DE1014353B - Einhaengekuehler - Google Patents

Description

Hang-in coolers Hang-in coolers have a certain degree of reflux Gained importance. They are used when the vessel from which the to Condensation and refluxing vapor occurs, for some reason must have such a wide opening that the usual ground joints to another Coolers become too cumbersome or too costly. Take the Soxhlet extractors as an example the Jenaer Glaswerke Schott & Gen. called, which du.rch the application of a The hanging cooler is much simpler and therefore cheaper, more unbreakable and moreover have also become more ethereal due to the elimination of the ground joint.

In Fig. 1, a known suspension cooler is a schematic section shown. The substantially cylindrical cooler vessel 1 made of glass is with his Bead-like upper widening 2 is hung on the edge 3 of the condensation vessel 4. The cooling medium (arrow 5) flows through the tube melted into the radiator hood 6 7, from which it enters the cooler next to the bot 8. The derivation of the The cooling medium takes place via the outlet nozzle, which is also melted into the hood 9 in the direction of arrow 10.

This type of cooler has some disadvantages, which affect its field of application naturally restrict.

The cooling water content, which is relatively large compared to the cooling surface, has a considerable amount Radiator weight result, so that its size-wise training, insheson.-dere in the case of self-supporting attachment and use of glass as a building material, limits are set. Furthermore, the cooling water moves because of the large inner diameter of the cooler only in a very weak and predominantly laminar flow. The consequence is a low cooling effect, so this cooler for condensing low-boiling vapors Liquids or those with a high heat of vaporization are not very suitable.

These disadvantages have been eliminated by the invention. This concerns a hanging cooler, in particular made of glass, consisting of one to be cooled in da.s Medium suspended cooler jacket with a central inlet pipe and a discharge pipe for the cooling liquid, which is characterized in that the supply pipe has openings directed towards the radiator jacket through which the cooling liquid is sprayed against the radiator jacket, and that this is preferably coaxial with the supply pipe guided derivation robblis protrudes into the deepest point of the cooling vessel.

Fig. 2 of the drawings illustrates an exemplary embodiment of the Suspension cooler according to the invention in longitudinal section, while 3 shows a cooler cross section according to a special form of training. shows.

According to Fig. 2, there is the substantially cylindrical cooler vessel 11 made of glass and. is with its bulge-like widened head section 12 at the top Edge 13 of the condensation vessel 14 is suspended. The coolant comes under Pressure in the direction of arrow 15 into tube 16, which is axially melted in the cooler one, from which from spaced spray orifices 17 against the inner surface of the cooler jacket 18 is sprayed. The coolant trickles down at the same time Heat absorption in vessel 1 downwards and collects in one at the deepest point of the cooler provided, sack-like depression 19, from where it passes through the coaxial The discharge pipe 20 arranged in the pressure pipe passes to the outside (arrow 21).

Because with this formation the coolant increases relatively quickly the jacket surface runs downwards and is immediately replaced by newly sprayed., the heat exchange is far more effective compared to the known hanging coolers. The used cooling liquid can be sucked off through the pipe 20, or they increases automatically under the effect of the oil pressure developing in the cooler vessel after. above to the drain 22. The cooler according to the invention is therefore always - even after long operating time practically only filled with air and consequently has a Vi.el lighter than the hang-in coolers that have been used up to now. The invention Coolers can therefore easily be dimensioned much larger than. the hitherto common and are using water cooling for the condensation of practically all Steaming liquids with boiling point points b, is down to the ether boiling point useful. It is clear that other cooling liquids than water can also be used can. If the cooling effect is to be particularly high, the surface of the cooler jacket can be enlarged, for example in. known way by the wavy formation of the same. Of course you can. also ribs, projections, indentations or the like in the same be provided.

Fig. 3 shows a further embodiment according to the invention, according to which instead of the single pressure pipe shown in Fig. 2, three pressure pipes 16 ' are provided in an axially symmetrical arrangement. The spray openings 17 'are in in this case only on the outward-facing side of the tubes. The drainage pipe 20 'runs axially between the pressure pipes.

Of course, the suspension cooler according to the invention can be reversed its effect too. used as an immersion heater type Ileizeinrichtung be, in which case instead of the cooling medium steam or hot liquid through which or the pressure pipe is supplied.

P.4TENT CLAIMS: 1. Suspension cooler, in particular consisting of glass from a cooler jacket suspended in the medium to be cooled with a central Supply pipe and a discharge pipe for the cooling liquid, characterized in that that the supply pipe (16) against the radiator jacket (18) directed openings (17) owns, through. which sprayed the coolant against the radiator jacket (18) is, and that the discharge pipe, which is preferably guided coaxially to the feed pipe (16) (20) extends to the lowest point of the bucket.

Claims (1)

2. Suspension cooler according to claim 1, characterized in that it several preferably axially symmetrically arranged supply pipes (16 ') for the Has coolant. 3. Suspension cooler according to one of claims 1 and 2, characterized in that that the cooling vessel has a sack-like depression at its deepest point, into which the drainage pipe protrudes.