CN201515338U - Starter without power consumption for single-phase motor combined with overload protector - Google Patents

Abstract

The utility model relates to a starter without power consumption for a single-phase motor combined with an overload protector, which is mainly used for starting the motor of a compressor. One end of the overload protector comprising a heating resistor is connected with one end of a power supply, the other end is connected with the public end of a primary winding and a secondary winding of the motor, two AC input ends of a rectification and filtration circuit are connected with two ends of the heating resistor of the overload protector comprising the heating resistor, a positive electrode and a negative electrode of the DC output end are connected with the positive electrode and the negative electrode of the input end of a two-way silicon controlled rectifier output type optical coupler, one output end of the two-way silicon controlled rectifier output type optical coupler is connected with a T2 electrode of a two-way silicon controlled rectifier, the other output end is connected with one end of a trigger current-limiting resistor, the other end of the trigger current-limiting resistor is connected with a trigger electrode G of the two-way silicon controlled rectifier, a T1 electrode of the two-way silicon controlled rectifier is connected with the leading-out end S of the secondary winding of the motor, and the T2 electrode of the two-way silicon controlled rectifier is connected with the leading-out end M of the primary winding of the motor and the other end of the power supply. The starter has the advantages that when the motor works normally, the circuit of the starter is in complete disconnection state, thereby having no power consumption and realizing high reliability.

Description

Non-power consumption starter of single-phase motor in conjunction with overload protective device

Technical field

The utility model relates to a kind of non-power consumption starter of single-phase motor in conjunction with overload protective device, is mainly used in the starting of compressor electric motor, also can be used for the starting of general load motor.

Background technology

Load motor is formed by a rotor with by the stator that main winding and auxiliary winding constitutes usually.Auxiliary winding wherein also can continue to work when motor normally moves except the effect of playing electric motor starting, so the auxiliary winding circuit of complete load motor can be represented by the auxiliary winding operation circuit and the auxiliary winding starting circuit of parallel connection usually.When motor normally moved, the motor that auxiliary winding is not worked did not then have auxiliary winding operation circuit part wherein.Auxiliary winding starting circuit part is wherein only worked when electric motor starting, needs to realize disconnecting behind electric motor starting.Usually realize by semistor (PTC) element at present.When electric motor starting, starting circuit is worked, and the PTC element is led in the auxiliary winding starting current, causes the PTC element heating, and its resistance rises rapidly, and starting circuit is disconnected substantially.When motor normally moves, still must there be a less current to continue to pass through in the PTC element, to keep the heating resistance of PTC element, stop motor starting circuit when the motor operate as normal, to be had an effect.This power consumption of keeping the PTC 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.

Chinese patent 200410065370.X and Chinese patent 200510038234.6 disclose two kinds of mutual inductance type non-contact starters of applicant invention, are applicable to various dissimilar load motors respectively.The characteristics of these two kinds of mutual inductance type non-contact starters are to adopt current transformer, difference according to load motor, diverse location at motor circuit carries out sample conversion to electric current, be used for triggering the bidirectional triode thyristor that is serially connected in the motor auxiliary winding start loop, utilize motor at the beginning of starting in the loop electric current much larger than the characteristics of running current, when electric motor starting, trigger the auxiliary winding bidirectional triode thyristor and make its short time conducting, finish the starting of motor.The utility model then looks for another way; abandoned making the method for Current Transformer sampling AC current control bidirectional triode thyristor break-make; change into from the heating resistor of overload protective device and obtain the current of electric sampling, and through being used to control the break-make of bidirectional triode thyristor after the simple conversion.

Chinese patent 200610034946.5 discloses a kind of no contact energy-saving starter, and its feature comprises PTC themistor Rp, triode ac switch T, photoelectrical coupler U, inductor L and rectifier bridge D; This invention obtains relevant voltage signal by utilization inductor L, and carry out rectification by rectifier bridge, reduced the heating energy consumption of control signal sample unit effectively, adopt photoelectricity to isolate simultaneously to control triode ac switch and guarantee that motor well starts, and after starting is finished, start loop is disconnected.

