RU2699844C1 - Cooling system compressor - Google Patents

Abstract

FIELD: refrigerating equipment.

SUBSTANCE: invention relates to spiral compressors of cooling system. Compressor comprises pressure sail, housing 1 with high and low pressure chambers 2 and 3, electric motor 4 arranged in housing 1, movable spiral 5 coupled with housing 1, fixed spiral 6 and oil system. Oil system includes oil separator 7 and oil cooler 8. Oil separator 7 is located in cavity 2. Refrigerator 8 is located in cavity 3 with possibility of sucked gas passage through it. Flat rectangular frame 9 is attached to housing 1 lower part by three transverse plates 10, 11 and 12. Middle plate 11 is connected with yoke 13. Triangular plates 14 and 15 with attachment hinges in upper part are attached to smaller sides of frame 9. In the lower part of plate 15 located closer to cavity 2, on the lateral side the rotation mechanism connected to the control device and the angular speed sensor is attached.

EFFECT: invention is aimed at providing operation of a compressor placed on a movable unit.

1 cl, 2 dwg

Description

The invention relates to the field of mechanics, namely to spiral rotary machines and is intended for use as part of refrigeration units and air conditioning systems on mobile units (vehicles, rotating devices, etc.).

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 [US 4552518 A, 12.11.1985, F01C 11/04].

The disadvantages of this device include the impossibility of taking oil from the crankcase during movement, for example, rotational. The reasons for this are the impact on the oil of inertial forces, in this case, centrifugal, displacing the oil from the capture zone.

Closest to the proposed invention is a scroll compressor comprising a housing with high and low pressure cavities, an electric motor, a movable scroll connected to its rotor and a fixed scroll connected to the housing and an oil system including an oil separator and an oil cooler, an oil separator is located in the high cavity pressure, and the oil cooler - in the low-pressure cavity with the possibility of passage of the suction gas through the oil cooler. For the release of compressed gas in the housing placed discharge pipe. [RF patent No. 2215190 IPC F04C 18/04].

The disadvantages of this device include the impossibility of taking oil by spiral elements from the bottom of the compressor during the rotational movement of the unit. The reasons for this are the impact on the oil of inertial forces, in this case, centrifugal, displacing the oil from the capture zone. In addition, the mounting elements of this device are not strong enough and are practically unsuitable for installation on mobile devices.

The objective of the invention is to provide a compressor of a cooling system providing oil intake during rotational movements of the installation and having small dimensions and reliable mounting to the installation.

The task is achieved in that in the compressor of the cooling system containing the discharge pipe, a casing with high and low pressure cavities, an electric motor, a movable scroll connected to its rotor and a fixed scroll and an oil system connected to the casing, including an oil separator and an oil cooler, the oil separator is located in the high-pressure cavity, and the oil cooler is in the low-pressure cavity with the possibility of the intake gas passing through the oil cooler to the bottom a flat rectangular frame is attached to the body part by means of three transverse plates, the middle of which is connected to the clamp, to the smaller sides of the rectangular frame are attached triangular plates with hinges, in the upper part, and in the lower part of the triangular plate located closer to the high-pressure cavity, on the side, a rotation mechanism is attached associated with the control device and the angular velocity sensor.

In FIG. 1 shows a diagram of a compressor for a cooling system (positions 18, 19, 20 not shown).

In FIG. 2 shows view A.

The compressor for the cooling system comprises a housing 1 with cavities of high 2 and low 3 pressure, an electric motor 4 located in the housing, a movable scroll 5 connected to its rotor and a fixed scroll 6 connected to the housing 1 and an oil system. The oil system consists of an oil separator 7, which is located in the high-pressure cavity 2, and an oil cooler 8 installed in the low-pressure cavity 3 with the possibility of passage of the suction gas through the oil cooler 8.

A flat rectangular frame 9 is attached to the lower part of the housing 1 by means of three transverse plates 10, 11 and 12. The middle transverse plate 11 is connected to the clamp 13. Triangular plates 14 and 15 are attached to the smaller sides of the rectangular frame 9 with mounting hinges 16 and 17 in the upper parts.

In the lower part of the triangular plate 15, located closer to the high-pressure cavity 2, on the side there is attached a rotation mechanism 18 connected to the control device 19 and the angular velocity sensor 20.

The compressor of the cooling system operates as follows

Suction gas (refrigerant) enters the cavity 3 of low pressure, passing through the oil cooler 8 and cooling the oil.

Then the gas enters the spirals 5 and 6, is cut off with the formation of paired cavities and is compressed together with the oil, which accumulates in the lower part of the housing 1 and is captured by the spirals 5 and 6. The compressed gas, together with the oil, is pushed into the discharge window located in the center of the fixed spiral 6 .

Next, the gas-oil mixture enters the oil separator 7, where the oil is separated and flows into the lower part of the high-pressure cavity 2, from where it passes through the pipeline to the refrigerator 8, where it is cooled and sent to lubricate the friction units. Compressed gas escapes through the discharge pipe.

To enable the intake of oil from the lower part of the housing 1, the compressor of the cooling system is equipped with the ability to rotate relative to the installation. In the case of rotational motion, the angular velocity sensor 20 is activated, which transmits a signal to the control device 19. In the control device 19, information is processed from the sensor 20 and a command is given to the rotation mechanism 18, which rotates the cooling system compressor together with the frame 9 in hinges 16 and 17 by a certain an angle that provides effective oil selection at a given angular velocity of the installation.

To ensure the required location of the housing 1 during its rotation and rotation of the installation, a flat rectangular frame 9 is attached to its lower part with the help of three transverse plates 10, 11 and 12, the middle transverse plate 11 being connected to the clamp 13 thrown over the housing. Such fastening provides reliable fixation of the housing in the required position, which ensures a constant intake of oil.

Due to the fact that triangular plates 14 and 15 with fastening hinges 16 and 17 in the upper part are attached to the smaller sides of the rectangular frame 9, it is possible to provide minimal space for turning the case. The execution of the plates 14 and 15 triangular increases their rigidity.

The fastening of the rotation mechanism 18 to the lower part of the triangular plate 15, located closer to the high-pressure cavity 2, from its lateral side, also makes the placement compact, since there are gas supply elements from the side of the plate 14 (not shown in Fig. 1).

The present invention will allow for the operation of compressor installations located on moving objects, and the proposed mounting system of the rotation mechanism provides a small occupied space.

Claims (1)

A compressor of a cooling system comprising a discharge pipe, a housing with high and low pressure cavities, an electric motor, a movable scroll connected to its rotor and a fixed scroll connected to the housing and an oil system including an oil separator and an oil cooler, an oil separator is located in the high pressure cavity, and the oil cooler - in the low-pressure cavity with the possibility of the intake gas passing through the oil cooler, characterized in that to the bottom of the housing A flat rectangular frame is fastened with three transverse plates, the middle of which is connected to the clamp, to the smaller sides of the rectangular frame are attached triangular plates with hinges in the upper part, and the lower part of the triangular plate closer to the high-pressure cavity is attached to the side rotation mechanism associated with the control device and the angular velocity sensor.

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