DE2621735A1 - Refrigerator compressor capacitor motor - has thermal relay contacts across main capacitor to reduce contact wear - Google Patents

Abstract

The capacitor motor, for a refrigerator's compressor, has a main capacitor connected to its auxiliary winding and a starting capacitor switched in to aid starting. The main capacitor's capacitance is smaller than that of the starting capacitor. The main capacitor (3) is in series with the starting capacitor (4) and the switch contacts (6) are connected across the main capacitor (3). The main (1) and auxiliary (2) windings are connected in series across the two capacitors via the operating coil (7) of a thermal relay to which the switching contacts belong. Instead of contacts, a PTC resistor may be connected across the main capacitor.

Description

Capacitor motor. especially for a refrigeration compressor The invention relates to a condenser motor, in particular for a refrigeration compressor with a an auxiliary winding upstream operating capacitor and a switching means disconnectable starting capacitor, the capacitance of the operating capacitor being smaller than that of the drain capacitor.

Such a circuit is known from single-phase motors. Here a rotating field is generated by the auxiliary winding in which the current is opposite to the Main winding is out of phase by about 90 ° The phase shift is due to the operating capacitor connected in series to the auxiliary winding is established. Such Capacitor motors work with a squirrel cage. To improve the starting torque a starting capacitor is provided.

This is in a branch parallel to the operating capacitor, in which is also provided with a switching contact. This interrupts after the start-up of the Motor has the parallel branch with the starting capacitor.

Especially with motors that shift frequently, like this for example is the case with a motor for a refrigeration compressor, the contacts are one exposed to considerable current load, as they switch off the charged starting capacitor have to. This leads to increased signs of wear, such as contact wear and contact welding.

The object of the invention is to propose a capacitor motor in which the contact stress is at least reduced.

According to the invention, the stated object is achieved in that the Operating capacitor and the starting capacitor are connected in series and the switching means parallel to the operating capacitor. It turns out here that if as Switching means contacts are used which, when opened, do not damage them Current peaks can occur because the operating capacitor is connected in parallel with the contacts is. In case of operation, do h. after the engine has started, the starting capacitor deteriorates the function of the operating capacitor only slightly, since its capacitance value is larger than that of the running capacitor. The capacitance value of the starting capacitor is preferably higher by a factor of 10 than that of the operating capacitor. The capacity of the Series connection the capacitors differ only insignificantly from the capacitance of the operating capacitor away.

Another advantage of the circuit according to the invention is that that in a special embodiment the switching means is a resistor with a positive temperature coefficient A thermal relay with contacts is not necessary in this case. Before the Starting the resistance value is very small, so that the operating capacitor is practical short-circuited and only the starting capacitor is effective. In the course of the current flow the resistance increases sharply due to the resistance, so that after start-up essentially the operating capacitor the capacitance of the series connection of the capacitors certainly.

Further refinements of the invention emerge from the following Description of the drawing and the subclaims.

Shown are: Fig. 1 shows an embodiment of the invention in which as Switching means, a thermal relay is used and FIG. 2 shows an exemplary embodiment. in which a PTC resistor is used as the switching means.

A single-phase motor has a main winding 1 and an auxiliary winding 2 on. The auxiliary winding 1 is preceded by an operating capacitor 3. In series a starting capacitor 4 is connected to the operating capacitor 3. The capacitance of the operating capacitor is for example 10tF; that of the starting capacitor, for example 100gS.

The pole of the starting capacitor facing away from the operating capacitor 3 4 is on the main winding} Lzwo of phase R.

The windings 1 and 2 are connected to the neutral conductor N. A safety switch 5 is also provided as overload protection.

In FIG. 1, a contact 6 lies parallel to the operating capacitor 3. This is from a relay 7 connected upstream of the main winding 1 controlled that the contact 6 for a certain time, for example two minutes, after opens when the motor is switched on. Instead of the relay 7, another similar one can also be used effective switching option for contact 6 can be provided.

In FIG. 2 there is a resistor in parallel with the operating capacitor with positive temperature coefficient O A special one upstream of the main winding 1 Control device is omitted, otherwise this circuit is similar to the one based on the figure 1 described.

The operation of the described circuits is roughly as follows: When the engine is at a standstill, the contact 6 is closed or the resistor 8 points a low resistance value. When the motor is switched on, the Capacity of the starting capacitor effective, so that there is a high starting torque. After the motor has started, the thermal relay 7 has switched off as a result of the current flow heated by the main winding 1 to such an extent that the contact 6 is opened. In the event of the circuit according to Figure 2 has after the start of the PTC resistor 8 so far it warms that it has a very high resistance value.

It is now practically only the capacitance of the operating capacitor effective, which represents a significantly lower capacitive load for the network as the starting capacitor and sort for a defined direction of rotation.

When the contact 6 is opened, it is avoided that it carries high current peaks is loaded because the operating capacitor is parallel to it. By using of the PTC resistor 8 is the naturally complex thermal relay 7 and the contact 6 saved. This is possible because a PTC resistor is used in this circuit 8 is not inadmissible according to the connection regulations0

Claims (1)

Claims t) condenser motor, in particular for a refrigeration compressor, with an operating capacitor connected upstream of an auxiliary winding and a through a switching means switchable starting capacitor, the capacitance of the operating capacitor is smaller than that of the Antaßkondensators, characterized in that the Uetriebskondensior (3) and the starting capacitor (4) are connected in series and the switching means (6; 8) parallel to the operating capacitor (3) is 0 2o capacitor motor according to claim 1, characterized in that the switching means is a resistor with a positive temperature coefficient ist0 30 capacitor according to claim 1, characterized in that the switching means is a contact (6) controlled by a thermal relay (7). 4. capacitor motor according to one of the preceding claims, characterized characterized in that the capacitance of the starting capacitor (4) by a factor of approximately 10 is greater than that of the operating capacitor (3) o 5o capacitor motor after a of the previous claims, characterized in that the operating capacitor (3) opposite pole of the starting capacitor (4) on the main winding (1) is 0