DE411892C - Method and device for the automatic dewatering of the evaporator of periodically operating absorption machines - Google Patents

Description

Method and device for automatic dewatering of the evaporator of periodically operating absorption machines. In absorption machines - for periodic Operation is well known that from time to time the im evaporator accumulates Water must be driven back to the cooker absorber in order to achieve the cooling capacity to get at a constant height. This has been 'so far through appropriate operation the necessary fittings. For absorption machines for domestic use this is all the more annoying as any maintenance must be avoided here and through Incorrect position of the valves endangers or can prevent operation.

It is . also known a construction, which an automatic Driving the residue in the cooker absorber causes and on the siphon effect is based such that the weight of the excess amount of liquid is above the normal level is exploited. This procedure requires that the evaporator is above the cooker must be arranged. The present invention - relates to an automatic tearing method for Absorption apparatus using their own steam pressure to drive the Liquid.

In the drawing are drainage devices according to the invention shown in two exemplary embodiments. There is only one of the apparatus there Evaporator indicated with the circulating organs.

In the version according to Fig. I, the liquefied ammonia passes through line n ' into evaporator b. Each time it is boiled, the same amount is distilled over so that the same liquid level is achieved. If a remainder of diluted ammonia remained from the last cooling period, which could not evaporate due to the water ballast, the normal level is exceeded by the remaining volume and the normal gas path c is blocked. As a result of the vapor pressure developing during the absorption period, the specifically heavier diluted refrigerant below is then automatically driven over to the cooker absorber through the immersion tube d, which leads to the lowest point of the evaporator.

The agitation continues until the fluid level is normal is reached again and then the branch point e again below the liquid level lies.

If, as shown in Fig. 2, a nozzle f arranged, an increased suction effect can be caused for certain cases. The nozzle is dimensioned so that at normal pressure in the evaporator no suction of the Liquid takes place below the normal line.

However, if the vaporizer heats up abnormally, vapor formation can occur amplified and thereby increased the pressure in the nozzle in speed is implemented, so that the well-known ejector effect occurs here, whereby the diluted or undiluted refrigerant is sucked in from the lowest point and after the cooker absorber is pressed until normal steam formation has occurred again which automatically initiates normal operation.

If you arrange the nozzle at the height of the normal liquid level the effect occurs without heating according to the explanation given for Fig. i on, while the heating of the evaporator causes drifting, regardless of the liquid level, is made possible. The same effect occurs when the driving device is used accordingly is connected to supply line a, d. H. the fumes the evaporator on the same Leave the route on which the liquid refrigerant was introduced.

Claims (1)

PATENT = CLAIMS: i. Process for the automatic dewatering of the evaporator of periodically operating absorption machines, characterized in that the excess amount of liquid in the evaporator is first expelled from the lower part of the evaporator by the vapor pressure developing as a result of the liquid closure of the gas outlet pipe. z. Device for carrying out the method for automatic dewatering of the evaporator of periodically operating absorption machines according to claim i, characterized in that the gas outlet pipe is connected to a dip pipe directly above the normal liquid level and is provided with an inlet opening which is above the maximum liquid level. 3. Device for the automatic dewatering of the evaporator of periodically operating absorption machines according to claim 2, characterized in that a nozzle or nozzle-like acting device is built into the gas outlet pipe to increase the liquid expulsion.