HU188747B - Oil-cooled asynchronous motor particularly for hermetic coolant compressor - 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

BACKGROUND OF THE INVENTION The present invention relates to an oil-cooled asynchronous motor which is particularly suitable for refrigerant compressors for household and industrial refrigeration equipment.

Asynchronous motors used in a hermetic refrigerant compressor having inclined surfaces of various heights on the upper short-circuiting ring are known to provide oil distribution between the upper coil head and the housing. However, this solution does not provide an even distribution of oil over the entire upper coil head. The oil is sprayed into two flat bars, the lower drop oil droplets entering the coil head, while the upper flat oil droplets are dispersed through a gap between the coil head and the engine mount on the inner wall of the case. Spraying of oil in the coil head causes unacceptable temperature gradients in the coil head. Therefore, it is advantageous to apply the oil in the form of an oil film instead of the oil droplets to the coil head and through the gap between the coil head and the holder for the inner wall of the hermetic mantle.

It is an object of the present invention to significantly reduce the coil temperature and the temperature retention within the coil head of oil-cooled asynchronous motors compared to known solutions.

Accordingly, the problem to be solved is to provide an oil-cooled asynchronous motor in which the amount of oil required for cooling is continuously applied to the inner wall of the housing through an annular gap between the upper coil head and the motor housing, instead of oil droplets. forming.

The object is solved by implementing an oil-cooled asynchronous motor having a rotor and a stator and an upper and lower short-circuiting ring for the rotor! a cylindrical or conical element having radially formed sinusoidal cut-outs, the cylindrical or conical element extending at least 1 mm above the coil head, and having a sintered cage the cut-off procedure around the inflection point is tg = £ 1.5, where:

- n: number of cuts;

- h: height of cut-outs or roll head;

- d: average diameter of the cylindrical or conical element.

The sinusoidal recesses on the cylindrical or conical element ensure continuous oil coating of the upper coil head throughout its height and along its entire circumference in the form of a closed oil film. In this way, the coil temperature and the temperature inside the coil head can be significantly reduced.

The invention will be described in more detail with reference to the drawing. The drawing is a sectional side view of an exemplary embodiment of the apparatus of the invention.

As shown, the asynchronous motor 1 arranged in a hermetically sealed refrigerant compressor ^{15 has a} stator 3 and a rotor 4. From the oil sump, which is arranged at the bottom of the housing 12, the claj can be pumped by a shaft 5. The absorbed oil is used partly to lubricate the sliding parts and the other ² θ to be conveyed through the bores 6 in the shaft 5 to the cone shaped member 7 connected to the rotor 4, which preferably has two sinusoidal cutouts 8 through which the claj is Above the upper edge ^{b of} the conical element 7, through the annular gap 9, the oil is applied to the housing 12 between the upper coil head 10 and the engine mount 11. The sinusoidal notches 8 provide for the formation of an oil film which provides intensive cooling of the entire upper coil head 10.

Claims (1)

Claim _3. 5. Oil-cooled induction motor, in particular a hermetic refrigerant compressor having Armature and stationary portions, a short circuit cage of the rotor with upper and lower short circuit ring vm, characterized in that the rotor top (4) 40 has a cylindrical or conical shaped element (7) provided with cylindrical or conical shaped radially shaped recesses (8), the cylindrical or conical shaped element (7) extending at least 1 mm above the coil head (10), and cutting The sequence of 45 (8) at the inflection point corresponds to the relation,, n · h tg a ^ 1,5 --- π ci, where "n" is the number of cuts (8), "h" is the number of cuts (8), respectively, the height of the roll head (10) and the mean diameter of the cylindrical or conical element (7).