liquid can be a relatively small amount of all water condensate as it is practically impossible to completely dehydrate the ammonia gases to obtain.

The cooling period begins when the full supply of heat is stopped. She lotters until the next heating season begins. As previously stated, falls the pressure in the S% -steiri suddenly when the supply of heat to the cooker absorber ceases. Under these conditions, the liquid ammonia begins to evaporate in the evaporator, namely under your feet of the surrounding relatively iv.arine air in the cooling container 12: under your little now in the system lierrschendei) Pruck absorbs the water 4in the cooker absorber the ammonia vapor through the return pipe .1. The transition of the gas from the Verclanipfer to your cooker absorber through the return pipe ensured by the fact that the Auslaßenrle of the supply pipe 3 by liquid Ammonia is sealed in the evaporator, and .this seal remains effective, until the liquid level drops below the end of the tube 3. This @r conclusion, which, as can be seen from \ "locality, the escape of steam from the evaporator through the supply pipe via the condenser and water separator after the cooker absorber prevented, is made particularly effective in that a considerable part of the supply tube is enclosed in the evaporator near its outlet end is and therefore not against the influence of the relatively warm air inside the hühlkaininer is protected, but also by the evaporation of it within of the vaporizer, the surrounding amnionia is kept cool. It is easy it can be seen that if this part of the supply pipe is the "poorer surrounding Exposed to air, the liquid ammonia it contains would immediately turn into gaseous form and would produce a flow through the feed tube that is desired Direction is opposite.

When the ammonia vapor comes out of the outlet pipe of the return pipe leaks, it is immediately absorbed by the solution in the cooker absorber. This will the solution that is near this end is frozen, and the enriched one or relatively strongly concentrated liquid has the aspiration (because of its due to the ammonia content of low specific weight compared to the weaker concentrated liquid), inside the sleeve 2; to ascend; it disfigures consequently an upward flow of liquid in the sleeve, and this Circulation lasts as long as Ainnionialcdalilpf is supplied from the vaporizer. This causes a very low absorption.

Because of the use of the sleeve 2; is very little immersion of the return pipe into the liquid of the digester absorber possible, and it becomes at the same time a good mix is achieved. As a result of the small amount of liquid. which consequently remains in the outlet end of the return pipe is the gas pressure in, this tube and in the evaporator, which has a certain ratio to this liquid possesses 'considerably lower than it would otherwise have to be', and this fact on the other hand produces a relatively low level in the outlet end of the supply pipe Liquid ammonia liquid level. The resulting benefit is there in that the liquid ammonia that is so deep in because part of the supply pipe stands -that it is enclosed in your vaporizer, effective against the proportionally. warm air surrounding the evaporator is protected and not in the slightest evaporates. As a result, it is also not diluted and does not give rise to bubbles in the free part of the pipe, but the Alamon.iak is in a heavy, dense, liquid state, which improves the liquid seal.

During the evaporation of the liquid ammonia and during the itself resulting absorption of heat from the surrounding air in the cooling chamber ) 2 the temperature of this chamber is lowered accordingly, and this temperature is with fluctuations that are less than 10 °, during the entire operating time held; it is highest at the end of the heating season and lowest roughly in the middle between the subsequent absorption periods.

During the first stages of the heating season, as soon as the pressure is within of the system rises fastest, some of the liquid contained in the evaporator 2 pressed into the short leg of the suction cup -2o, and part of the ini cooker absorber contain solution, which at that time has a fluid level roughly in hell the dotted line b, pressed in the same way .in the long leg. The amounts of liquid reach within the two legs or meet within the horizontal part of the teat. The coolant vapor, which is present in this part is absorbed by the liquid and becomes as a result of absorption, the separate columns of liquid attract which strive are to make a band of fluid from one end of the teat to the other. As soon as this condition prevails, there is suction in the direction of the generator sucker produced which any residual liquid that then exists in the evaporator is moving over into the cooker absorber. The effect is by lowering the liquid level interrupted in the evaporator below the inlet end of the nipple. As soon as the sucker is out .the evaporator has extracted the entire mixture of solvent and refrigerant, this process is not repeated until the next heating period is printed again increases, and then only if there is a residue of liquid in the evaporator is.

