DE525630C - Small refrigeration apparatus - Google Patents

Description

Small refrigeration device To cover the refrigeration requirement in the household «-erden mainly used three processes, namely the generation of cold by Evaporation of suitable organic or inorganic liquids with reduced Pressure without recovery of the same, the loading of apparatus, oil cleaning and the like with natural or artificial ice and the generation of cold with the help of 1, eastern Hungary of salts.

The invention now gives rise to an apparatus which is set up in such a way that that cold is produced in it in the simplest way by all three processes just mentioned can be.

A vessel used to hold the refrigerant is provided with a small one Ptimpeinrichtung, expediently a water jet pump, connected, and there are facilities hit, which make it possible to load the vessel with ice and the resulting Remove melt water from your vessel using the pumping device; it is further possible, the vessel with an organic liquid, for. B. methyl alcohol, to fill, to evacuate the vessel through the Punip facility and the resulting Suction of vapors; The vessel can also be filled with an inorganic liquid, z. B. ammonia, charge, suck off gaseous ammonia by evacuation and finally, with the help of the pump, the remaining aminoniakarine liquid remove; but you can also add salt, e.g. B. a mixture of ammonite dichloride with potassium nitrate or the like, brought to dissolve and later the used lye be sucked out again by the suction effect of the pump.

All of these options for cooling in one Apparatus are achieved in the simplest way that the with your to the recording the refrigerant serving vessel connected pumping device finite as required a suction tube reaching to the bottom of the vessel or with one above the Suction nozzle attached to the liquid level of the refrigerant can.

The accompanying drawings show embodiments of the apparatus in FIG example representation and the various possible uses.

In Fig. I is a cylindrical sheet metal vessel open at the top, which can be closed airtight with your lid 3, which can be pivoted about the hinge ii, by means of the rubber sealing ring .1 and clamping devices not shown here. The vessel i serves to hold crushed crystal ice 2 into which the tubular vessel 5 protrudes for holding the frozen food. This vessel 5 is passed through the cover 3 so that it can be pulled out easily and can be sealed airtight in the cover by means of a flange ring. At the top it is closed with the cover 6, through which a lockable stirring rod 7, which carries the handle 8 at the top and the perforated mixing plate 9 at the bottom, is passed. The cover 3 also carries a molded connection piece io, which contains two vertical, parallel channels. The same open into the vessel i at the bottom and into two obliquely attached tubes 16 at the top for attaching connecting hoses or sealing caps. In the illustrated embodiment, the one channel continues down to the bottom of the vessel in the tube or hose 12, which carries a strainer basket 13 at its end. This floor pipe communicates through the cast-on nozzle with the vacuum hose 1.4, which leads to the water jet pump 15. In this case, the other channel with the pipe socket 16 serves as a counter air opening for a functioning water jet pump. In this case, the suction device only serves to remove the melt water that has accumulated on the floor in a simple and convenient manner if necessary.

The vessel i can also be filled with ice salt mixtures instead of pure ice which is particularly advantageous if 5 ice cream are made in the vessel target.

Fig. 2 illustrates the same apparatus using vaporizing organic liquids as refrigerants. The vessel i is in this case, for. B. Filled with methyl alcohol 17, the vessel 5 used to hold the frozen food is again inserted airtight into the lid 3 and again with the lid itself 6 lockable. The evaporation of the methyl alcohol is extracted by the The short-end channel in the sprue 10, "- head over the pipe socket 1g and the one to the vacuum pump leading hose 14 .. The other channel continues down into the down to the floor reaching pipe 23 away, up into the pipe socket 2o. The latter is in operation airtight flange. For convenience of operation, instead of the blind flange a filling tricliter 22 with tap 21, possibly removable, can be put on, which is used for Refilling of refrigerant during operation is used.

