CN201435705Y - Combined type low power-consumption starting thermal protector - Google Patents

Abstract

The utility model relates to a combined type low power-consumption starting thermal protector, comprising a shell, a cover board, a first plug pin and a second plug pin, and a two-way controlled silicon, a first positive temperature coefficient thermo-sensitive resistor and a second positive temperature coefficient thermo-sensitive resistor which are further arranged are arranged in the shell, theone end of the first positive temperature coefficient thermo-sensitive resistor corresponds to the leading-out end of a main winding of the motor, the other end of the first positive temperature coefficient thermo-sensitive resistor is connected with a second electrode of the two-way controlled silicon, one end of the second positive temperature coefficient thermo-sensitive resistor corresponds to the leading-out end of the main winding of the motor, the other end of the second positive temperature coefficient thermo-sensitive resistor is connected with a trigger electrode of the two-way controlled silicon, a first electrode of the two-way controlled silicon corresponds to the leading-out end of a secondary winding of the motor, the resistance value of the second positive temperature coefficient thermo-sensitive resistor is 600-1800 omega, and the volume thereof is 20-28mm<3>, and the shell is provided with a thermal protector loading cavity. The combined type low power-consumption starting thermal protector has the advantages of high reliability, simple structure, small volume and low power consumption.

Description

Composite type low-power consumption starting thermal protector

Technical field:

The utility model relates to a kind of refrigerant compressor and starts thermal protector with the composite type low-power consumption, is mainly used in the starting of the compressor electric motor of tape running electric capacity, also can be used for the starting of general load motor.

Background technology:

Referring to Fig. 1, refrigerant compressor adopts the split-phase type monopole asynchronous motor mostly, for electronic function is started voluntarily, on the stator core of motor, be provided with two cover windings, promptly in order to the main winding 181 ' of generation main field with in order to produce the auxiliary winding 182 ' of auxiliary magnetic field.The synthetic rotating magnetic field cutting stationary rotor in major and minor magnetic field, energising back produces certain electromagnetic torque, make rotor begin rotation, rotor torque after the starting will increase gradually, when rotating speed reaches 75%～80% synchronous speed, cut off auxiliary winding 182 ' loop, motor still can continue to rotate raising speed, until reaching and external impedance torque balance, steady running.Usually utilize positive temperature coefficient thermistor R1 (PTC) starter to finish starting process at present, on the auxiliary winding 182 ' of refrigeration compressor motor, be in series with the PTC starter, the PTC starter is in little resistance conducting state at normal temperatures, thermal effect when when starting because of electric current, PTC element temperature at short notice raises, after reaching Curie point, its resistance value rapidly increases to more than tens kilo-ohms, this moment, the impedance ratio with auxiliary winding 182 ' was equivalent to open circuit, the electric current of Chuan Lian starting winding is reduced to below tens milliamperes with it, at this moment motor starting process is finished, and enters normal operation.When motor runs well, still there is tens milliamperes the electric current of keeping to pass through in the PTC element, to keep the heating of PTC element, stop the electric motor starting winding when the motor operate as normal, to be had an effect, this power consumption of keeping the PTC element heating is usually about 3W.Because this motor is widely used, this heating power consumption has caused a large amount of wastes of electric energy.

In addition, at present refrigerant compressor mostly is monomer greatly with starter and thermal protector, and user's thermal protector of must packing into earlier on the compressor wiring post when mounted reinstalls starter, and moves when assembling in the side more awkwardly, and installation effectiveness is low.

The utility model content:

The purpose of this utility model provides a kind of reliability height, thermal protector is started in the composite type low-power consumption that is used for refrigerant compressor simple in structure, easy for installation, that power consumption is low.