It should be noted that before the start of the heating season, the pressure .im the whole system including the suction cup 2o is practically the same. As soon as however the cooker absorber is heated, the vapor pressure rises inside this vessel suddenly, as previously stated, and the pressure is almost simultaneous with negligible Variations communicated to all other parts of the system, including the interior of the teat 2o,. namely via the liquid that is in and around the thighs of the Sucker stands around; d. H. as soon as the pressure rises: he has the aspiration to be within to bring about a pressure equalization of the whole system. As a result, he presses that liquid ammonia mixture that stands in and around the ends of the suction tube, in up the thighs of the teat, and the steam. that between the separated amounts of water .Included is compressed to a pressure level that is essentially is equal to the pressure that prevails in the remaining parts of the device. These Ammonia vapors in a compressed state are easily separated from the ammonia mixture in absorbed at the ends of the teat and consequently have the tendency to separate the Bring together amounts of liquid. Among these and others noted above Due to influences, the liquid takes on a state of continuity within the entire length of the teat at (or comes close to), with the result that the suction is created.

The reasons for the fact that the suction does not reappear at the various stages in the operation of the apparatus arises from the following considerations: Since more than 75 of the maximum pressure during the first 20 ° / a (or the first 2 minutes) of the (one hour ) Heating period are reached, only a relatively small increase in pressure will take place, while the temperature reaches its maximum value in the remaining 8o "/, (or 48 minutes) of the heating period collect, because at the prevailing temperatures the pressure in the system is not yet high enough to generate condensation does not rise high enough in the teat legs to produce an essentially uninterrupted liquid band in the teat note that at the beginning of the heating the pressure of the ammonia vapor, which is enclosed in the nipple between the liquid closures located at both ends, is relatively low compared to the rapid pressure increase in the other parts of the system, while the pressure in the nipple during .the time now to be taken into consideration is essentially the same as that prevailing in the whole system. Furthermore, after this time, during which the pressure rose most rapidly, practically only pure ammonia collects in your evaporator, and this will not exert any suction, because it immediately changes into vapor form as soon as it reaches the relatively warm zone where the suction pipe is V erdampf.er leaves. On the other hand (finite reference to the particular embodiment in the drawing) the liquid in the cooker absorber will be boiled off to such an extent at a relatively early point in the heating season and after the start of the suction that the liquid level in the container is below the long one The legs of the nipple will sink, and this condition will effectively prevent any suction from occurring. This means that there is no risk of part of the liquid aminoniac being withdrawn from the V erdanipfer during the cooling period.

With individual devices and embodiments of the invention, due to the small size and shape of the room in which the device is placed it will be desirable and expedient to place the cooker absorber higher than the evaporator, namely higher than it is shown in the arrangement according to Fig. z. In such a Trap must be the inlet end of the nipple approximately the same Distance should be placed higher as the cooker absorber is placed higher, otherwise the two ends of the nipple would be to each other so that the suction is canceled or vice versa. A compensation device for such a modified device the parts is shown in the embodiments of the invention according to Figs.

In Fig. 2, a closed container 3o replaces the gas dome 25 of the embodiment described above, and a connecting pipe 3i goes from the recess 2d through the upper part of the evaporator 2 up into the container 310 and ends near its upper part. The suction cup 2o is arranged in the same way as in the aforementioned embodiment, in that its short leg goes through the upper end of the container 30 and ends close to its lower part.

The operation of the embodiment described above is essentially the same as that previously described. During the first stages of the heating season (when the pressure inside the system rises rapidly) all of the liquid left in the evaporator after the cooling season is forced through the connecting pipe 31 into the container 30 . From this container it goes up in the short leg of the teat due to the rapidly increasing pressure. A corresponding effect occurs in the long leg of the teat; the further action takes place in the same manner already indicated until the suction cup 2o is filled with liquid at the beginning of the suction effect and practically all the liquid lifted into the container 3o conveys into the Iiocherabsorber. The remaining part of the circuit is the same as described above in connection with the first embodiment of the invention.

