Abstract:
The present invention relates to method and apparatus for asyncyhronous motor&#39;s speed regulation using strobe control, which may be carried out graded or nongraded speed regulation in conventional monospeed squirrel cage motor with simplicity, reliability, cheapness and high efficiency. It provides a notable electricity-saving result with good economical efficiency, especially in asynchronous motors speed regulation of ventillator and water pump driving. The said speed regulation method is using switch 5,6 sequentially to transmit a positive half-wave voltage and a negative half-wave voltage between the input terminals of strating and working windings of asynchronous motor 1, and then, will be repeated above said cycle continuously.

Description:
BACKGROUND OF THE INVENTION 
     The present invention relates to speed regulation method and apparatus of an asynchronous motor in order to save electricity. 
     It has generally been found a number of speed regulation method and apparatus in the prior art of asychronous motor, but none of them has been able to be simple, reliable, cheap and high efficent simutanously, and may be carried out is conventional single speed squirrel cage motor. The controllable speed range is quite narrow, as one third of the normal rotating speed or the less, e.g. disclosure in JP-54-7514. 
     SUMMARY OF THE INVENTION 
     A speed regulation method of asynchrouous motor comprises: transmitting a positive half-wave voltage to the input terminals of starting winding of said asychronous motor, using one switch; 
     then transimitting a negative half-wave voltage to the input terminals of working winding of said asychronous motor, using another swith; 
     and then after a given time duration being repeated above-mention cycle, continuously. 
     main circuit including counter phase transformer and monodirectional thyristor and being connected to said a synchronous motor; 
     controlling means actnating cyclical working mode to transmit positive and negative half-wave voltage being half-wave or a part of monophase alternative power supply to said asynchronous motor with the period T, being 1.5n or 2n (n is a positive integer) times the period of said monophase alternative power supply. 
     BRIEF DESCRIPTION OF THE INVENTION 
     It is therefore an object of the present invention to provide a simple apparatus with a wide speed controlling range and notable electricity-saving results, especially in asynchronous motor&#39;s speed regulation of water pump and ventilator driving, which has not yet been reached up-to-now in prior art. These and still further objects of the present invention will become reading apparent to one skilled in the art from the following detailed description and drawings, wherein. 
     FIG. 1 shows the basice scheme of speed regulation method of an asychronous motor 1 of present invention. 
     FIG. 2 and 4 are input terminals of strating winding and working winding respectively, and 3 is the common input terminal wherein, while the asychronous motor 1 is a monophase motor; but 2, 3 and 4 are triphase input power supply terminals, while motor 1 is a triphase inductive motor. The controlling operation of speed regulation is as follows: 
     Switch 5 begins openning after a given time duration in its closed manner, then switch 6 begins openning after a given time duration in its closed manner, and the circuit will periodically be repeated in above-mentioned processing after another given time duration. That is, every cycle using switch 5 and 6 sequentially to transmit a positive half-wave and a negative half-wave voltage between input terminal 2, 4 and 3 of asynchronous motor 1. And then, after a given time duration will be repeated above said cycle. In general cases, the width of negative half-wave, while the cyclical period T (with the unit on second) is equal to the time duration from three to four width of half-wave. Under above-mentioned controlling condition, a rotative displacement magnetic field will be produced in the stator of asychronous motor 1, that will cause the rotator to be rotated. While rotation speed of motor is a little less than 120/PT r.p.m (P is the number of poles of controlled motor 1), there is only a little power consumption within rotator, so that the motor may be worked stablly without speed backfeed condition, that results an efficient and stable speed regulation. Speed regulation may be complated by modifying the period T. 
     The output power level should not, in general saying, be over 1/3 to 1/2 of normal rated power of controlled motor 1, because of the unbalanced power supply to every windings of asychronous motor in present invention. But owing to the proportional relationship existed between shaft horsepower and the 3rd power of rotating speed of ventilator or waterpump, it doesn&#39;t need to change original motor for regulating the speed of veatilator or waterpump using present invention in the speed range below 75% of normal rated speed of motor. 