The technology of this patent disclosure provides a kind of effective monophase machine energy-saving starter design to a certain extent, but this scheme also exists some bigger problems.Development and national attention along with the monophase machine technology to the household appliances power-saving technology, various monophase machines, particularly the monophase machine that uses in the household electrical appliances is more and more meticulousr to energy-saving design, requirement to inductance in the motor main winding and auxiliary winding loop and capacitance is also more accurate, and the very little variation of inductance, capacitance all can make electric efficiency have a greatly reduced quality in the circuit.Patent 200610034946.5 disclosed starter schemes are owing to adopted inductor to obtain relevant voltage signal, also will be by the rectifier bridge rectification after photoelectricity isolated controlling triode ac switch, determined the inductance value of its sampling inductance to bring no small influence from principle, thereby had influence on the whole efficiency of electric system the inductance parameters of institute's series circuit.

Summary of the invention

The purpose of this utility model is the non-power consumption starter of single-phase motor in conjunction with overload protective device that a kind of reliability height, no power consumption will be provided.

The purpose of this utility model is achieved like this; a kind of non-power consumption starter of single-phase motor in conjunction with overload protective device; it is characterized in that: comprise a current rectifying and wave filtering circuit; a bidirectional triode thyristor output type optical coupler; a bidirectional triode thyristor; trigger current-limiting resistance and an overload protective device that comprises heating resistor; a described end that comprises the overload protective device of heating resistor is connected with an end of power supply; the other end that comprises the heating resistor overload protective device is connected with the main winding of motor and the common port of auxiliary winding; two ac input ends of described current rectifying and wave filtering circuit are connected with the two ends of the overload protective device heating resistor that comprises heating resistor respectively; the both positive and negative polarity of current rectifying and wave filtering circuit dc output end is connected with the both positive and negative polarity of bidirectional triode thyristor output type optical coupler input respectively; an output of bidirectional triode thyristor output type optical coupler is connected with the T2 utmost point of bidirectional triode thyristor; another output of bidirectional triode thyristor output type optical coupler is connected with an end that triggers current-limiting resistance; the other end that triggers current-limiting resistance is connected with The Trigger of Bidirectional Triode Thyristor utmost point G; the T1 utmost point of bidirectional triode thyristor is connected with motor auxiliary winding exit S, and the T2 utmost point of bidirectional triode thyristor is connected with the other end of motor main winding exit M and power supply.

A kind of non-power consumption starter of single-phase motor in conjunction with overload protective device; it is characterized in that: comprise a current rectifying and wave filtering circuit; a bidirectional triode thyristor output type optical coupler; a bidirectional triode thyristor; one is triggered current-limiting resistance and an overload protective device that comprises heating resistor; a described end that comprises the overload protective device of heating resistor is connected with an end of power supply; the other end that comprises the overload protective device of heating resistor is connected with the common port of motor main winding and auxiliary winding; two ac input ends of described current rectifying and wave filtering circuit are connected with the two ends of the overload protective device heating resistor that comprises heating resistor respectively; the both positive and negative polarity of current rectifying and wave filtering circuit dc output end is connected with the both positive and negative polarity of bidirectional triode thyristor output type optical coupler input respectively; an output of bidirectional triode thyristor output type optical coupler is connected with an end that triggers current-limiting resistance; the other end that triggers current-limiting resistance is connected with The Trigger of Bidirectional Triode Thyristor utmost point G; the one or more semistors or the front end on the starting capacitance of another output of bidirectional triode thyristor output type optical coupler and the T2 utmost point of bidirectional triode thyristor and motor main winding exit M series connection are connected with middle arbitrary series connection node with end or front end, and an end of the electric components of connecting among the T1 utmost point of bidirectional triode thyristor and the motor auxiliary winding exit S is connected.

A kind of non-power consumption starter of single-phase motor in conjunction with overload protective device; it is characterized in that: comprise a current rectifying and wave filtering circuit; a bidirectional triode thyristor output type optical coupler and an overload protective device that comprises heating resistor; a described end that comprises the overload protective device of heating resistor is connected with an end of power supply; the other end that comprises the overload protective device of heating resistor is connected with the common port of motor main winding and auxiliary winding; two ac input ends of described current rectifying and wave filtering circuit are connected with the two ends of the overload protective device heating resistor that comprises heating resistor respectively; the both positive and negative polarity of current rectifying and wave filtering circuit dc output end is connected with the both positive and negative polarity of bidirectional triode thyristor output type optical coupler input respectively; an output of bidirectional triode thyristor output type optical coupler is connected with motor auxiliary winding exit S, and another output of bidirectional triode thyristor output type optical coupler is connected with the other end of motor main winding exit M and power supply.

