RU23649U1 - HORIZONTAL SPIRAL COMPRESSOR - Google Patents

Abstract

1. A spiral machine comprising a casing with high and low pressure cavities, an electric machine located in the casing, a movable scroll connected to its rotor and a fixed scroll connected to the casing, and an oil cooler, characterized in that the oil cooler is placed with the possibility of low pressure cooling the oil with suction gas. 2. The machine according to claim 1, characterized in that an oil separator is placed in the high-pressure cavity. The machine according to claims 1 and 2, characterized in that the oil cooler is made with fins. 4. A machine according to any one of claims 1 to 3, characterized in that the line for supplying oil to the oil cooler includes a filter and a shut-off valve, configured to block said line when the machine is stopped.

Description

iSilpWP p o, s 1/00

Horizontal Drum Compressor

The utility model relates to the field of mechanics, namely, to spiral rotary machines.

A horizontal scroll compressor is known, comprising a housing with high and low pressure cavities, an electric motor located in the housing, a movable scroll connected to its rotor and a fixed scroll connected to the housing, and an oil system including an oil separation system and an oil cooler (RU 2161736).

In the known compressor, the oil cooling efficiency is low.

The technical result of the proposed utility model is to increase the efficiency of oil cooling.

The technical result is achieved in that in a spiral machine containing a housing with high and low pressure cavities, an electrical machine, a movable spiral connected to its rotor and a fixed spiral connected to the housing, and an oil system including an oil separator and an oil cooler are located in the spiral machine in the low-pressure cavity with the possibility of cooling the oil by the suction gas.

In addition, the oil separator can be placed in the high pressure cavity.

In addition, the oil cooler may be finned.

The oil supply line to the oil cooler may include a filter and a shut-off valve configured to shut off the specified line when the machine is stopped.

The essence of the utility model is illustrated by drawings.

figure 1 in the open position; in FIG. 4 is a view along arrow B in FIG. 1 without a back wall; figure 5 - section bb in figure 1.

A spiral machine, namely, a horizontal scroll compressor, comprises a housing 1 having cavities of high 2 and low 3 pressure. The stator of the electric motor 4 and the housing of the roller bearing 5 are pressed into the housing 1, on which the fixed spiral 6 is fixed with the help of: and bolts. A rotor of the electric motor 4 is pressed onto the eccentric drive shaft 7 and a fixed spiral 8 is installed. Bearing supports 9 of the shaft 7 and counterweights 10 are also installed in the housing 1 for dynamic balance of the rotor.

The oil system housed in the housing includes an oil separator 11, an oil supply line 12 with a filter 13 and a shut-off valve 14, and an oil cooler 15 located in the low pressure cavity 3 in the gas suction zone and having fins.

The compressor operates as follows.

The axis of the spirals 6, 8 are offset by the eccentricity of the eccentric shaft 1, while remaining parallel to each other. Between the spirals 6, 8, paired closed cavities are formed, the volume of which changes with the relative movement of the spirals 6, 8. The movable spiral 8 cannot rotate around its axis. It performs only orbital motion in a circle with a radius equal to eccentricity. Simultaneously with the compression process and subsequent gas displacement in one pair of cavities, a new pair of cavities is formed, they are gradually filled with fresh gas throughout the cycle, then the process is repeated. The suction gas (refrigerant) enters the low pressure cavity 3, passing through the refrigerator 15 and cooling the oil. Further, a part of the gas passes into the cavity 2 and cools the shell of the electric motor 4. During its movement, the gas is heated, providing the necessary gas overheating at the suction for refrigerators (for Freon 12 Tper 30 ° C). Next, the gas enters the spiral 6, 8, cuts off with the formation

paired cavities and is compressed together with oil, which accumulates in the lower part of the compressor and is captured by spiral elements, thus falling into the cut off cavity of the compressor. The compressed gas along with the oil is pushed into the discharge window located in the center of the fixed scroll 6. The mixture of gas and oil enters the first and second stages of the oil separator 11. The oil is separated and flows into the crankcase located in the high-pressure cavity 2. Next, the oil through the filter 13 through the pipeline enters the refrigerator 15, is cooled (the oil is cooled in the refrigerator 15 by flowing around the tubes with suction refrigerant vapor) and is sent to lubricate the friction units. Cooling and lubricating the friction units, the oil is drained into the lower part of the compressor housing 1, captured by the spirals 6 and 8 and gets into the cut off cavities, where it is compressed together with the gas (see above).

Compressed gas leaves through the heating pipe 16c with a filter 17 (Fig. 5).

When the compressor stops, the gas from the high-pressure cavity 2 through the injection hole flows into the low-pressure cavity 3, causing the spirals 6 and 8 to reverse rotation. Continuous reverse rotation is an undesirable process. To prevent reverse rotation on the injection channel, a check valve is installed that prevents gas from flowing from cavity 2 into cavity 3. To prevent oil from flowing from cavity 2 into cavity 3, a shut-off valve 14 is installed on the oil supply line, blocking the channel after the compressor stops (Fig. 2, 3).

Claims (4)

1. A spiral machine comprising a casing with high and low pressure cavities, an electric machine located in the casing, a movable scroll connected to its rotor and a fixed scroll connected to the casing, and an oil cooler, characterized in that the oil cooler is placed with the possibility of low pressure cooling the oil by the suction gas.  2. The machine according to claim 1, characterized in that an oil separator is placed in the high-pressure cavity.  3. The machine according to claims 1 and 2, characterized in that the oil cooler is made with fins. 4. Machine according to any one of claims 1 to 3, characterized in that the line for supplying oil to the oil cooler includes a filter and a shut-off valve configured to shut off the specified line when the machine is stopped.