Fig. 3 shows the use of the device with ammonia as a refrigerant. The vessel 1 is filled with salmiakgeist 24, the escaping ammonia of which is sucked off through the right channel in the sprue io, the pipe socket ig and the hose 14 to the vacuum pump. The other channel ends again downwards in the floor pipe 12, upwards in the pipe socket 25, which is used to refill ammonia and is hermetically sealed with the cap 26 during operation. Since only the ammonia evaporates from the ammonia, the depleted ammonia solution must be temporarily emptied from the apparatus, which is done by letting the vacuum pump act on the pipe socket 25 and the bottom pipe 12 for a short time by removing the hose 14 from 19 after 25 turns over.

In Fig. 4. there is a salt mixture 27 in the vessel as the refrigerant i filled in, which cools down in a known manner by pouring water over it. This The procedure can be carried out in the simplest form in the arrangement according to Fig. I, by using the used liquor exactly as in Fig. i with the help of the melt water the water jet pump to make room for a new batch.

However, in order to enable efficient use of the brine, which is still cold after the cold effect has been exerted, the same is passed through the bottom pipe 12, the hose connection 34, through the inner pipe of a reflux condenser 28 and finally through the line 31 to the suction port of a vacuum pump 29. During this suction period, tap water flows from a lateral pipe junction 30 on the vacuum pump 29 to the outer jacket of the cooler 28, which exchanges the temperature in the cooler with the extracted liquor and thus comes already considerably pre-cooled through the pipe 33, hose line and nozzle 35 into the interior of the vessel. So while at 13 used caustic is sucked off, fresh water, which has approximately the temperature of the draining caustic, flows to the same extent from above. A mixing of old caustic with incoming fresh water does not take place because of the large differences in specific weights. After the vessel has been filled with fresh water, a new batch of salt can be dissolved. After this has exercised its possible cooling effect, the suction and fresh water supply process is switched on again. The adjustment of the fresh water supply and the lye discharge takes place by regulating the double tap 32. By switching on the exchange device 28, the brine is subjected to a significantly improved utilization compared to the known methods.

In Fig. 5 is another possible application of the same apparatus shown. It can namely in place of the ice container 5 with all cooling methods a on the lid 6 attached pipe coil 36 are inserted into the vessel i, the through the pipe 3o from a vacuum pump 29 according to FIG. 4 through a branch line Tap water is supplied, so the water cooled by the discharge pipe 38 removed «- can be earthed.

In Fig. 6 a modification of the drinking water cooling is shown. In this case, the ice container 5 is designed as an evaporator, for. B. for methanol 17, the exhaust vapors through the pipeline i-. to the vacuum tank, conveyed, while at times methanol is topped up through funnel 22 and tap 2i and bottom pipe 23. The cooling vessel i is filled in this case with water or another beverage 4i, which is supplied through the pipe 39, the Stellhaltn .Io and the right channel in the sprue io and is removed through the bottom pipe 37 and the tap pipe 38. With continuous water cooling, the pipe 39 can be reconnected to the branch line of a water jet pump.

The cooling vessel i can be used for cooling fridges without insulation in one such should be housed. Is it just about making ice cream or To cool drinks, it is advantageous to place the vessel on the outside, for. B. by inserting to be strongly insulated in a de - «- ass vessel. Placed in a refrigerator, So the device allows refrigerator cooling, the production of ice cream or small amounts of block ice and the beverage cooling according to one of the three specified Procedure, depending on what it is desired at the moment.

For reasons of drawing, the floor pipe is on the individual images 12 once in the left and the other time in the right channel in the sprue i o drawn. Of course, the connection is always the same in the practical case.

Claims (2)

PATENT CLAIMS: i. Small refrigeration unit for optional cold generation by melting ice, by dissolving cold salts or by evaporation of a Liquid under vacuum, its serving to absorb the respective refrigerant Vessel with a suction device, expediently with a water jet pump, connected, thereby. characterized that both an expedient to the ground of the vessel reaching suction tube as well as one above the liquid level of the used refrigerant opening nozzle is provided with which as required the suction device can be connected. 2. Training of the apparatus according to claim i, characterized in that the water supply line to the water jet pump has an appropriately adjustable branch line above the propellant nozzle which is supplied to the vessel for the refrigerant fresh water while the consumed Refrigerant discharged from this vessel through the suction port of the suction device will.