DD230684A3 - OIL-COOLED ASYNCHRONOUS MOTOR, ESPECIALLY FOR HERMETIC CHEMICAL COMPRESSORS - Google Patents

Abstract

The invention finds application in the construction of oelgekuehlten asynchronous motors, such as those used in hermetic Keltemittelverdichtern for generating cold in household and Gewerbekaeltegeraete. The aim of the invention is to lower the mean winding temperature and to avoid a temperature spread. The invention relates to oelgekuehlte asynchronous motors for hermetically sealed compressor, wherein the motor consists of rotor and stator. The rotor has a short circuit cage with upper and lower shorting ring. On the upper short-circuit ring is a cylindrical or conically upwardly opening element with radially arranged sinusoidal cutouts. The element protrudes beyond the upper winding head by at least 1 mm. The invention applies to oil-cooled asynchronous motors in hermetically sealed Kaeltemittelverdichterbau. figure

Description

Field of application of the invention

The invention relates to the construction of oil-cooled asynchronous motors, as used for example in hermetic refrigerant compressors for refrigeration in household and commercial refrigeration appliances.

Characteristic of the known technical solutions

There are known asynchronous motors for use in hermetic refrigerant compressors whose rotor has the upper short-circuit ring obliquely upward surfaces of different heights, which make the distribution of the oil on the upper winding head and the capsule.

This solution does not meet the requirement for a uniform distribution of the oil over the entire top winding. It is achieved splashing the oil in two levels, thereby the oil drops of the lower level are thrown into the winding head, whereas the oil drops of the upper level are thrown through a gap between the winding head and motor carrier to the inner wall of the capsule and cool down there. Due to the spraying of the oil in the winding head plane, the center of the winding head, impermissible temperature gradients occur within the winding head. Furthermore, it is more advantageous to bring the flow of oil from the winding head in the form of a closed film of oil and not in the form of drops to the upper winding head or through the gap between the winding head and motor carrier to the inner wall of the hermetic enclosure.

Object of the invention

The aim of the invention is to significantly lower the mean winding temperature and the temperature spread within the winding heads of oil-cooled asynchronous motors compared to known generating cracks.

Explanation of the essence of the invention

- The technical problem which is solved by the invention

Based on the aim of the invention, it is the task of constantly supplying the required for cooling the induction motor oil mass flow to the upper winding over the entire circumference and over its entire height and also supply the oil mass flow required for cooling through the annular gap between the upper winding head and engine mount the capsule wall , It is necessary to form both mass flows in the form of a closed film.

Features of the invention

In an oil-cooled asynchronous motor, in particular for hermetic refrigerant compressor, the rotor has a short-circuit cage with upper and lower short-circuit ring. On this upper short-circuit ring with him firmly connected upwardly cylindrical or conically opening element is arranged.

According to the invention, sinusoidal cutouts for the steady distribution of the oil mass flow over the full circumference and the entire height of the upper winding head are arranged radially in this element. The element projects beyond the upper winding head by at least 1 mm.

In this cylindrical or conical body is one or preferably two sinusoidal recesses. The increase of the sine function at the inflection point must satisfy the following relation:

twrf 1.5 %%

h = height of the recess or winding head height

η = number of recesses

d = average diameter of the cylindrical or conical element

The sections mentioned cause a constant wetting of the upper winding over the height and circumference with oil, which leads to the significant formation of an oil film. In this case, winding temperature and the temperature spread within the winding head are significantly lowered.

embodiment

The invention will be described below with reference to an embodiment. The accompanying drawing shows an oil-cooled asynchronous motor with rotor according to the invention in a hermetic refrigerant compressor. The asynchronous motor 1 in a hermetically sealed refrigerant compressor 2 consists of stator 3 and rotor 4. By the shaft 5 oil is sucked from the oil sump of the capsule and both the sliding parts for the lubrication, as well as on the existing in the shaft 5 holes 6 for with the rotor 4 firmly connected conical element 7 promoted. From there it passes via preferably two sinusoidal cutouts 8 to the upper winding head 10 and over the upper edge of the conical element. through the annular gap 9 between the upper winding head 10 and motor support 11 to the capsule 12. The corresponding sinusoidal cutouts 8 ensure the formation of an oil film, which cools the entire upper winding head intensive.

Claims (1)

Invention claim: Oil-cooled asynchronous motor, in particular for hermetic refrigerating compressors, consisting of rotor and stator, wherein the rotor has a short-circuit ring, and on the upper short-circuit ring there is an upwardly cylindrically or conically opening element fixed to it, characterized in that the element is radially arranged, sinusoidal cutouts for the steady distribution of an oil mass flow over the full circumference and the full height of the upper winding head and the capsule, wherein the cylindrical or conical element projects beyond the upper winding head by at least 1 mm. , For this 1 page drawing