DE849707C - Absorption cold apparatus - Google Patents

Description

The invention relates to an absorption refrigerator, the by the simplicity of the overall arrangement and thus cheapness to manufacture and reliability in operation.

The absorption chiller consists of two with one heating device provided, absorbing refrigerant solution and through a with a regulating valve provided tube connected vessels, each of which has a separate line to it each leads to a condenser with a downstream valve, the opening of which is normally unlocked, but when the condenser pressure rises, it becomes Narrowed nozzle. A common evaporator is arranged between the two valves.

So it is a circularly arranged device, in which to an evaporator and a pipe connecting two cooking vessels, which diametrically opposite, a cooking vessel, condenser and valve on each side are arranged. The cooking vessels are alternately cookers and absorbers, as the cold-generating Means for operating the refrigeration machine alternately by boiling from a vessel to the other is driven.

In each connecting line between a cooking or. Absorption vessel and a water separator is expediently provided for the condenser assigned to it, in which water entrained when the gaseous refrigerant is boiled is deposited and from there is returned to the digester.

In the drawing is an example embodiment of the refrigeration apparatus shown schematically according to the invention.

Two vessels i each with a heating tube 2, in which a heating element 3 is arranged is, take in their annulus 4, the refrigerant solution, z. B. an aqueous methylamine solution on. These liquid containers are through a connecting pipe 13 with cooling fins and a regulating valve 14 is provided. From each room 4 leads Riser pipe 5 to a water separator 6 and from this a line 7 to a condenser 8 to which a valve 9 is connected.

The valve 9 is preferably a membrane valve on the membrane 1o a cone 1i is arranged, which opens the valve when the pressure on the membrane increases throttles.

The two valves 9 are connected to one another by an evaporator 2.

The operation of the refrigerator is carried out as follows Switching on a radiator 3, e.g. B. the one shown in the drawing on the right Radiator, is in the vessel i on the right from the methylamine solution in room 4 Boiled methylamine gas. The gas passes through the riser 5 to the water separator 6, where entrained water collects and flows back into the cooking space. The gas flows from the separator 6 through the line 7 into the condenser B. From this arrives liquid methylamine in the valve g. According to the one on the right side of the cooker the pressure prevailing the boiling is on the one hand the membrane To of the valve 9 and thus also the cone 1i lifted so that the valve opening is narrowed and acts as an injection nozzle works, on the other hand boiled over the appropriately set valve 14 Methylamine solution 'with simultaneous cooling gradually through the pipe 13 to left vessel i pushed over. This vessel fills up more and more with the cooled Methylamine solution and can be produced from practically the same extent as methylamine gas the right vessel i flows out by boiling, take up gas by absorption. In the evaporator 12 is by evaporation of the nozzle-like acting right Valve 9 outflowing liquid methylamine generates cold. Now it happens again methylamine that has become gaseous but is no longer under increased pressure left side of the arrangement above. It flows unhindered through the wide open left valve 9, the left condenser 8 via the line 7 connected to it, Water separator 6 and pipe 5 in the left, acting as an absorber vessel i. As soon The solution in the right vessel has been sufficiently boiled and migrated over to the left vessel the current is automatically switched, i.e. H. the right radiator 3 switched off and the left radiator 3 switched on. The same thing is happening now Processes in the opposite direction, i.e. from left to right; because according to the now pressure increase on the left and pressure decrease on the right side the left valve 9 becomes a nozzle, while the right valve 9 opens wide. The left condenser 8 has a gas liquefying effect, and the right condenser 8 is used now only for the derivation of the evaporated in the evaporator 12 -lethylamins to right vessel i, that now gradually from the left vessel i with boiled, low-gas solution is replenished and serves as an absorber.

Claims (2)

PATENT CLAIMS: i. Absorption refrigeration apparatus, characterized by two vessels (i), each provided with a heating device (2, 3), receiving the refrigerant solution and connected by a pipe (13) provided with a regulating valve (14), one of which is a separate one with a water separator (6). provided line (7) leads to a respective condenser (8) with a downstream valve (9), the normally unlocked opening of which narrows towards the nozzle as the condenser pressure rises; and by a common evaporator (12) between the two valves. 2. Refrigeration apparatus according to claim i, characterized in that the Valves (9) are diaphragm valves with a cone (1i) on their diaphragm (1o), which throttles the valve opening when the pressure on the membrane increases.