A kind of non-power consumption starter of single-phase motor in conjunction with overload protective device; it is characterized in that: comprise a current rectifying and wave filtering circuit; a bidirectional triode thyristor output type optical coupler and an overload protective device that comprises heating resistor; a described end that comprises the overload protective device of heating resistor is connected with an end of power supply; comprising the other end of overload protective device of heating resistor and the common port of motor main winding and auxiliary winding is connected; two ac input ends of described current rectifying and wave filtering circuit are connected with the two ends of the overload protective device heating resistor that comprises heating resistor respectively; the both positive and negative polarity of current rectifying and wave filtering circuit dc output end is connected with the both positive and negative polarity of bidirectional triode thyristor output type optical coupler input respectively, and two outputs of bidirectional triode thyristor output type optical coupler are series in the auxiliary winding starting circuit one or more semistors of the series connection from motor main winding exit M to motor auxiliary winding exit S or the front end of starting capacitance is connected with middle arbitrary series connection node with end or front end.

The described non-power consumption starter of single-phase motor in conjunction with overload protective device of the utility model is when the motor operate as normal, and starter circuit is in complete off-state, does not have power consumption fully, and the reliability height.

Accompanying drawing and description of drawings

Fig. 1 is the electrical schematic diagram of the 1st kind of embodiment of the utility model.

Fig. 2 is the electrical schematic diagram of the 2nd kind of embodiment of the utility model.

Fig. 3 is the electrical schematic diagram of the 3rd kind of embodiment of the utility model.

Fig. 4 is the electrical schematic diagram of the 4th kind of embodiment of the utility model.

Fig. 5 is the electrical schematic diagram of the 5th kind of embodiment of the utility model.

Fig. 6 is the electrical schematic diagram of the 6th kind of embodiment of the utility model.

Embodiment

As everyone knows; overload protective device is protected motor by sense temperature and electric current; usually constitute by bimetal leaf and a pair of normally-closed contact; can be serially connected with simultaneously resistance wire specially is used for the sample rate current size and generates heat with the thermal deformation of control bimetal leaf; also have the resistance that directly utilizes special bimetal leaf itself to come sample rate current heating mode with the thermal deformation of control bimetal leaf, this with this dual mode in the resistance wire and the special bimetal leaf of the concurrent thermal control bimetal leaf of sample rate current thermal deformation be referred to as the overload protective device heating resistor.

Reprocessing is direct current through rectifying and wave-filtering in the interchange pressure drop that the utility model utilizes a current rectifying and wave filtering circuit U1 that motor circuit is produced on the overload protective device heating resistor; this current rectifying and wave filtering circuit can be that a diode rectifier bridge also can be general current rectifying and wave filtering circuit commonly used under the simplest situation; be connected to the input of a bidirectional triode thyristor output type optical coupler U2 then, the break-make of control bidirectional triode thyristor output type optical coupler U2.The output of bidirectional triode thyristor output type optical coupler U2 then is connected in the trigger electrode circuit of bidirectional triode thyristor U3, in case bidirectional triode thyristor output type optical coupler U2 connects work, the output of its bidirectional triode thyristor type optical coupler is switched on the trigger electrode circuit that is connected on bidirectional triode thyristor U3 in the motor auxiliary winding starting circuit, thereby can make motor starting circuit work.

