DE404777C - Cooker absorber for absorption refrigeration machines with reciprocal operations - Google Patents

Description

Cooker absorbers for absorption chillers with reciprocal operations. The arrangement of locally limited heating points on Iocherabsorbers for absorption chillers causes a circulation of the liquid and thus an exchange of heat, in such a way, that the hot, degassed liquid sinks down from the heating point while the gas-rich, cold liquid is displaced and in countercurrent to the hot one Liquid flows. If this circulation is made usable in a heat exchanger, at which the entry point of the cold liquid is constant, occur as disadvantageous consequences of this facility, once that an unused quantity of liquid themselves located above the entry level, and further that once the level of the liquid falls below the point of entry of the cold liquid when expelled, the whole Circulation is prevented. The result is overheating of the heating point, off which result in the known disadvantages.

. You could possibly adjust the level of the entry point of the cold Place the liquid in the heat exchanger so that at least towards the end of the expulsion a fairly satisfactory circulation and heat exchange takes place. One However, this does not achieve a fundamental remedy of the deficiencies described, Of course, the level of solution often varies at the end of the expulsion period.

Another disadvantage is that the surface of the cold Liquid when expelling and the resulting increase in pressure is already expelled Absorbs gas, which significantly affects the functioning of the whole process because, as is well known, the gas uptake of the surface of the solution is approximately proportional is.

The invention is intended to eliminate these disadvantages by that the entry point of the liquid into the heat exchange device depending on the height of the liquid level adjusts itself automatically.

The invention is illustrated in accompanying waste formations shown, for example, and that shown in Fig. I a cooker absorber with the known arrangement of the heat exchanger. Fig. 2, 3 and 4. show cooker absorbers, which are provided with the new arrangement.

The locally limited heating point is in the cooker absorber (Fig. I) 2 provided. The degassed, hot liquid sinks down in space 5 while the gas-rich, cold liquid in the heat exchange device 4 in countercurrent to the hot liquid flows in the direction of the arrow, in such a way that it flows at 7 enters the heat exchange device. Thus it is a completely unused one Fluid quantum 3, which is your differences in the height of the fluid level 6 and the entry point 7 corresponds, available. If now the expulsion period nears its end and the liquid level drops to 8, for example the circulation is completely cut off and there is the greatest danger to the heating device 2.

It is therefore, as Fig. 2 shows, a Schwiminer io provided on which a pipe socket 9 hangs. This pipe socket surrounds the heat exchange device, so that the circulating cold liquid between the top edge of the nozzle and the float enters the heat exchange device. The enema of the cold Liquid is always close to the surface of the liquid. The swimmer is designed as a hollow ring, but can of course also have any other shape.

In this way you can see the entry point of the cold liquid set so low that the circulation is in no way interrupted; on the other hand but the whole quantity of fluid is constantly being circulated.

In Fig. 3 the device is shown using a heating jacket: 2. Here the pipe 9 connected to the float 10 is inside the heat exchange device .4 arranged.

Fig..I shows the facility with separate heating point 2. The cold one Liquid enters the pipe socket 9 below the float and circulates then through i i and the float io also covers most of the liquid surface 6, which is particularly suitable to absorb gas, and prevents a good part the harmful gas uptake that would otherwise take place.

Claims (3)

PATENT CLAIMS: i. Cooker absorber for absorption chillers with two-way operation, in which a heat dissipation device for the circulating solution is formed by local delimitation of the heating point, characterized in that the inlet of the solution into the heat exchange device adjusts itself automatically depending on the height of the liquid level. 2. Cooker absorber according to claim i, characterized in that the solution runs between a float and a pipe socket attached to it is provided, which changes when there is a change of the liquid level telescopically against the wall of the heat exchange device shifts. 3. cooker absorber according to claim i, characterized in that the liquid surface partially covered by the float in the unheated part of the cooker absorber is.