DE936214C - Compressor for cooling systems - Google Patents

Description

Compressor for refrigeration systems The invention relates to compressors for refrigeration systems, especially those compressors that are subject to overload appealing device for switching off the compressor are equipped.

According to the present invention, the compressor drive is switched off, before an excessively high compression discharge pressure develops in the outlet of the compressor can, with the help of a valve device, which on a predetermined Pressure at the outlet of the compressor responds and artificially overloads the compressor, to initiate actuation of the overload responsive device.

The invention is illustrated in the drawing, for example.

Fig. I shows a vertical partial section of an inventive Compressor; Fig. A shows a section along the line II-II in Fig. I; Fig. Fig. 3 shows a section along the line III-III in Fig. I; Fig. Q. shows enlarged Scale and partly in section a view of the auxiliary valve; Fig. 5 is a diagram a cooling system as used in the invention.

The cooling system to which the following description refers is intended for use in household refrigerators. It should be noted, however, that the invention also in all other types of cooling systems; the one compressor can be used.

A fully closed and sealed motor compressor unit io (Fig. 5) lets compressed coolant escape into a condenser 1a which the liquefied refrigerant via a fixed throttle tube 16 to a first coil evaporator 14 is supplied. With the vaporizer 1q. is a second plate evaporator in series switched. That evaporated in the evaporators Is refrigerant. then fed back to the motor compressor unit io via a return line 2o.

A thermostat sensor 24 mounted on the plate evaporator 18 is connected to a pressure operated switch 26 which is located in the circuit of the compressor motor and which controls the operation of the motor according to the temperature of the plate evaporator. An overload protection switch 30 for the motor is also arranged in the mentioned circuit of the compressor motor, as is described, for example, in patent specification 838 oi2. This switch 30 is located between the motor and the switch 26 and a manually operated switch. The circuit breaker 30 switches off the motor when it is overloaded.

It has been found that in the case of plate evaporators, the frost bubbles can develop near the edges of these panels, the size of which can possibly grow and create the leaks in the evaporator can. Since the pressure in the evaporator drops below atmospheric pressure, occurs these leaks air into the system. This air in turn brings moisture into the system, which tends to be in the throttle tube i6 between the condenser and the evaporator to freeze. In this case, the flow of refrigerant to the evaporator is interrupted and thus creates a back pressure at the compressor outlet, while at the same time very much small amounts of air are drawn into the suction side of this compressor and the The final compression pressure in the system gradually increases. Because the amount of air that Entering the system in this way is usually very small, the compressor becomes not overloaded, even if the external compression pressure becomes dangerously high.

As shown in Fig. I, the motor-compressor unit has a housing 44, in the upper part of which a motor stator 52 and a tube 5o are arranged. Of the The rotor has a drive shaft 46 which has an eccentric portion which a compressor piston 48 carries. The piston 48 runs in a master cylinder 32, which is arranged between end plates 34 and 36 - A separator 37 (Fig. 2) separates an inlet port 22 which is connected to the return line 2o from an outlet port 38 which communicates with a conduit 40 (Fig. 5) which leads to a small heat exchanger 42, through which some of the heat of the the compressor exiting refrigerant is discharged before the refrigerant in the housing 44 is returned.

In the upper end plate 34 is a valve device according to the invention 6o attached, with which the compressor artificially when excessively high final pressures occur is loaded, thereby actuating the overload protection switch and the compressor turn off.

The valve 6o consists of a piston 63 which is pressed sealingly onto the valve seat 66 at the end of a recess 62 by a helical spring 68. The lower end of the helical spring 68 is held by a cup-shaped insert 70 which is screwed into the recess 62. This insert 7o has a screwdriver slot 72 which crosses an axial gas passage 74 in the lower wall of the insert, the lower end of which is curved at 76. The insert 70 lies, in part, above the cylinder 32, which prevents the insert 7o from moving downwards and with the. Piston 48 comes into contact. A portion of the domed face 76 of the insert 70 overlies the compression chamber. The screw tenon slot 72 connects the central passage 74 with the compression chamber 64 through the free space that is formed by the curved end face 76, regardless of the respective angular position of the slot 72.

The piston 63 normally blocks a passage 6-5 which is in communication with the interior of the housing 44 , into which the compressed refrigerant exits from the outlet line 4o. The opening of the recess 62 leads to the inlet side of the compressor chamber 64 in the cylinder 32 in the vicinity of the inlet opening 22, so that after opening the valve under excessively high compression end pressure in the building 44, high pressure gas enters the chamber 64. The motor lacks the necessary power to compress this gas further, so that the overload protection switch 30 comes into operation and switches off the compressor motor before the pressure continues to rise.

Claims (3)

PATENT CLAIMS: i. Compressor for a cooling system with an overload appealing device for switching off the compressor, characterized by a valve device (6o), 'which to a predetermined pressure at the outlet (40, 44) of the compressor (io) responds and artificially overloads the compressor (5o), by feeding compressed refrigerant into the inlet side of the compressor chamber (64) initiates and thereby the overload-responsive device (30) in action puts. 2. Compressor according to claim i, characterized in that the valve device (6o) is arranged in a bypass (62, 65) between the outlet of the compressor and the suction side (22) of the compressor chamber (64) and normally through the valve device is closed. 3. Compressor according to one of the preceding Claims, which with an electric motor enclosed in a common housing is characterized by an overload switch (30) through which the motor (50, 52) is switched off depending on an overload of the motor (50, 52).