     The rotating direction of motor 1 using present speed regulation method may be the same as that of motor, which is directly connected 3 phase power supply in sequentially phases to terminals 2, 3, 4 of the same motor. The rotating direction would not be changed, if switch 5 be connected to negative source and switch 6 be connected to positive source, just like disclosed in FIG. 1, but the polarities of power soures wherein are exchanged. 
     The present apparatus comprising main circuit and electrical elemants, which will complete the same function as switch 5 and 6, is simple and reliable. The present invention has simply overcome the shortcoming, i.e. the large ship power comsumption of conventional asynchronous motor operating below the normal reted rotating speed. 
     The present invention is suitable for speed regulation of ventilator and water-pump with high electricity-saving efficiency, which has been proved by a lot of experiments, e.g. operating power in 2/3 graded normal speed will only be 30-40% of normal rated power. 
    
    
     The present invention will now be describled in more detail by reference to drawing wherein: 
     FIG. 1 is the basic schematic illustration of present invention; 
     FIG. 2 is the main circuit of graded speed regulation; 
     FIG. 3 is the main circuit of 1/2 graded speed regulation; 
     FIG. 4 is the controller for graded speed regulation; 
     FIG. 5 is the synchronous power supply; 
     FIG. 6 is the synchronous count impulse generator; 
     FIG. 7 is the conduction angle controller; 
     FIG. 8 is the trigger circuit; 
     FIG. 9 is the synchronous power supply for 1/2 graded speed regulation. 
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
     The present invention is best more fully descriebed in following embodiments, and the symbol &#34;˜&#34; wherein represents the identical monophase alternative power supply. 
     The graded speed regulation being supplied by monophase alternative power supply source is a simple embodiment of present invention. The controller for graded speed regulation of present embodiment is shown in FIG. 4. 
     The syrchronous power supply 16 is shown in FIG. 5. The terminal 24 is connected to syncronous count impulse generator 17 and conduction angle controller 21, but terminal 25 is to trigger circuits 22 and 23. The said synchronous count impulse generator 17 of the embodiment is described as the circuit of FIG. 6. Signals from synchronous power supply 16 are sent to terminal 29 and synchronous count impules from terminal 30 are delivered out. By selecting the parameters of resistor 27 and capacitor 28, count impulse generator 17 may produce at the decreasing moment of the half-wave voltage of synchronous power supply 16 only one count impulse, that makes a variable carry system counter 18 actuate. Counter 18 or 19 is a series variable carry system counter with a China-made intergraled circuit in the type C186 wherein. Output of &#34;0&#34; electrical levels from decimal system decorder 20 are delivered to trigger circuit 22, the lower voltage levels whereof are effective. But &#34;1&#34; electrical levels from that are to trigger circuit 23. Conduction angle controller 21 via trigger circuits 22, 23 makes control the conduction angle of controlled thyristors, using the circuit as FIG. 7. Input signals from syrchronous power sypply 16 are fed to 36, and output signals from 37 are delivered to trigger circuits 22, 23, also the lower voltage levels whereof are effective. The parameters of variable resistor 32, resistor, capacitor 33 and zener 34 determine the conductive duration time of transistor 35. Unijunction transistor 31 can make capacitor 33 discharge near the decreasing end of every half-wave volatage signales, transmitted from the synchronous power supply 16. Conduction angle of controlled thyristors may be modified by controlling the value of variable resistor 32. 
     The trigger circuit 22 or 23 is the same as shown in FIG. 8. Signals from conduction angle controller 21 are fed to 42. Signals from decorder 20 are fed to 43. Signals from syrchronous power supply 16 are to 44. Output signals of impulse transformer 41 are connected to controlled thyristors. While the voltage levels of 42 and 43 are lower, transistor 38 is blocked. Whereby capacitor 39 is charged to working voltage of bidirectional diode, trigger impulse series will be produced and transimitted from impulse transformer 41. When the output terminals of trigger circuits 22 are connected to the controling electrodes of monodirectional thyristors 9, and 10 as shown in FIG. 2, the output terminals of trigger 23 circuits are to that of thyristors 11 and 12, the task of graded speed regulation of asynchronous motor is fullfilled, and the aparatus whereby is comprised with the counter phase transformer 8 and the controlled asynchronous motor 7 shown in FIG. 2. The apparatus of graded speed regulation comprises a counter phase transformer 8 and also four conventional monodirectional thyristor 9, 10, 11, 12. 