When motor power is connected; the current value of the overload protective device P that comprises heating resistor of flowing through in the electric motor loop is the starting current much larger than running current; situation when comprising pressure drop that the overload protective device P of heating resistor go up to produce also much larger than the motor operate as normal; this pressure drop is worked through rectifying and wave-filtering rear drive bidirectional triode thyristor output type optical coupler U2; make the bidirectional triode thyristor output of bidirectional triode thyristor output type optical coupler U2 be conducting state; thereby the trigger electrode circuit that is serially connected in the bidirectional triode thyristor U3 in the motor auxiliary winding starting circuit is switched on; this bidirectional triode thyristor U3 also enters into conducting state; the auxiliary winding starting circuit of motor is switched on, and motor begins starting.After electric motor starting begins; the current value of the overload protective device P that comprises heating resistor of flowing through in the electric motor loop descends rapidly; the overload protective device P that comprises heating resistor goes up the pressure drop that produces and also descends rapidly synchronously; can't drive the luminous work of input of bidirectional triode thyristor output type optical coupler U2 after making it through arrangement filtering; the bidirectional triode thyristor type output of bidirectional triode thyristor output type optical coupler U2 is disconnected; thereby the trigger electrode circuit that is serially connected in the bidirectional triode thyristor U3 in the motor auxiliary winding starting circuit is disconnected; this bidirectional triode thyristor U3 also enters off-state immediately; motor auxiliary winding starting circuit also just is disconnected, and electric motor starting is finished.

Foregoing circuit is formed actual conditions that are based on present motor and electronic devices and components, promptly great majority use these starters its auxiliary winding starting currents of motor all much larger than the maximum current permissible value of bidirectional triode thyristor output type optical coupler element output, therefore need to use bidirectional triode thyristor output type optical coupler to control the break-make that a bidirectional triode thyristor with bigger electric current tolerance limit value is controlled motor auxiliary winding starting circuit once more.When motor auxiliary winding starting current is in the maximum current allowed band of bidirectional triode thyristor type optical coupler output, then the output of this bidirectional triode thyristor type optical coupler directly can be connected in the motor auxiliary winding starting circuit, directly control the break-make of motor auxiliary winding starting circuit.

Be depicted as the non-power consumption starter of single-phase motor in conjunction with overload protective device of the present utility model among the figure in the frame of broken lines.

That Fig. 1 represents is the 1st kind of embodiment, and an end that comprises the overload protective device P of heating resistor is connected power end B one side, and its other end is connected with the common port of motor main winding and auxiliary winding, and other electric components of not connecting in the auxiliary winding starting circuit of motor.The ac input end of current rectifying and wave filtering circuit U1 is connected with the two ends of heating resistor among the overload protective device P; the both positive and negative polarity of the dc output end of current rectifying and wave filtering circuit U1 is connected with the both positive and negative polarity of bidirectional triode thyristor output type optical coupler U2 input respectively; an end is connected with an end that triggers current-limiting resistance R in the output of bidirectional triode thyristor output type optical coupler U2; the other end that triggers current-limiting resistance R is connected with the trigger electrode G of bidirectional triode thyristor U3; the other end is connected with the T2 utmost point of bidirectional triode thyristor U3 in the output of bidirectional triode thyristor output type optical coupler U2; the T2 utmost point of bidirectional triode thyristor U3 is connected with power end A with motor main winding exit M, and the T1 utmost point of bidirectional triode thyristor U3 is connected with motor auxiliary winding exit S.In the actual motion, between motor main winding exit M and auxiliary winding exit S, be connected operation capacitor C,

That Fig. 2 represents is the 2nd kind of embodiment; an end that comprises the overload protective device P of heating resistor is connected power end B one side; its other end is connected with the common port of motor main winding and auxiliary winding; and connected in the auxiliary winding starting circuit of motor one or more other electric components such as semistor, starting capacitance etc. are expressed as electric components Xi, Xj, the equiprobable position of Xn among the figure.The ac input end of current rectifying and wave filtering circuit U1 is connected with the two ends of heating resistor among the overload protective device P that comprises heating resistor; the both positive and negative polarity of the dc output end of current rectifying and wave filtering circuit U1 is connected with the both positive and negative polarity of bidirectional triode thyristor output type optical coupler U2 input respectively; an end is connected with an end that triggers current-limiting resistance R in the output of bidirectional triode thyristor output type optical coupler U2; the other end that triggers current-limiting resistance R is connected with the trigger electrode G of bidirectional triode thyristor U3; bidirectional triode thyristor U3 is with its T1; T2 very tie point is series in the auxiliary winding starting circuit; wherein the T2 utmost point of bidirectional triode thyristor U3 is connected near motor main winding exit M one side, and the T1 utmost point of bidirectional triode thyristor U3 then is connected near motor auxiliary winding exit S one side.In the output of bidirectional triode thyristor output type optical coupler U2 in the other end and the auxiliary winding starting circuit front end on one or more other electric components of the T2 utmost point of bidirectional triode thyristor U3 and motor main winding exit M series connection be connected with middle arbitrary series connection node with end or front end (be connected node among the figure 3., also can with node among the figure 1., 2. be connected).The end (front end) of the electric components Xn that connects among the T1 utmost point of bidirectional triode thyristor U3 and the motor auxiliary winding exit S is connected, and the other end of electric components Xn is connected with motor auxiliary winding exit S.Be connected operation capacitor C between motor main winding exit M and auxiliary winding exit S, motor main winding exit M is connected with power end A.

