DE475433C - Cooling device for completely encapsulated electrical machines with an annular distribution space provided on one side of the machine housing, directly connected to it and continuously fed with a coolant from an external source - Google Patents

Description

Cooling device for completely enclosed electrical machines with provided on one side of the machine housing and directly connected to it and annularly fed with coolant continuously from an external source Distribution space The demands placed on the drive motors in hard working Enterprises of mass movement are now extremely high. For the Motors result in particular from unfavorable operating conditions that they be completely closed and sometimes reversed several hundred times an hour Need to become. In order to ensure that the motors can be overloaded and that the permissible Not to exceed the heating limit, one is in the absence of a sufficient Cooling therefore forced to use mostly larger and heavier motors than actually would be necessary. However, this measure is very disadvantageous because it is larger and heavier engines have to be used in those factories where they are used tries to avoid because of their too high moment of inertia. In addition, arise through Using larger engines naturally increases acquisition, operating and maintenance costs. In order to avoid these disadvantages, a particularly effective type of cooling is proposed, which meets the requirements in the most perfect way, so that one with smaller rated powers and therefore can get by with smaller motors.

It is a ring-shaped one on one side of the housing of the machine to be cooled Space is provided from which, according to the invention, both cooling channels through the interior of the Machine run in the axial direction, so that the circuit in a known manner The internal air flow brought by the machine is cooled on these cooling tubes as well Nozzles are attached, the part of the coolant on the outer housing wall lead along and create another opportunity to cool off. This external cooling is of particular importance in conjunction with internal cooling because the surface of the housing is a multiple of the surface of the cooling tube. The coolant is in a known manner the distribution space from an external source, for example a specially driven fan, a Preßluftlei: device o. The like., Supplied. Of particular importance is the fact that the coolant is uninterrupted flows in so that continuous cooling is achieved even during breaks in operation will. The distribution space is expediently divided into individual partitions Spaces divided to regulate the currents and avoid eddies.

The drawing illustrates the subject matter in one embodiment the invention. It means here a the distribution space for the coolant into the the cooling tubes b open through the interior of the machine. On the outer perimeter of the distributor are attached nozzles c, by means of which the coolant over the housing surface, which can also be provided with cooling fins, is conducted. The cooling channels can have round cross-section, as indicated in Fig. 2, but they can also each other depending on the space available inside the machine Cross-section, which in many cases increases the effective Can reach cooling surface. Such an arrangement is e.g. B. shown in Fig. 3, in which the cooling channels accommodated between the field poles of the machine are triangular Have cross-section and be metallically connected to the housing and cooling fins k can own that almost reach the anchor. The distribution space a is determined by a special fan d fed with the required quantities of coolant, but it can also be connected directly to a compressed air line or to another coolant leading line must be connected.

As can be seen from Fig. 2, the distribution space is through partition walls e separated into two semicircular parts in order to avoid eddies and an even To achieve supply of all channels with the coolant.

Claims (2)

CLAIMS: I. Cooling device for completely encapsulated electrical Machines with provided on one side of the machine housing, with this directly connected and continuously fed with a coolant from an external source annular distribution space, characterized in that this space has both connected through the interior of the machine in the axial direction leading cooling tubes and is provided with nozzle-like openings that form part of the Guide the coolant along the outer surface of the housing of the machine. 2. Cooling device according to claim r, characterized in that the distribution space for regulating the Coolant supply and avoidance of vortex formation is divided.