The utility model solves the problems of the technologies described above the technical scheme that is adopted: this composite type low-power consumption starting thermal protector; comprise shell; cover plate; first pin; second pin; shell is connected with cover plate; it is characterized in that also being provided with bidirectional triode thyristor; first positive temperature coefficient thermistor and second positive temperature coefficient thermistor; bidirectional triode thyristor; first positive temperature coefficient thermistor; second positive temperature coefficient thermistor is installed in the shell; first positive temperature coefficient thermistor, one end is corresponding with motor main winding exit; the first positive temperature coefficient thermistor other end is connected with second utmost point of bidirectional triode thyristor; second positive temperature coefficient thermistor, one end is corresponding with motor main winding exit; the second positive temperature coefficient thermistor other end is connected with the The Trigger of Bidirectional Triode Thyristor utmost point; first utmost point of bidirectional triode thyristor is corresponding with motor auxiliary winding exit, and the volume of described second positive temperature coefficient thermistor is 20～28mm ³, shell is provided with thermal protector and loads die cavity.Because the volume of second positive temperature coefficient thermistor is 20～28mm ³It only is about 10% of the first positive temperature coefficient thermistor volume, therefore the loss of electric energy also only is about 10% of first positive temperature coefficient thermistor, because significantly reducing of the second positive temperature coefficient thermistor volume, make electric energy loss also reduce greatly, compressor starts required recovery time of also significantly shortening once more simultaneously, has improved compressor start efficient.

The utility model is by being positioned at one or more strong points support thermal protectors that thermal protector loads die cavity, and thermal protector loads in the die cavity thermal protector claw is set, so that thermal protector is positioned and fixes.

The utility model thermal protector loads die cavity can adopt circle, rectangle or polygon.

The utility model also is provided with the operation capacitor connection terminal, and the operation capacitor connection terminal is separately positioned on first pin, second pin, and the operation capacitor connection terminal can directly patch the operation capacitor, to improve starting performance and operating efficiency.

The diameter of second positive temperature coefficient thermistor described in the utility model is Φ 3.5 ± 0.1mm, and thickness is 2.5 ± 0.1mm.

The utility model shell is provided with first pin location die cavity, second pin location die cavity, first positive temperature coefficient thermistor location die cavity, second positive temperature coefficient thermistor location die cavity and bidirectional triode thyristor location die cavity, and the shell both sides also are provided with the location square hole.

The utility model cover plate is provided with cover plate first pin location die cavity, cover plate second pin location die cavity.

The utility model cover plate is provided with claw, and claw is vertical with the cover plate plane, the location square hole clamping of the claw of cover plate and shell.

The utility model first pin is connected on the compressor main winding, second pin is connected on the compressor auxiliary winding, compressor start moment, be connected on second positive temperature coefficient thermistor in bidirectional triode thyristor triggering loop and first positive temperature coefficient thermistor that is connected on the bidirectional triode thyristor major loop and all be in little resistance conducting state, trigger current is bigger, so the bidirectional triode thyristor conducting, this moment first positive temperature coefficient thermistor and conducting of compressor auxiliary winding and starting compressor motor; Continuous increase along with first positive temperature coefficient thermistor and the second positive temperature coefficient thermistor resistance value, the bidirectional triode thyristor trigger current descends gradually, bidirectional triode thyristor cuts out automatically, first positive temperature coefficient thermistor and the automatic disconnection of compressor auxiliary winding, there is not electric current to pass through, so first positive temperature coefficient thermistor heating power no longer.

The utility model is by second positive temperature coefficient thermistor sampling correlated current signal, can control the heating power consumption of first positive temperature coefficient thermistor effectively, usually the power consumption of this sampling system can both be hanged down and be reached the milliwatt level, just so-called " zero-power " starter, thus energy-saving efficiency improved greatly.Because the volume of second positive temperature coefficient thermistor is 20～28mm ³It only is about 10% of the first positive temperature coefficient thermistor volume, therefore the loss of electric energy also only is about 10% of first positive temperature coefficient thermistor, because significantly reducing of the second positive temperature coefficient thermistor volume, make electric energy loss also reduce greatly, compressor starts required recovery time of also significantly shortening once more simultaneously, has improved compressor start efficient.Simultaneously, the utility model design circuit is simple, and electronic devices and components quantity is few, when guaranteeing the compressor start performance, has also improved the reliability of compressor start performance.