The 3rd kind of embodiment that Fig. 3 represents is similar to the 1st kind of embodiment; an end that just comprises the overload protective device P of heating resistor is connected power end A one side; its other end is connected with the common port of motor main winding and auxiliary winding, and other electric components of not connecting in the auxiliary winding starting circuit of motor.The ac input end of current rectifying and wave filtering circuit U1 is connected with the two ends of heating resistor among the overload protective device P; the both positive and negative polarity of the dc output end of current rectifying and wave filtering circuit U1 is connected with the both positive and negative polarity of bidirectional triode thyristor output type optical coupler U2 input respectively; an end is connected with an end that triggers current-limiting resistance R in the output of bidirectional triode thyristor output type optical coupler U2; the other end that triggers current-limiting resistance R is connected with the trigger electrode G of bidirectional triode thyristor U3; the other end is connected with the T2 utmost point of bidirectional triode thyristor U3 in the output of bidirectional triode thyristor output type optical coupler U2; the T2 utmost point of bidirectional triode thyristor U3 is connected with power end B with motor main winding exit M, and the T1 utmost point of bidirectional triode thyristor U3 is connected with motor auxiliary winding exit S.Between motor main winding exit M and auxiliary winding exit S, be connected operation capacitor C.

The 4th kind of embodiment that Fig. 4 represents is similar to the 2nd kind of embodiment; an end that just comprises the overload protective device P of heating resistor is connected power end A one side; its other end is connected with the common port of motor main winding and auxiliary winding; and connected in the auxiliary winding starting circuit of motor one or more other electric components such as semistor, starting capacitance etc. are expressed as electric components Xi, Xj, the equiprobable position of Xn among the figure.The ac input end of current rectifying and wave filtering circuit U1 is connected with the two ends of heating resistor among the overload protective device P; the both positive and negative polarity of the dc output end of current rectifying and wave filtering circuit U1 is connected with the both positive and negative polarity of bidirectional triode thyristor output type optical coupler U2 input respectively; an end is connected with an end that triggers current-limiting resistance R in the output of bidirectional triode thyristor output type optical coupler U2; the other end that triggers current-limiting resistance R is connected with the trigger electrode G of bidirectional triode thyristor U3; bidirectional triode thyristor U3 is with its T1; T2 very tie point is series in the auxiliary winding starting circuit; wherein the T2 utmost point of bidirectional triode thyristor U3 is connected near motor main winding exit M one side; the T1 utmost point of bidirectional triode thyristor U3 then is connected near motor auxiliary winding exit S one side; in the output of bidirectional triode thyristor output type optical coupler U2 in the other end and the auxiliary winding starting circuit front end on one or more other electric components of the T2 utmost point of bidirectional triode thyristor U3 and motor main winding exit M series connection be connected with middle arbitrary series connection node with end or front end (be connected node among the figure 3., also can with node among the figure 1.; 2. connect).The end (front end) of the electric components Xn that connects among the T1 utmost point of bidirectional triode thyristor U3 and the motor auxiliary winding exit S is connected, and the other end of electric components Xn is connected with motor auxiliary winding exit S.Be connected operation capacitor C between motor main winding exit M and auxiliary winding exit S, motor main winding exit M is connected with power end B.