     The common input terminal whereof is connected to one terminal of monophase alternative power supply and also to the one terminal of counter-phase transformer 8. Another input terminal of asynchronous motor 7 is via thyristor 9 to monophase alternative power supply source, and also is via thyristor 10 to counter phase terminal of the counterphase transformer 8. Further another input terminal of asynchronus motor 7 is via thristor 11 to said monophase alternative power supply source and also is via thristor 12 said connter phase terminal of the counter phase transformer 8. 
     Under the condition of variable carry system counter 18 working in n-carry system, n is a positive integer, if n=1, the half-wave voltage output of impulse generator 17 should be fed directly to the varialbe carry system counter 19. Then, if the variable carry system counter 19 is in ternary system manner, the cylical period T of the speed regulator is 1.5n times as long as the period of monophase alternative power supply and 2/3 n graded speed regulation may be obtained. Otherwise if the variable carry, system counter 19 is in tetranary system manner, the cyclical period T of the speed regulator is 2n times as long as the period of monophase alternative power source, and 1/2 n graded speed regulation may be obtained. 
     In summary of above-mentioned examples all the graded speed regulation of 2/3, 1/2, 1/3, 1/4. . . are able to be obtained. 
     In order to start an asynchronous motor using said kind of speed regulator, it is obviously necessary to initiate said motor with switching onto the lowest speed grad and gradually switching up to more high speed grad and until to what is in need of. So that the starting current would not be too large. 
     The positive or negative half-wave vlotage delivered to controlled motor from speed regulator of present invention is a part or the half-wave of monophase alternative power supply. When working thyristor is to be conducted near π of respective half-wave by controlling the variable resistor 32 in conduction angle controller 21 to lowest, and when load power of asychronous motor is to be adapted to Δ-Y exchangable or transfromed power supply by a transfrom, the influences of harmonic componeuts may considerably be decreased. 
     Another most simple embodiment of present invention, using 1/2 graded speed regulation with monophase alternative power supply is described as follows: Having cancelled 18, 20, 23 out from FIG. 4, having changed 19 to a binary system counter, which is, directly connected to 17 wherein, output signals by that said binary system counter are fed to 22. Output signals of trigger circuit 22 are fed to the controlling electrodes of monodirectional thyristor 14 and 15 in FIG. 3. Synchronous power supply circuit 16 should be just like the schematic diagram of the FIG. 9. Signals from 45 are fed to synchronous count impulse generator 17. Having cancelled conduction angle controller 21, output signals 46 are fed to trigger circuit 22. 
     For avoiding the trouble of starting a 1/2 graded speed regulator, asynchronous motor may be started by the help of 3 phase alternative power source, and then switched onto the said speed graded regulator afterwards. The attention ought to be paid to asychronous impact, which would be probably happened at the moment of switching. That problem may be solved by following procedures: switching with a time delay to speed regulator; restricting the current of main circuit; keeping the untriggered mode of the thyristors in main circuit until synchronism; keeping stop-count or skip-count of the counter in said controller during the period of asynchronoism. 
     Consequeutly the 1/2 graded speed regulation apparatus comprising main circuit with 2 monodirectional thyristor 14, 15 may regulate the speed of asynchronous motor 13, having cyclical period being 2 times as long as the period of monophase alternative power supply by the help of controller. 
     It will understood by those skilled in the art that the foregoing description in the terms of a preferred embodiment of present invention wherein various changes and modifications may be made without departing from the spirit and scope of the invention, as set forth in the appended claims.