DE2134235A1 - Motor compressors, in particular for hermetically sealed refrigerant compressors - Google Patents

Description

Motor compressors, in particular for hermetically sealed refrigerant compressors The invention relates to a method for relieved starting of a motor compressor, especially for hermetically sealed refrigerant compressors.

It is known that the electric motor is a hermetically sealed Refrigerant compressor must be designed so that the motor compressor against a Pressure resulting from the proportions of the condenser used and the one used Control organ results, starts up.

It is also known that in refrigeration machines with a capillary tube as a throttle device, as a result of the pressure equalization that occurs during standstill, light ground conditions for the run-up result.

In the case of chillers with a throttle valve, however, occurs at a standstill no pressure equalization, so the motor compressor must with the existing pressure difference between the condensing pressure and the evaporation pressure. The approach among these However, difficult conditions requires an expensive auxiliary capacitor phase.

It is necessary to have the same cooling capacity range two To provide motor designs for easy as well as difficult starting to enable.

In order to facilitate the start-up, especially for refrigeration machines with capillary tubes, it is already known to provide the suction valve plate with a fine bore or to make a fine scratch in it so that it is above the piston in the compression chamber no increased pressure can build up.

For the same purpose it is known on the surface of the piston to earth a spiral groove that serves as a relaxation capillary.

It is also known between the suction valve plate and the valve seat plate to put a film at the clamping point, so that a leaky suction valve at standstill is present, which causes an undesirable pressure build-up at standstill above the Piston excludes. Another known construction uses a device at which the rotor is rotatably arranged relative to the drive shaft, so that the Motor can start unloaded for a few electrical degrees.

However, the listed state of the art has the disadvantage that all known devices are mostly based on refrigerating machines with capillary injection limit or contain agents that cause a deterioration in the degree of delivery. On the other hand, these devices only allow a compression stroke axinally Limited start-up relief, whereby in the following stroke immediately against the upcoming one Condensing pressure must be promoted.

This is a limited facilitation of the start-up of the motor compressor achievable, but such a favorable start-up behavior as it is with pressure equalization between pressure and suction side does not appear.

The purpose of the invention is to use the same motor compressor for a capillary tube operation as well as for operation with an injection valve, see below.

The invention is based on the problem of starting up the motor compressor disturbing condensing pressure existing on the pressure side by achieving a Cancel pressure equalization between pressure and suction side.

According to the invention, this is achieved by the fact that a gas valve known per se contains a piston which alternately has a relaxation bore or a refrigerant hole closes. About the relaxation hole can the pressure built up in the pressure chamber when the motor compressor is at a standstill in the capsule relax. In order to guarantee perfect functioning, it is necessary to that the flow resistance of the expansion hole the flow resistance of the Käötmittelbohrung exceeds. Corresponding to the installation of the piston in the throttle slide the respective pressure conditions is always open above the piston Connection to the pressure line, while a through hole below the piston establishes the connection to the pressure chamber.

The advantage of the invention is while maintaining the performance parameters of the hermetically sealed refrigerant compressor is necessary for valve operation lotor with starting capacitor by a cheap motor with resistance auxiliary phase to replace.

The invention is to be described in more detail below using an exemplary embodiment explained. The associated drawing shows: FIG. 1: a section at a standstill of the motor compressor Fig. 2s shows a section when the motor compressor is running In Fig. 1, the motor compressor is hermetically sealed by the capsule 1 from the environment. In addition to all the necessary individual parts not shown here, it contains a Cylinder 2 and a pressure chamber 5, which is firmly connected to the cylinder 2 by a Molded part 3 and the bearing shell 4 acting as a cover is enclosed. In the printing room 5 is the gas slide 6 with the interposition of a connector 7 in the dio pressure line 8 opens, arranged.

The one loaded with the compression spring 10 moves in the cylinder 2 Piston 9 differ depending on the pressure present.

At a standstill, the piston 9 is moved into its lowest position by the compression spring 10 Pressed position, which is limited by the bolt 14. At the same time the with the connection piece 7 and the pressure line 8 via the outlet hole 15 in connection standing refrigerant bore 12 closed and the relief bore 11 opened, so that the refrigerant vapor enclosed in the pressure chamber 5 enters the interior of the capsule 1 is entepennt.

After the motor compressor has been switched on again as shown in FIG refrigerant is introduced into the pressure chamber by the stroke movement of the piston (not shown) 5 promoted. If the resulting pressure in the pressure chamber 5 exceeds the component the pressure above the piston 9 plus the force of the compression spring 10 is the piston 9 upward by refrigerant flowing into the through hole 13 moved and the expansion hole 11 closed, the refrigerant vapor the The refrigerant bore 12 passes through the outlet bore 15 into the connection piece 7 arrives and finally flows through the pressure line 8.

Claims (3)

Claims 1. Motor compressors, especially for hermetically sealed refrigerant compressors, which starts relieved by means of a gas valve, characterized in that the The gas valve (6) arranged in the pressure chamber (5) contains a piston (9) which alternately contains the relief bore (11) or the refrigerant bore (12) closes. 2. Motor compressor according to claim 1, characterized in that the Flow resistance of the expansion bore (11) the flow resistance of the refrigerant bore (12) exceeds. 3. Motor compressor according to claim 1 and 2, characterized in that that above the piston 9 there is always an open connection to the pressure line (8).