Description of drawings:

Fig. 1 is the prior art electrical schematic diagram;

Fig. 2 is the utility model embodiment electrical schematic diagram;

Fig. 3 is the element exploded perspective view of the utility model embodiment;

Fig. 4, Fig. 5 are the axonometric drawing of the utility model embodiment;

Fig. 6 removes the axonometric drawing of cover plate for the utility model embodiment;

Fig. 7 removes the axonometric drawing of cover plate, first thermistor, second thermistor for the utility model embodiment;

Fig. 8 removes the axonometric drawing of cover plate, first thermistor, second thermistor, bidirectional triode thyristor for the utility model embodiment;

Fig. 9 is the utility model embodiment enclosure axis mapping;

Figure 10 is the utility model embodiment plate shaft mapping;

Figure 11 is the utility model embodiment first pin assembly axonometric drawing;

Figure 12 is the utility model embodiment second pin assembly axonometric drawing.

Embodiment:

Referring to Fig. 2, the principle of the utility model embodiment composite type low-power consumption starting thermal protector is to increase the bidirectional triode thyristor 3 and second positive temperature coefficient thermistor 5 on the basis of existing technology, bidirectional triode thyristor 3, first positive temperature coefficient thermistor 9 and second positive temperature coefficient thermistor 5 are arranged in the shell 10, first positive temperature coefficient thermistor, 9 one ends and motor main winding 181 exits (compressor M end, down together) corresponding (the utility model embodiment connects when being connected in the compressor electric motor loop), first positive temperature coefficient thermistor, 9 other ends are connected with bidirectional triode thyristor 3 second utmost point 3-2; Second positive temperature coefficient thermistor, 5 one ends corresponding with motor main winding 181 exits (the utility model embodiment connects when being connected in the compressor electric motor loop), second positive temperature coefficient thermistor, 5 other ends are connected with bidirectional triode thyristor 3 trigger electrode 3-3, bidirectional triode thyristor 3 first utmost point 3-1 and motor auxiliary winding 182 exits (compressor S end, down together) corresponding (the utility model embodiment connects when being connected in the compressor electric motor loop); Compressor C end is connected with thermal protector among Fig. 2.

The utility model also is provided with thermal protector and loads die cavity 10-13, and thermal protector loads in the die cavity 10-13 thermal protector claw 10-14 is set, so that thermal protector 11 is positioned and fixes.

With reference to Fig. 3～Figure 12, the utility model embodiment composite type low-power consumption starting thermal protector comprises cover plate 1, second pin 2, bidirectional triode thyristor 3, the 3rd reed 4, second positive temperature coefficient thermistor 5, second reed 6, locating piece 7, first pin 8, first positive temperature coefficient thermistor 9 and shell 10 (seeing Fig. 3, Fig. 6); Bidirectional triode thyristor 3 first utmost point 3-1 are connected with second pin, 2 link 2-2, bidirectional triode thyristor 3 second utmost point 3-2 are connected with second reed 6, bidirectional triode thyristor 3 trigger electrode 3-3 are connected (see figure 7) with the 3rd reed 4, and bidirectional triode thyristor 3 connectors are put into shell second pin location die cavity 10-2, bidirectional triode thyristor location die cavity 10-3; First pin 8 is provided with the first reed 8-3 and the second reed 8-4, puts into shell first pin location die cavity 10-1; Locating piece 7 is intersection in the die cavity 10-4 both sides, first positive temperature coefficient thermistor location of shell 10 location notch 10-6,10-7 is set as first positive temperature coefficient thermistor, 9 location usefulness, and locating piece 7 is respectively charged in location notch 10-6, the 10-7; First positive temperature coefficient thermistor of successively first positive temperature coefficient thermistor 9 being packed into then location die cavity 10-4, second positive temperature coefficient thermistor 5 pack into (seeing Fig. 7, Fig. 8, Fig. 9) in the die cavity 10-5 of second positive temperature coefficient thermistor location; And then cover plate 1 and shell 10 closed up.The utility model embodiment also is provided with operation capacitor 15 links, and operation capacitor 15 links are separately positioned on first pin 8, second pin 2, can directly patch operation capacitor 15, to improve starting performance and operating efficiency.First pin 8 is provided with inserted sheet link 8-1,8-2, vertically extend through shell 10 outsides (seeing Fig. 4, Figure 11) by inserting-plate hole 10-8,10-9 on the shell 10, second pin 2 is provided with inserted sheet link 2-1, vertically extends through shell 10 outsides (seeing Fig. 4, Figure 11) by the inserting-plate hole 10-10 on the shell 10; Serial connection one operation capacitor 15 (see figure 4)s between the inserted sheet link 2-1 of the inserted sheet link 8-2 of first pin 8 and second pin 2.