Fig. 3 shows a type in which the generator sucker i has substantially the same relationship with the evaporator 2 as in the embodiment described above. This relationship of the two containers is possible due to the fact that a third container 35, which serves the same purpose as the container 3o of the embodiment according to Fig. 2, is arranged above the evaporator. The mode of action here is the same as previously described. In this case, as in the aforementioned embodiments, the outlet end of the supply pipe is immersed in the liquid refrigerant in the evaporator and a liquid seal is thereby established which prevents the ammonia vapor from returning through the supply pipe. The embodiment of the invention according to Fig. Q. differs from the embodiments described above fundamentally in the arrangement of a permanent liquid seal for the end of the teat 2o, which is arranged in the cooker absorber end of the system. This liquid seal has a vessel 38 which is arranged in a suitable manner in an enlarged part 39 of the supply pipe 3, specifically at the point where the latter is connected to the digester absorber i.

If .the device is once in operation, the Liquid in the container 38 at a level above the facing end of the And the amount of liquid in the container is maintained during each heating season verinehrt by condensate that returns from the water separator 5. Like the previously illustrated embodiments, the suction occurs in the first stages the heating season as soon as the pressure within the system rises rapidly the result that the liquid surrounding the opposite ends of the nipple . is pressed by the legs of the same and by the .in the horizontally lying Part of the nipple enclosed vapor that is easily absorbed by the liquid is, is attracted; this causes a permanent band of liquid to be passed over created the entire length of the teat, which is inserted through the long arm into the Vessel 38 sinks and overflows into the cooker absorber. Will once the suction interrupted, the relatively high pressure in the system is applied to the nipple transferred and in it via an accumulation of liquid ammonia within the Evaporator, even after the pressure in the rest of the system begins to drop, maintain. It follows that in this arrangement, both ends of the teat closed by a liquid seal during the cooling period are, an effective safety device is created against the emergence of a Suction during this stage of the cycle.

With i i a channel is referred to, within which .the generator sucker is arranged. The purpose of this channel is twofold. While the burner 15 is in action, it serves to transfer the heat from the burner to the generator suction device to concentrate, and during the cooling period it is used to draw a draft of cold air to generate up on the generator sucker and the temperature of this container to sink faster, so that an absorption of ammonia gas by the diluted Liquid in the cooker absorber is caused. A part of Heat stored within the coolant or water in the container or vessel 7 is radiated into the # upper part of the channel z i, and this heat rises upwards and serves to maintain an upwardly directed current colder Air through the lower part of the duct. The same effect draws cold air in between the lower part of the container or vessel 7 and the upper part of the cooling chamber, which in connection with the cold air rising through the channel i i the endeavor has to lower the temperature of the contents of the container or vessel.

It follows from the previous description that at the beginning the liquid contained in the evaporator automatically every time it is started up is transferred into the cooker absorber. With different values: -At the beginning everyone Commissioning, the system is brought back to the state of the cooling period of the cycle. As a result, no preparation is required to To make the device ready for operation after the device has been assembled and filled and delivered to the consumer. The manufacturer needs after your first time Filling the system does not have to worry about malfunctions, and the user does not need to pay attention to make the device operational.

Claims (5)

PATENT CLAIMS: i. Periodically acting absorption chiller with special outward and return lines for the refrigerant, -marked thereby, that a siphon line (2o) going out from the bottom of the evaporator into the deeper lying cooker absorber opens below its highest liquid level, so that at the beginning of the heating season the vapor pressure is the liquid in the two legs this siphon line (2o) from the cooker absorber (i) and. the evaporator (2), in which it was carried away during the heating season, increases so much that the both columns of liquid collide, whereupon the siphon effect causes the return of the liquid residue from the evaporator to the cooker absorber takes place. 2. Chiller according to claim i, characterized in that the outlet end of the siphon line (2o) between the highest (b) and the lowest (a) liquid level in the cooker absorber lies. 3. Refrigerating machine according to claim i and 2, characterized in that the inlet end of the siphon line (2o) in a collector (2a) at the bottom of the evaporator (2) is located. q .. Refrigerating machine according to claims i to 3, characterized in that that a closed housing (30) or a container (35) above the evaporator (2), which is connected to the evaporator by .ein tube or the like (3i) is, and that the inlet end of the siphon line (2o) .in the housing (30) or the Container (35) lies. 5. Device according to etching claims i to q., Characterized in that that the outlet end of the siphon line (2o) in the digester absorber (i) in a container (38) is, from .dem liquid overflow into the main part of the cooker absorber (i) can, so that a permanent liquid seal for the end: the extension the siphon line (2o) is achieved. G. Device according to claims i to 5, characterized in that the intermediate part of the siphon line (2o) above .des highest liquid level (c) in the evaporator (2).