The 5th kind of embodiment that Fig. 5 represents is similar to the 1st kind of embodiment; the overload protective device that comprises heating resistor can connect at the end of power end A or B; other electric components of not connecting in the auxiliary winding starting circuit of motor, and the starting current in the auxiliary winding starting circuit of motor is no more than the electric current allowed band of bidirectional triode thyristor type output optical coupler output.The ac input end of current rectifying and wave filtering circuit U1 is connected with the two ends of heating resistor among the overload protective device P that comprises heating resistor; the both positive and negative polarity of the dc output end of current rectifying and wave filtering circuit U1 is connected with the both positive and negative polarity of bidirectional triode thyristor output type optical coupler U2 input respectively; the output of bidirectional triode thyristor output type optical coupler U2 is connected with motor auxiliary winding exit S; another output of bidirectional triode thyristor output type optical coupler U2 is connected with the other end of motor main winding exit M and power end A or B, is connected operation capacitor C between motor main winding exit M and auxiliary winding exit S.

The 6th kind of embodiment that Fig. 6 represents is similar to the 2nd kind of embodiment; the overload protective device that comprises heating resistor can connect at the end of power end A or B; connected in the auxiliary winding starting circuit of motor one or more other electric components such as semistor, starting capacitance etc.; be expressed as electric components Xi, Xj, the equiprobable position of Xn among the figure, and the starting current in the auxiliary winding starting circuit of motor is no more than the electric current allowed band of bidirectional triode thyristor type output optical coupler output.The ac input end of current rectifying and wave filtering circuit U1 is connected with the two ends of heating resistor among the overload protective device P; the both positive and negative polarity of the dc output end of current rectifying and wave filtering circuit U1 is connected with the both positive and negative polarity of bidirectional triode thyristor output type optical coupler U2 input respectively; two outputs of bidirectional triode thyristor output type optical coupler U2 be series in the auxiliary winding starting circuit front end on one or more other electric components of the series connection from motor main winding exit M to motor auxiliary winding exit S be connected with middle arbitrary series connection node with end or front end (be connected on the position among the figure 3., also can connect in the drawings the position 1.; 2.; 4. wait the place).The output of bidirectional triode thyristor output type optical coupler U2 is connected with the end (front end) of electric components Xn, the other end of electric components Xn is connected with motor auxiliary winding exit S, and the end of electric components Xi is connected with the other end of motor main winding M and power end A or B.Between motor main winding exit M and auxiliary winding exit S, be connected operation capacitor C.

Diverse technical scheme has then been taked in the utility model patent application, fundamentally solved the influence problem of sampled signal to electric efficiency, thereby make the energy-saving starter technology that further development arranged, special under the overall situation of country to the energy-conservation special attention of household electrical appliances, increasing household electrical appliances monophase machine has all adopted efficient design, and starter seems particularly important to the problem that influences of motor whole efficiency.

The utility model patent application has made full use of the pressure drop effect of motor overload protector inner heat resistance in the electric motor starting process; after through the AC-DC conversion relevant treatment, drive the bidirectional triode thyristor that is connected in the motor auxiliary winding start loop again; guarantee that motor well starts, and after starting is finished, start loop is disconnected.

When motor power is connected; the current value of the overload protective device that comprises heating resistor of flowing through in the electric motor loop is the starting current much larger than running current, the situation when comprising the pressure drop that produces on the overload protective device heating resistor of heating resistor also much larger than the motor operate as normal.Therefore sampled signal can be used to control the break-make of motor auxiliary winding start loop from the overload protective device heating resistor that comprises heating resistor, realizes the energy-saving starter of monophase machine.Simultaneously; this starter does not increase extra sampling device owing to directly utilized motor overload protector; fundamentally solved the influence problem of starter, thereby the energy-saving starter technology of monophase machine is a a progressive step again, improved reliability the electric system parameter.

In addition, because starter obtains the control signal in electric motor starting loop from overload protective device, also the integral type design for overload protective device, starter provides advantage.

