DE864260C - Absorption refrigeration machine - Google Patents

Description

Absorption chiller It is known that the refrigeration capacity of Absorption chillers working with auxiliary gas are reduced by the amount of heat is used for cooling the gas temperature changer in the evaporator incoming auxiliary gas must be used continuously. These cold losses are directly proportional to the amount of inert gas circulating. A low temperature of the evaporator, requires a: large: amount of inert gas, while at higher Evaporator temperatures lower amounts of internal gas are required: are :. The end. This theoretical knowledge shows that it is the case with absorption chillers It would be extremely advantageous to regulate the gas circulation so that it is the desired Evaporator temperature and thus only as much gas circulates as necessary, to discharge the expelled amount of refrigerant. If such a regulation succeeds, so will the. available refrigerant # amount completely used., during At the same time, it is avoided to lose more cooling capacity than is inevitable.

The subject of the present invention is an absorption refrigeration machine, at what measures are taken to: the circulating amount of lean gas in the to automatically regulate the optimal ratio to the circulating refrigerant volume. It is known that it is not possible in absorption machines to circulate gas to arrange mechanical valves. Such valves would corrode in a short time impaired in their function. On the other hand it is Maximum of possible gas circulation limited by the tube dimensions. So there is nothing left other than with the aid of liquid closures acting as valves to limit the amount of gas circulating to a minimum. In, Absorptiomskältemasc: hinen liquid closures were already used for regulating purposes. These constructions but should only virken for the drainage of the poor gas, which is unavoidable Throttling or temporary redirection of the poor gas is so slight that regulation as it is the task of the present invention is excluded.

The absorption refrigerator according to the present; Invention, at which liquid closures influencing the gas circulation are provided in that the pipeline leading from the absorber to the evaporator is inside des- Gaswärmeaüstanschers has an opening which opens into a space through a gas heat exchange arranged on this pipe against the wall conically tapering sheet metal jacket that leaves a slot is formed, that furthermore the pipeline leading from the absorber into the gas worms; tawscher in such a way. inserted in the gas heat exchanger. is that, get in it. liquid present accumulates, closes the slot of the sheet metal jacket and diamit a flow of; poor Prevents gas from returning directly to the absorber.

In the drawing, an example of an embodiment is the subject matter of the invention shown. Esi. Shows fit. i an absorption: refrigeration system in schematic Arrangement, fit. z a section through the heat exchanger, 'Fig. 3 is a perspective View of a detail of the Wärmaaustawschens, Fig. 4 shows a section. the line I-I in Fig. A. In Fit. i is denoted by i the cooker, the one above the water separator a is connected to the condenser 3. The condenser line leads from the condenser 3 4 to the evaporator 5 and into the gas heat exchanger 6. The gas heat exchanger 6 is via the line i i and the absorber 12 with the absorption container 13 tied together. The Abso.rptionsmittelleitungen are with 14 and 17 and, the liquid heat exchanger designated by 15. On the cooker i is the TheTmosiphon pump 16, which in; the riser pipe 18 opens, provided. The mode of operation of such systems is generally known, so that a description is superfluous.

In the fit. 2 to 4 is the special training this the! Gas circulation Controlling liquid valve shown in more detail. That, through the gas heat exchanger 6 poor gas coming from the absorber should normally go through; Pipe 8 to, evaporator 5 flow, there through the evaporating refrigerant, which flows through the line 4 is supplied, loaded and, now, as, rich gas in heat exchange for poor gas flowing in the opposite sense. through the pipe 6 and, i i to the Absorption vessel 13 and absorber i2 flow ..

But now in the line 8 within, the gas heat exchange @ ers an opening 9 is provided which opens into a Rauar formed by a sheet 7 will. This sheet metal extends close to the wall of the gas heat exchanger 6 and leaves one; Slot io free. Furthermore, the line ii is in such a way in the gas heat exchanger inserted that s, ie; for ixn gas heat exchangers located ;: liquid one Congestion results. The storage height i ia is chosen so that @ the slot io at the highest. Liquid level is completely closed by the jammed liquid. The gas heat exchanger is expediently installed inclined in the apparatus so that it can be installed a continuous closing or opening. of the slot. io by itself. jam end or discharged liquid takes place.

Essential - for the rapid regulation of the gas circulation and thus avoidance of losses is also that the opening. 9 approximately the cross section of the pipe. 8th corresponds and the cross section of the slot io a multiple of this cross section amounts to. Due to the large cross-sections, the large amounts of gas, allow passage, adjustment is ensured in the shortest possible time.

The mode of operation of the device according to the invention is briefly as follows: As soon as the liquid seal that closes the Schlitiz io is missing, occurs. Low gas flows out through the opening 9 and the slot and: flows up. the direct Way to the absorber. This has the effect that part of the refrigerant is now not evaporated by the The evaporator flows into the tube 6 of the exchanger until the liquid level is reached is refilled and the slot io is closed again.

It is achieved with the device shown that in the evaporator there is always only as much poor gas as is necessary to evaporate the inflowing gas Liquid at a certain evaporator temperature. Only a small one remains Remainder that is used for level formation and that by slow evaporation in the Auistaufscher contributes to the cooling of the latter.

With the object: the present invention makes it possible to achieve the Cooling capacity of absorption machines; to keep it at an optimum.

Claims (1)

PATENTANSPRL`CH1 :: i. Absorption chiller, in which at least a liquid seal influencing the gas circulation is provided, thereby characterized in that the pipeline leading from the absorber to the evaporator is within of the gas heat exchanger has an opening formed in; a space opens that by one arranged on this pipe against the wall of the gas heat exchanger conically tapering and leaving a slot free Sheet metal jacket is formed that also the pipeline leading from the absorber into the gas heat exchanger is inserted into the gas heat exchanger that there is liquid therein accumulates, closes the slot of the sheet metal jacket and thus a flow of poor Prevents gas from returning directly to the absorber. Absorption chiller according to Addressed i, characterized in that, ß the in from the absorber to the evaporator leading pipeline opening provided approximately corresponds to the cross section of this pipe. Absorption shelling machine according to claim 1, characterized in that the OOu section of the slot of the line leading from the absorber to the evaporator Sheet metal jacket a multiple of this. The cross section of this pipeline is: d .. Absorption refrigeration machine according to claim i, characterized in that the gas heat exchanger is installed with an incline in the unit, so that a continuous opening and closing of the slot is carried out by liquid accumulating in the gas heat exchanger. Absorption refrigerator according to claim i, characterized in that the through the pipe leading from the absorber to the gas heat exchanger, for liquid in the gas heat exchanger so, high. is chosen that a complete closure of the slot is guaranteed.