DE3136775A1 - "COOLER ARRANGEMENT FOR A COMPRESSOR SYSTEM" - Google Patents

Description

313 6 7 7;

Description :

The invention relates to a cooler arrangement for one of an electric motor driven system, in particular for a screw compressor system, with a fan the shaft of the electric motor.

It is known for the electric motor of a screw compressor system to provide a separate fan, which is designed for cooling the electric motor, while for the oil cooler through which the oil injected into the compression chamber of the screw compressor flows, and if necessary, a further fan is provided for an aftercooler for the compressed air compressed by the compressor ■ which is designed for the generally rectangular radiator. It is also known at one Screw compressor system only has a single fan for cooling the drive motor and the flow a cooler to be provided, but there is the possibility that the cooling air duct for one or the other Unit is not as cheap as using two separate ones Fans.

The invention is based on the object of a cooler arrangement of the type indicated at the outset so that the efficiency is improved compared to known systems of the fan also results in better cooling air routing for the units to be cooled.

This object is achieved in that around the scope of the

Electric motor arranged a ring cooler and the cooling air conveyed by the fan is guided through the ring cooler and over the circumference of the electric motor *.;

The fan of an electric motor is usually designed for both directions of rotation. In the embodiment according to the invention the fan can only be designed for one direction of rotation, which saves power results from better efficiency of the fan. Furthermore, the cooling air flow for cooling the electric motor is improved, because the ring cooler also serves as a guide element for the cooling air. Ultimately, it turns out to be a very small one Build volume for compact compressor systems.

The ring cooler is expediently designed in such a way that the cooling air flows through it axially. This results in there is a stratification of air on the circumference of the electric motor, wherein the warm cooling air exiting the ring cooler forms a jacket around the cooler cooling air which surrounds the Circumference of the electric motor flows.

To improve this layer formation, the ring cooler overlaps the electric motor at least partially, with the aim of achieving this a stable structure of the ring cooler can rest on the cooling fins of the electric motor.

Further advantageous refinements are given in the remaining subclaims.

An example embodiment of the invention is explained in more detail with reference to the drawing, which shows in a partial view an electric motor with a cooler arrangement attached thereto, which is shown in section.

1 with an electric motor is referred to, on the shaft 2

a fan 3 is arranged. Between the fan 3 and the end face of the electric motor 1, there is an axially flow-through ring cooler 4 which, in the exemplary embodiment shown, overlaps the electric motor 1 with approximately half of its longitudinal dimension. The ring cooler 4 is located with its inner circumference on cooling fins 5 which are arranged distributed over the circumference of the electric motor. 1

The fan is designed for only one direction of rotation. Furthermore, the volume flow of the fan 3 is designed so that it delivers the amount of cooling air required for the cooler 4 and the electric motor 1. The fan 3 has a diameter which is approximately as large as the outer diameter of the annular cooler 4, wherein the blades of the fan 3 are made so long that, for example, protrude with half of its longitudinal dimension from the inner periphery of the annular cooler 4 to the inside. In this way, a partial flow is generated by the fan, which is used to cool the motor and is passed along the inner circumference of the ring cooler 4, which serves as a guide element, over the circumference of the electric motor 1 into the spaces between the ribs 5. The further partial flow generated by the fan 3 flows through the ring cooler 4 in the axial direction, as indicated by arrows, with the warmer cooling air exiting at the end of the ring cooler 4 surrounding the motor 1 like a jacket and a radial exit of the cooler cooling air flowing between the cooling fins 5 prevented.

The ring cooler 4 can be used in oil-injected screw compressors both as an oil cooler and as a combined oil and Air aftercoolers can be designed as described, for example, in DE-Gbm 81 13 479.

To prevent the cooler from becoming dirty, a

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Filter mat 6 can be attached in front of the fan 3. This filter mat 6 can extend up to the edge of the ring cooler 4.

It is also possible to have an inlet nozzle in front of the fan 3 to be provided for the sucked in cooling air. It is also possible to design the fan in a different way. Even The ring cooler can then extend further over the engine than is shown in the drawing.

The ring cooler 4 is arranged at a distance around the circumference of the engine for the flow through the engine necessary cooling air is designed. In the illustrated embodiment, this distance is determined by the height the cooling fins 5 specified.

The described cooler arrangement can also be used with a drive motor other than an electric motor, provided that it is used Drive motor has approximately a circular circumferential shape.

Claims (6)

313671 Dr. F. Zumstein Sr. - Dr. E. Assrriaan J Dr. * ?. Kpepigsberger Dipl.-Ing. F. Klingseisen - Dr. F. Zumstein jun. "PATENTANWÄLTE 40 / Li S 1799 ISARTALER SCHRAUBENKOMPRESSOREN GMBH., 8192 Geretsried 2, BRD Cooler arrangement for a compressor system CLAIMS 1. Cooler arrangement for a driven by an electric motor System, especially for a screw compressor system, with a fan on the shaft of the Electric motor, characterized in that a ring cooler is provided around the circumference of the electric motor (1) (4) and the cooling air conveyed by the fan (3) through the ring cooler (4) and over the circumference of the electric motor (1) is performed. 2. cooler arrangement according to claim 1, characterized in that that the ring cooler (4) is designed for a flow in the axial direction. 3. cooler arrangement according to claims 1 and 2, characterized characterized in that the ring cooler (4) is the electric motor (1) at least partially overlaps. 4. cooler arrangement according to claims 1 to 3> thereby characterized in that the ring cooler (4) rests on cooling fins (5) which surround the circumference of the electric motor (1) are arranged. 5. cooler arrangement according to the preceding claims, characterized in that the fan (3) only for one direction of rotation is designed. 6. Cooler arrangement according to the preceding .Anspruchten, thereby characterized in that a filter mat (6) is arranged in front of the fan (3). 7 · cooler arrangement according to the preceding claims, characterized characterized in that an inlet nozzle for the fan (3) is provided for guiding the sucked in cooling air is.