Claims (4)

1. non-power consumption starter of single-phase motor in conjunction with overload protective device; it is characterized in that: comprise a current rectifying and wave filtering circuit; a bidirectional triode thyristor output type optical coupler; a bidirectional triode thyristor; trigger current-limiting resistance and an overload protective device that comprises heating resistor; a described end that comprises the overload protective device of heating resistor is connected with an end of power supply; the other end that comprises the heating resistor overload protective device is connected with the main winding of motor and the common port of auxiliary winding; two ac input ends of described current rectifying and wave filtering circuit are connected with the two ends of the overload protective device heating resistor that comprises heating resistor respectively; the both positive and negative polarity of current rectifying and wave filtering circuit dc output end is connected with the both positive and negative polarity of bidirectional triode thyristor output type optical coupler input respectively; an output of bidirectional triode thyristor output type optical coupler is connected with the T2 utmost point of bidirectional triode thyristor; another output of bidirectional triode thyristor output type optical coupler is connected with an end that triggers current-limiting resistance; the other end that triggers current-limiting resistance is connected with The Trigger of Bidirectional Triode Thyristor utmost point G; the T1 utmost point of bidirectional triode thyristor is connected with motor auxiliary winding exit S, and the T2 utmost point of bidirectional triode thyristor is connected with the other end of motor main winding exit M and power supply.

2. non-power consumption starter of single-phase motor in conjunction with overload protective device; it is characterized in that: comprise a current rectifying and wave filtering circuit; a bidirectional triode thyristor output type optical coupler; a bidirectional triode thyristor; one is triggered current-limiting resistance and an overload protective device that comprises heating resistor; a described end that comprises the overload protective device of heating resistor is connected with an end of power supply; the other end that comprises the overload protective device of heating resistor is connected with the common port of motor main winding and auxiliary winding; two ac input ends of described current rectifying and wave filtering circuit are connected with the two ends of the overload protective device heating resistor that comprises heating resistor respectively; the both positive and negative polarity of current rectifying and wave filtering circuit dc output end is connected with the both positive and negative polarity of bidirectional triode thyristor output type optical coupler input respectively; an output of bidirectional triode thyristor output type optical coupler is connected with an end that triggers current-limiting resistance; the other end that triggers current-limiting resistance is connected with The Trigger of Bidirectional Triode Thyristor utmost point G; the one or more semistors or the front end on the starting capacitance of another output of bidirectional triode thyristor output type optical coupler and the T2 utmost point of bidirectional triode thyristor and motor main winding exit M series connection are connected with middle arbitrary series connection node with end or front end, and an end of the electric components of connecting among the T1 utmost point of bidirectional triode thyristor and the motor auxiliary winding exit S is connected.

3. non-power consumption starter of single-phase motor in conjunction with overload protective device; it is characterized in that: comprise a current rectifying and wave filtering circuit; a bidirectional triode thyristor output type optical coupler and an overload protective device that comprises heating resistor; a described end that comprises the overload protective device of heating resistor is connected with an end of power supply; the other end that comprises the overload protective device of heating resistor is connected with the common port of motor main winding and auxiliary winding; two ac input ends of described current rectifying and wave filtering circuit are connected with the two ends of the overload protective device heating resistor that comprises heating resistor respectively; the both positive and negative polarity of current rectifying and wave filtering circuit dc output end is connected with the both positive and negative polarity of bidirectional triode thyristor output type optical coupler input respectively; an output of bidirectional triode thyristor output type optical coupler is connected with motor auxiliary winding exit S, and another output of bidirectional triode thyristor output type optical coupler is connected with the other end of motor main winding exit M and power supply.

4. non-power consumption starter of single-phase motor in conjunction with overload protective device; it is characterized in that: comprise a current rectifying and wave filtering circuit; a bidirectional triode thyristor output type optical coupler and an overload protective device that comprises heating resistor; a described end that comprises the overload protective device of heating resistor is connected with an end of power supply; comprising the other end of overload protective device of heating resistor and the common port of motor main winding and auxiliary winding is connected; two ac input ends of described current rectifying and wave filtering circuit are connected with the two ends of the overload protective device heating resistor that comprises heating resistor respectively; the both positive and negative polarity of current rectifying and wave filtering circuit dc output end is connected with the both positive and negative polarity of bidirectional triode thyristor output type optical coupler input respectively, and two outputs of bidirectional triode thyristor output type optical coupler are series in the auxiliary winding starting circuit one or more semistors of the series connection from motor main winding exit M to motor auxiliary winding exit S or the front end of starting capacitance is connected with middle arbitrary series connection node with end or front end.

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