The cover plate 1 of the utility model embodiment is provided with cover plate first pin location die cavity 1-1, cover plate second pin location die cavity 1-2, to locate first pin 8 and second pin 2 is used (see figure 10); Also be provided with location claw 1-3,1-4 on the cover plate 1, correspond respectively to shell 10 location square hole 10-11,10-12, and its screens is connected (seeing Figure 11); Also be provided with positioning jack 1-5,1-6 on the cover plate 1, it is connected (see figure 5) with compressor M end, compressor S end respectively; After each resolution element of present embodiment as above assembled, cover plate 1 and shell 10 closed up, and promptly form the utility model embodiment composite type low-power consumption starting thermal protector.

Resistance value under second positive temperature coefficient thermistor 5 described in the utility model is selected 25 ℃ is 600～1800 Ω, and volume is 20～28mm ³If the resistance of second positive temperature coefficient thermistor 5 is less than 600 Ω under 25 ℃, when line voltage was higher, the trigger current of bidirectional triode thyristor 3 was too big, can damage bidirectional triode thyristor 3; If the resistance of second positive temperature coefficient thermistor 5 is greater than 1800 Ω under 25 ℃, when line voltage was low, the trigger current of bidirectional triode thyristor 3 was too little, and bidirectional triode thyristor 3 can can't be connected.According to the resistance value scope under 25 ℃ of second positive temperature coefficient thermistor 3, the volume defining of second positive temperature coefficient thermistor 3 is at 20～28mm ³, its diameter is that Φ 3.5 ± 0.1mm, thickness are 2.5 ± 0.1mm; If the diameter of second positive temperature coefficient thermistor 3 is that Φ 3.6mm, thickness are 2.6mm, then its volume is 26.5mm ³, if the diameter of second positive temperature coefficient thermistor 3 is that Φ 3.4mm, thickness are 2.4mm, then its volume is 21.8mm ³So selecting the volume of second positive temperature coefficient thermistor 3 is 20～28mm ³Relatively more appropriate.

In the utility model embodiment, the volume of second positive temperature coefficient thermistor 3 is 23.85mm ³, its diameter equals Φ 3.50mm, thickness equals 2.48mm.

The shell 10 of the utility model embodiment is provided with thermal protector and loads die cavity 10-13; thermal protector loads in the die cavity 10-13 and also is provided with thermal protector claw 10-14; after thermal protector 11 inserts and loads die cavity 10-13; the flange 11-1 of thermal protector claw 10-14 screens thermal protector 11 is to position and to fix (seeing Fig. 4, Fig. 5, Figure 12) to thermal protector 11.

