DE2148473A1 - REFRIGERATOR - Google Patents

Description

Cooling device The invention relates to a cooling device for cooling of liquids in tanks, and in particular a cooling device for use in connection with tanks containing beer.

When cooling beer tanks in a heller, it is common to use a separate one Provide cooling circuit for each tank, the Eühlkreis a jacket cooler or has a corresponding device which is arranged around the tank and can be switched on if necessary. When initially filling the tank, for example from a supply tanker, the demands on the cooling circuit are high. However, when the temperature of the beer is reduced to a desired level, the cooling circuit is only slightly loaded in order to keep the temperature at this level. To meet the requirements for the cooling circuit during the initial cooling of the tank to meet, it is necessary to provide a cooling circuit with the appropriate capacity, although this capacity is only required in full for a short time. The known Devices therefore mean, although they are sufficient to achieve the desired purpose, d. H. to cool the beer in the tanks, one in effective. Exploitation the Eühl circles.

The invention is therefore based on the object of a cooling device for beer tanks in a well that have better efficiency and a has better utilization. For this purpose, a cooling device is in particular for Use in a beer storage cellar, characterized in that a coolant supply circuit and several auxiliary cooling circuits, each of which can be optionally connected to the supply circuit are connectable, are provided, and that the aid coolant circuits each have one Have heat exchangers for arrangement on the associated tank for receiving of coolant from the supply circuit and for the delivery of coolant to the supply circuit suitable is.

In one embodiment, a cooling circuit ensures continuous Circulation of cooling water in a 1 --- t supply line.

Auxiliary supply lines are connected to the main line, to take in cooling water from this and return this water to the main line, after flowing through a cooling jacket placed around a beer tank is. Valve means are provided in each conduit to close the cooling jacket when required to be disconnected from the main line.

The auxiliary supply circuits can be arranged so that they are in Series work together, with the cooling water switched through all of the Auxiliary circles in circulation passes through. The auxiliary circles can also be arranged in such a way that that they work in parallel, with the cooling water switched between the Auxiliary circles is divided and by only one of the auxiliary circles ifl a complete Cycle passes through. It is also possible to design the auxiliary circles so that they are arranged partly in a row and partly in parallel. In the latter Case it may come in handy to make sure that the auxiliary circles of the tanks, the contents of which have already cooled down, are connected in series while a newly switched on circle connected in parallel with the "in series gesohalteten circles" will. With such a ^ nc- n-lng there is a rapid cooling of the tank to which the New Affiliated circle belongs, possible without the other circles being affected to be pulled.

Embodiment of the invention will now be based on the enclosed schematic drawings described. They show: Fig. 1 the ReSenschaltung the Circles; 2 shows a parallel connection of the circuits; and FIG. 3 shows both a series connection as well as a parallel connection of the circuits, which as required and according to the special Circumstances can be selected.

In Fig. 1 there are 3 tank cooling jackets AB, C, with a main supply line D connected by auxiliary lines E, F. A fluid valve G or H is between each line E, F and the main supply line D are provided. In the shown Arrangement, the auxiliary supply circuit of the cooling jacket B is shut off, with the EühJasser flows through cooling jacket A and C, but bypassing cooling jacket D, as indicated by the arrows b, b.

In the arrangement shown in Fig. 2, the tank cooling jackets A, B, C connected in parallel. These cooling jackets are connected to the main supply line D. connected by auxiliary lines E, F ', the latter auxiliary line F' with is connected to the reflux part D 'of the main line D through a valve H'. The valve devices G, H of Fig. 2 are set so that they shut off the Eühlmantel C, the incoming cooling water is divided between the cooling jackets A and B and to which Cooling jacket C flows past.

By an arrangement as shown in Fig. 3, the Eühlmäntel, belonging to tanks whose contents have already cooled down to the required temperatures is connected in series, while the cooling jacket of a refilled tank is in series with the previous tanks, but connected in parallel to each subsequent tank will. So the cooling jackets A and C are connected in series with each other, during the Cooling jacket B the cooling water from the Cooling jacket A via auxiliary lines B "and E receives this water, however, to the reflux part D 'of the supply line D returns through an auxiliary line F '. The cooling jacket C absorbs Eühlwasser, which has flowed through the cooling jacket A via an auxiliary line E and gives this Water to power D via the auxiliary line B't. The cooling water flow is indicated by the arrows. The main advantage of the arrangement shown in FIG lies in the fact that the cooling water, which has a significant temperature difference on both sides of the cooling jacket B, directly to the reflux part of the supply line is returned, while the cooling water, which has only a small temperature difference has, passed on to the next cooling jacket or to the next cooling jackets will. In this way, the relatively warm water that passes through the cooling jacket B is returned to the main cooling line, not abandoned on the cooling jacket C. and therefore does not affect the temperature of the contents of the tank to which the cooling jacket is attached C heard.

The cooling device according to the invention, it is possible to use a single Use the main cooling circuit to cool a large number of tanks. This cooling circuit can be used more effectively than is the case with stpvrate cooling circuits, which have been used so far.

Claims (3)

Claims 1. Cooling device especially for use in a beer storage cellar, characterized in that an EWhlmittel-supply circuit (D, D ') and several Auxiliary coolant circuits (E, F, F ', F ",) each of which can be optionally connected to the supply circuit are connectable, are provided, and that the auxiliary coolant circuits each have one Have heat exchangers (A, B, C,) for arrangement on the associated tank, the for receiving coolant from the supply circuit and for dispensing coolant is suitable for the supply circle. 2. Cooling device according to claim 1, characterized in that the Auxiliary circuits (E, F) connected in series are optionally in series with the Euhlmittel supply circuits can be connected. 3. Cooling device according to claim 1 or 2, characterized in that that the auxiliary coolant circuits (E, F ') are connected in parallel to one another and optionally can be connected in series to the coolant supply circuit. Blank page