DE373978C - Absorption refrigeration system - Google Patents

Description

Absorption refrigeration system. In the case of the small absorption refrigeration systems, at where the cooker and absorber are combined into a single device, it is common to the switching of the individual periods: cooking, cooling and absorbing automatically by installing special auxiliary devices to effect the z. B. on the temperature hang in the absorber or cooker. Floats were also installed inside the stove, but due to their uncertain effect, z. B. the frequent getting stuck, as well slightly uncomfortable like the first mentioned temperature dependent devices Caused operational disruptions.

In order to remedy these deficiencies, the subject of the invention the circuit made in such a way that using the per se in absorption refrigeration systems already known electrode heater or another heater each have a pair of electrodes placed at the highest and lowest point of the liquid level in the digester are, whereby the lower electrodes after the expulsion of the vapors as a result of the If the liquid level drops, do not immerse yourself in the liquid, so that the power supply and thus the heating is automatically interrupted while after absorbing, d. H. after the level of the liquid rises to the top Electrodes, the power supply and thus the heating switched on again automatically will.

It is best to guide the electrodes when the digester or absorber vessel is upright from above into the absorption liquid so that they are immersed in it. Switches if the electric current is now applied, it sinks in the same degree as the vapors are driven out of the liquid, including the liquid level. Here protrude the electrodes more and more out of the liquid. Since the power output from the Size of the immersed surface of the electrodes is dependent, thus decreases accordingly the falling liquid level, the supply of electricity and thus also the heat.

By appropriately dimensioning the cross-section of the electrodes So you can achieve a temperature that is as uniform as possible during cooking and in particular any harmful and uneconomical overheating of the absorption liquid avoid. The liquid level eventually drops so far that the electrodes Immerse only a little or not at all, so the supply of electricity and heat almost stops completely or completely open. By inserting an electrical relay in the lines for the heating current can easily be achieved that when the current strength falls below a certain minimum limit the heating current is completely switched off. Simultaneously the relay acts on a three-way valve that regulates the water supply. The rooster will now placed in such a way that the cooling water that has previously flowed freely from the condenser after the absorber and is used here for cooling.

Has the temperature in the absorption vessel dropped so far that an between The non-return valve located in the evaporator and absorber can open, so fills Now the absorber gradually with the vapors coming from the evaporator. The liquid level in the absorption vessel rises and eventually reaches two Auxiliary electrodes, which are arranged at the highest level of the liquid level. As soon as the liquid makes the electrical connection between the above Has made auxiliary electrodes, the heating current is restored by the aforementioned relay on and at the same time the three-way valve switched again, so that the cooling water can flow freely from the condenser again and the new cooling period can begin.

If the stove is not electric, but by some other one Type of heating, e.g. B. gas, flammable liquid or similar, heated, so special electrodes must be arranged at the lowest level of the absorption liquid which in turn, as described above, are connected to a relay, which removes the heat supply and at the same time regulates the three-way tap.

In the accompanying drawing, for example, the arrangement is shown in the event that the absorption refrigeration system is heated electrically. i represents the cooker or absorber, 2 the condenser, 3 the evaporator, ¢ the refrigerant lines, 5 and 6 check valves, 7 a three-way tap for the cooling water, 8 the main electrical lines, 9 the electrical lines to the upper electrodes, io the electrodes for the heating current, ii the upper electrodes, i2 the electrical relay, 13 a spring, 1q. a power bridge, 15 a pull rope for connecting the three-way cock with the electrical relay, 16 a regulating valve, 17 the cooling water drainage line from the three-way cock, 18 the cooling water line from the three-way cock to the absorber vessel, i9 the cooling water line from the condenser to the three-way cock, 2o the trickle device for sprinkling and cooling < the absorber, 21 the magnet, 22 the current clamps, `23 a counterweight.

It is now assumed that the heating current is switched on and the liquid level in the absorber vessel or digester i has reached its highest level. Since the connection between the two electrodes is established by the absorption liquid, a current transfer and thus heating can take place. The cold vapors are driven out of the liquid, the liquid level slowly sinks; to the same extent that the immersed surface of the electrodes is reduced by the lowering of the liquid level, the current supply is also reduced. If this falls below a certain, fixed value as the level continues to fall, the spring 13 pulls out the magnet 21 of the electrical relay, thus lifting the current bridge 1q. from the terminals 22 and thus interrupts the power supply and thus the heating period. When the magnet 9.1 is pulled down, the three-way valve 7 is reversed at the same time by the train connection 15, the cooling water coming from the condenser and flowing through the line i9 to the three-way path, which previously flowed off through the line i7, is now passed through pipe 18 to the trickling device 2o and cools so the absorber i. As soon as the cooling water creates a certain negative pressure in the absorber, check valve 5 opens and check valve 6 closes. The cold liquid flowing through the regulating valve 6 and coming from the condenser 2 is evaporated in the evaporator 3, and the vapors formed here flow through q. and 5 in the absorber i; where they are absorbed by the cooled liquid. As a result of the absorption of the cold vapors, the liquid level in the absorber i rises until the electrodes ii are finally reached. At this moment, the previously interrupted circuit is closed again by the lines 9, the magnet 2i is drawn into the relay or coil 12, the current bridge 1q. pressed against the terminals 22 and thus the circuit for the heating electrodes is restored. At the same time, valve 7 is reversed by means of a counterweight 23 and the cooling of the absorber is switched off. At the beginning of the heating period, the absorption liquid is heated both by the electrodes io and ii. If the liquid level falls, the current transfer between ii is interrupted and heating takes place automatically, as at the beginning of the description, only by the electrodes io. By repeating this cooling process, the cooling can be continued for any length of time and automatically until the desired temperature is reached.

Claims (2)

PATENT CLAIMS: i. Absorption refrigeration system, characterized in that that in the digester or absorber (i) one pair of electrodes (ii) is highest and one pair of electrodes (io) at: the lowest point of the liquid level are arranged, so that at the rise or fall in the liquid level caused by absorption and expulsion the power supply and thus the heating and the cooling water inflow and outflow within the absorption refrigeration system is switched on and off automatically. 2. absorption refrigeration system, characterized; that when expelled by the decrease in the current strength the electrodes reaching to the i lowest point of the liquid level (io) a spring (i3) from a relay (i2) pulls the magnets (2i) out and thereby interrupts the heating current while absorbing as soon as the rising liquid has reached the upper electrodes (ii), the magnet (2i) is back in the relay (i2) is drawn in and the heating current is switched on.