The utility model embodiment is by first pin 8 (receiving compressor M end), second pin 2 (receiving the compressor S end) is connected in the compressor electric motor loop, this moment, first positive temperature coefficient thermistor, 9 one ends were connected with motor main winding 181 exits, second positive temperature coefficient thermistor, 5 one ends are connected with motor main winding 181 exits, bidirectional triode thyristor 3 first utmost point 3-1 are connected with motor auxiliary winding 182 exits, bidirectional triode thyristor 3 is in closed condition, first positive temperature coefficient thermistor 9 is in little resistance conducting state at normal temperatures, its resistance is generally between 3.9～100 Ω, second positive temperature coefficient thermistor 5 also is in the normal temperature conducting state, and its resistance is generally about 600～1800 Ω; At the beginning of the compressor electric motor starting, because bidirectional triode thyristor 3 is in closed condition, first positive temperature coefficient thermistor, 9 no currents pass through, second positive temperature coefficient thermistor 5 has little electric current to pass through, thereby the bidirectional triode thyristor 3 in the start loop is fully triggered, starting circuit enters operating state, first positive temperature coefficient thermistor 9 in the start loop is passed to bigger motor auxiliary winding 182 starting currents, the very fast heating of first positive temperature coefficient thermistor 9, its resistance value is risen rapidly, when its temperature reaches the Curie temperature of first positive temperature coefficient thermistor 9, its resistance value reaches the high value state, thereby cut off compressor electric motor auxiliary winding 182, make compressor electric motor enter normal operating conditions.After compressor entered operating state, along with the variation by second positive temperature coefficient thermistor, 5 electric currents, bidirectional triode thyristor 3 was in closed condition, and first positive temperature coefficient thermistor 9 does not have electric current to pass through, and its consumed power is almost nil; Because second positive temperature coefficient thermistor, 5 its consumed powers are less than 0.5W, the power consumption of this sampling system can both be hanged down and be reached the milliwatt level when operate as normal, promptly is exactly so-called " zero-power " starting thermal protector.For improving compressor electric motor starting performance and operating efficiency, serial connection one operation capacitor 15 between first pin 8 and second pin 2.After present embodiment inserts compressor three core binding posts; its zero-power line constitutes main winding 181 conducting loops by first pin 8; after thermal protector inserts compressor C end; its splicing ear connects the power line live wire; realization is connected on thermal protector in the compressor electric motor loop; thermal protector action when the higher on the low side or refrigerating system of line voltage breaks down is played the effect of protection compressor electric motor thereby cut off the electricity supply.

Above content is described the utility model with relevant execution mode, but in the industry technical staff, still can associate the design form of multiple effects equivalent, and protection range of the present utility model should comprise these general design forms that changes.

Claims (9)

1; a kind of composite type low-power consumption starting thermal protector; comprise shell; cover plate; first pin; second pin; shell is connected with cover plate; it is characterized in that: also be provided with bidirectional triode thyristor; first positive temperature coefficient thermistor and second positive temperature coefficient thermistor; bidirectional triode thyristor; first positive temperature coefficient thermistor; second positive temperature coefficient thermistor is installed in the shell; first positive temperature coefficient thermistor, one end is corresponding with motor main winding exit; the first positive temperature coefficient thermistor other end is connected with second utmost point of bidirectional triode thyristor; second positive temperature coefficient thermistor, one end is corresponding with motor main winding exit; the second positive temperature coefficient thermistor other end is connected with the The Trigger of Bidirectional Triode Thyristor utmost point; first utmost point of bidirectional triode thyristor is corresponding with motor auxiliary winding exit, and the volume of described second positive temperature coefficient thermistor is 20～28mm ³, shell is provided with thermal protector and loads die cavity.

2, composite type low-power consumption starting thermal protector according to claim 1, it is characterized in that: also be provided with the operation capacitor connection terminal, the operation capacitor connection terminal is separately positioned on first pin, second pin.

3, composite type low-power consumption starting thermal protector according to claim 1 and 2, it is characterized in that: the diameter of described second positive temperature coefficient thermistor is φ 3.5 ± 0.1mm, thickness is 2.5 ± 0.1mm.

4, composite type low-power consumption starting thermal protector according to claim 1 and 2; it is characterized in that: shell is provided with shell first pin location die cavity, shell second pin location die cavity, first positive temperature coefficient thermistor location die cavity, second positive temperature coefficient thermistor location die cavity and bidirectional triode thyristor location die cavity, and the shell both sides also are provided with the location square hole.

5, composite type low-power consumption starting thermal protector according to claim 1 and 2 is characterized in that: cover plate is provided with cover plate first pin location die cavity, cover plate second pin location die cavity.

6, composite type low-power consumption starting thermal protector according to claim 4, it is characterized in that: cover plate is provided with claw, and claw is vertical with the cover plate plane, the location square hole clamping of the claw of cover plate and shell.

7, composite type low-power consumption starting thermal protector according to claim 1 and 2, it is characterized in that: the resistance value of described second positive temperature coefficient thermistor is 600～1800 Ω.

8, composite type low-power consumption starting thermal protector according to claim 1 and 2, it is characterized in that: thermal protector loads in the die cavity and is provided with the thermal protector claw.

9, composite type low-power consumption starting thermal protector according to claim 1 and 2, it is characterized in that: thermal protector loads die cavity and adopts circle, rectangle or polygon.

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