DE2047354A1 - Device to protect refrigerator compressors from overheating - Google Patents

Description

Device to protect refrigerator compressors from overheating The invention relates to a device for protecting refrigerator compressors from overheating.

Traditional devices used to protect refrigerator compressors against overheating have a bimetal circuit breaker that is inserted into the winding of the Motor is embedded and if the motor winding overheats the power supply to the gate switches off. Only when the winding has stopped @ ek @ and the bimetal contact has made closed again, the compressor motor can be switched on again by hand will. However, the use of a bimetal strip and contacts has that Disadvantage that the device is long lasting and expensive is.

The invention aims at a considerable cost reduction while at the same time Increase in the service life of the device.

This task is performed with a device for protecting refrigerator compressors against overheating with a heat-sensitive device according to the invention thereby solved that the heat-sensitive device in the one end portion of the motor winding is inserted and has a heat-sensitive resistance element that when heated Abruptly changes its resistance above a predetermined temperature and in Row with the ZuE; coil of an electromagnetic contactor for interruption the power supply to the motor or in series with the pull coil one the current flow through the pull coil of the contactor interrupting auxiliary relay is switched.

The following is an embodiment of the invention for sale to the prior art explained in more detail with reference to the drawings. They show: FIG. 1 a schematic representation of a conventional device for protecting a refrigerator compressor before overheating, FIG. 2 shows an electrical circuit diagram of the device according to FIG. 1, FIG. 3 is a front view of a motor winding of a refrigerator compressor embedded device according to the invention for protecting a compressor from overheating, FIG. 4 shows a side view of section A on an enlarged scale 5 and 5 show an electrical circuit diagram of the device according to the invention according to FIGS. 3 and 4.

1 and 2 is a conventional device for protecting a Refrigerator compressor shown from overheating. A bimetal circuit breaker 2 'is embedded in the winding of the motor 1' of the compressor. If the engine weighs overheated the circuit breaker 2 'opens its contacts 4' and 5 ', since the bimetal strip 3 'of the switch is deflected by the heat. This creates an electromagnetic Contactor 6 'or an auxiliary circuit having a relay coil @ is interrupted and the power supply to motor 1 'is switched off. When the winding is sufficient again has cooled down, the contacts 41 and 5 'of the circuit breaker 2 close again, so that the Schaltschü @@ 6 'by actuating an ON switch 8' by hand again closed and thus the motor 1 'can be switched on again.

F @ and 4 show the embedding arrangement in a schematic representation a heat-sensitive resistance element with positive resistance-temperature characteristics in the motor winding of a refrigerator compressor according to a preferred one Embodiment of the invention.

3 and 4, a thermosensitive resistance element 1 is shown with positive resistance-temperature characteristics in the winding: of the motor 14 of a refrigerator compressor.

The resistance element 1 can be accommodated in a metal housing and be airtight, or it is just its surface with the help of a Synthetic resin hardened without the element being enclosed by a housing. If the housing of the resistance element 1 'is not opposite the parts in contact with the voltage of the element is isolated, the resistance element 1 by means of a Tetron film 6 must be insulated from the motor winding covering the entire circumference of the resistance element 1 covered.

A Tetron blade 2 is used to brace the heat-sensitive resistance element 1 with an end section A of the motor winding. On the head part of the resistance element 1 is a Recess) is provided into which the blade 2 is inserted is, and from the resistance element 1 leads an insulated with polytetrafluoroethylene Line 4 out. A copper sheath 5 inserted into the motor winding speaks over a large area on the temperature of the motor winding.

Fig. 5 shows a circuit diagram of the electrical connections and connections the device according to the invention.

The resistance element 1 is in series with a normally open contact 9 and the pull coil 10 of an auxiliary relay and a stop switch 16 to an electrical Supply current source 7 connected to which also the pull coil 12 of an electromagnetic Contactor and another working contact of the auxiliary relay connected one behind the other are. A start switch is located parallel to the resistance element 1 and to the normally open contact 9 8 and a break contact 15 of the auxiliary relay connected in series. The resistance value of the thermosensitive element 1 is connected to the impedance of the coil of the auxiliary relay adjusted and increases abruptly to a value at which that by the pull coil 10 current flowing through the auxiliary relay drops below the self-holding current of this relay, when the temperature of the compressor motor winding reaches a predetermined value, whereby the auxiliary relay drops out and its normally open contact 9 opens. To this In this way, protection against overheating of the refrigerator compressor is achieved.

Up to the switch-off temperature, element 1 shows certain properties, that the self-generation of heat is largely suppressed.

As soon as the temperature of the compressor motor winding returns to a has dropped a predetermined value, at which a reset of the system is permissible is, d @ resistance of element 1 has also decreased so much that du @ ch the pull coil 10 of the auxiliary relay allows current to flow de @ holding current. Now the auxiliary relay can be re-energized by pressing the start switch 8, so that the working contact 11 closes and the contactor pulls down.

The normally closed contact 15 of the auxiliary relay is used to open the start switch 8 containing auxiliary circuit, if the Schalser 1S is of the non-restoring type is.

ei used in the embodiment of the invention described above the thermosensitive device has a thermosensitive resistance element whose Resistance increases sharply when heated above a predetermined temperature.

A copper sheathing is used to transfer the temperature of the motor winding inserted between the element and an insulating coating covering it. Through the heat-sensitive arrangement, which the resistance element changes in temperature the motor winding can be felt, thus the heat-sensitive device becomes compact. In addition, the thermosensitive element can be non-contact, so that it is almost unlimited Has operating life and is considerable compared to conventional bimetal systems guaranteed reduced costs.

Bel use of a coolant and heat resistant material for the structure of the thermosensitive device becomes particularly advantageous heat-sensitive arrangement achieved.

Since the thermosensitive device according to the invention in an end portion the motor winding is inserted, while the heat-sensitive resistance element in series with an electromagnetic contactor to switch off a power supply to the motor or with a circuit for supplying power to a coil of an auxiliary relay is switched, the heat-sensitive element is able to change the temperature of the Measure motor winding, the one passing through the coil of the electromagnetic contactor or current flowing through the coil of the auxiliary relay due to changes in the resistance value of the element is varied. The power source of the refrigerator compressor motor can be switched off or on again in this way, so that the invention offers reliable protection against overheating and simplifies electrical connections.

Claims (3)

P a t e n t a n s p r ü c h e 1. Device for protecting a refrigerator compressor from overheating with a heat-sensitive device inserted in the winding of the compressor motor, characterized in that the heat sensitive device is in the one end portion the motor winding is inserted and a heat-sensitive resistance element (1) has, which when heated above a predetermined temperature abruptly its resistance changes and in series with the pull coil (12) of an electromagnetic contactor to interrupt the power supply to the motor or in line with the pull coil (10) a Hufs relay which interrupts the current flow through the pulling coil of the contactor (1) is switched. 2. Apparatus according to claim 1, characterized in that the resistance element is wrapped in an insulating coating (6) and that between the resistance element (1) and the insulating cover a heat-transferring copper sheath (5) inserted is. 3. Apparatus according to claim 1 or 2, characterized in that the resistance element (1) and / or the insulating coating (6) surrounding it from one heat and coolant resistant material.