CN100470985C - Motor controlling protector - Google Patents

Motor controlling protector Download PDF

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Publication number
CN100470985C
CN100470985C CNB2005100423878A CN200510042387A CN100470985C CN 100470985 C CN100470985 C CN 100470985C CN B2005100423878 A CNB2005100423878 A CN B2005100423878A CN 200510042387 A CN200510042387 A CN 200510042387A CN 100470985 C CN100470985 C CN 100470985C
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CN1812217A (en
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张泽礼
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Binzhou Polytechnic
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Binzhou Polytechnic
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Abstract

This invention provides a kind of electromotor controlling protector. It belongs to a kind of controlling protection apparatus of electromotor. It concludes shell, on which has the button and light-emitting diode. The circuit inside the shell concludes: open-phase and three-phase imbalanced trouble detection circuit, loaded state signal generating and indicating circuit, starting and resetting signal generating circuit, time constant auto-regulated integrating circuit, time delaying controlling logical circuit, panic answering type memory circuit, stopping signal generating circuit, LED displaying matrix gate, contactor controlling circuit, temperature sensitive voltage-stabilized source and early electric signal generating circuit. This invention integrates electromotor controlling, protection, trouble memory and state displaying together.

Description

Motor controlling protector
Technical field
The invention provides a kind of control protective device of asynchronous motor, particularly have the control protective device of the asynchronous motor of artificial intelligence.
Background technology
At present, the control of asynchronous motor and protective device generally are made up of guard block (thermal relay or electronic protector), execution unit (A.C. contactor), instruction unit (control button) and state display part part (signal lamp) etc.The shortcoming of this control protective device is: defencive function is not good enough, and deixis is single, and the running noises of contactor is big, and the energy consumption height, the wiring complexity, has consumed a large amount of metal materials.It adopts the overcurrent protection mode of thermal relay, and the accuracy of current calibration is lower, has therefore influenced the protection effect.Motor Control case on this control protective device, the signal lamp that is installed on the chamber door is connected with circuit board by flexible cord with control button.The insulation that damages line owing to the rotation of chamber door easily causes casing charged, thereby safe class is lower.When safe class is had relatively high expectations, need to use the control transformer step-down, thereby cost is very high.
Summary of the invention
Technical problem to be solved by this invention is to provide a kind of motor controlling protector, to improve its control and protection effect.
The present invention realizes like this; motor controlling protector; it has shell; the light-emitting diode that button and indication usefulness are arranged on the shell; on described control protector; the sucking coil of A.C. contactor KM is connected with first output of contactor control circuit, the tail end of the secondary coil of the 1st current transformer, the 2nd current transformer, the 3rd current transformer ground connection that connects together, the 1st current transformer (TA 1) head end and the load condition signal of secondary coil produces and the first input end of indicating circuit and the first input end of the phase failure and three-phase imbalance failure detector circuit are connected the 2nd current transformer (TA 2) head end and the load condition signal of secondary coil produces and second input of indicating circuit and second input of the phase failure and three-phase imbalance failure detector circuit are connected the 3rd current transformer (TA 3) head end and the load condition signal of secondary coil produces and the 3rd input of indicating circuit and the 3rd input of the phase failure and three-phase imbalance failure detector circuit are connected; the load condition signal time of delivery (TOD) constant that the load condition signal produces and indicating circuit is exported is adjusted the input of integrating circuit automatically; time constant is adjusted the first input end that three-phase imbalance signal that the over-current signal of integrating circuit output and the phase failure and three-phase imbalance signal generating circuit (5) produce is delivered to the time-delay control logic circuit automatically; the phase failure signal that the phase failure and three-phase imbalance signal generating circuit produce is delivered to the input of question-and-answer game apparatus formula memory circuit; the input that stopping signal produces circuit be connected on under-voltage and the first output that powers up broad pulse output and model selection and warning circuit that just powers up signal generating circuit on; the stopping signal that stopping signal produces circuit output end output is delivered on the first input end of the first input end of contactor control circuit and question-and-answer game apparatus formula memory circuit; the output of time-delay control logic circuit is connected with the set end of question-and-answer game apparatus formula memory circuit; the reset terminal of question-and-answer game apparatus formula memory circuit links to each other with the reset pulse output that startup and reset pulse produce circuit; the first input end that startup and reset pulse produce circuit links to each other with the first output that powers up burst pulse output and model selection and warning circuit that just powers up signal generating circuit with under-voltage; startup and reset pulse produce the starting impulse output of circuit and receive on second input of contactor control circuit; the output of question-and-answer game apparatus formula memory circuit is connected with the input of LED display matrix door; the output of LED display matrix door is received on the first input end of contactor control circuit; the control signal of contactor control circuit second output output is received on another input of generation of load condition signal and indicating circuit; under-voltage signal under-voltage and that just power up signal generating circuit output produces the input of circuit respectively with stopping signal; second input of time-delay control logic circuit; the input of model selection and warning circuit is connected with the first input end of startup and reset pulse generation circuit; another input of model selection and warning circuit is received on the 3rd output of contactor control circuit; the road direct voltage with variation of ambient temperature in the two-way voltage of temperature sensitive stabilized voltage power supply output is connected on the time-delay control logic circuit, and another road is not connected on time-delay control logic circuit other circuit in addition with the direct voltage of variation of ambient temperature.
The present invention's motor controlling protector can be analyzed and judges the various situations of motor emerged in operation, whether implements power-off protection with decision.As implementing power-off protection, then select best delay time automatically according to the overcurrent degree, after protection is shut down automatically the failure cause memory and show.It can also determine the mode and the content that show as the case may be.The motor controlling protector of invention is provided with load condition indication and current calibration indicating circuit, thereby makes the accuracy of current calibration improve greatly.In the start-up course of motor, it can be added in voltage on the A.C. contactor sucking coil according to sequencing control, make A.C. contactor pickup time and keep voltage and can choose best numerical value, avoided burning out of sucking coil.Control, protection, automatic fault diagnosis and state that the present invention's motor controlling protector has the current collection motivation are shown in the characteristics of one, and have the protective effect to A.C. contactor, and production cost is low, have the very high ratio of performance to price.
Specifically, the present invention has the following advantages:
One, control performance is good
1, can make alternating-current contactor energy-saving, operation voicelessly.
2, can directly adopt sensers such as sensitive switch, tongue tube, mercury conduction thermometer, mercoid switch, Hall element, gas sensor directly to control.
3, control circuit is simple.Circuit is simple, saves wire rod.
4, control mode is various.The present invention's motor controlling protector has two kinds of mode of operations, button control pattern and toggle switch control model.Under the button control pattern, it has the o-volt protection function.Under the toggle switch control model, it does not have the o-volt protection function, but still have under-voltage protection function, and has the electric alarm of the coming automatically actuated function of delaying time, and is suitable for the control of water pump, blower fan and oil-field oil pumper.
5, have crawl, long moving (from lock control) and controlled function how.
Two, motor and A.C. contactor all had perfect protective effect
1, has the function that overload to motor, short circuit, decompression, under-voltage, electric leakage, phase shortage and three-phase imbalance are protected.When overload, under-voltage, three-phase imbalance, can both adjust delay time automatically according to the overcurrent degree, have splendid inverse time-lag protective feature.
2, has protective effect to ac contactor contact.Occur under-voltagely during startup, its refusal is given the sucking coil power supply of A.C. contactor; Emerged in operation is under-voltage, and it interrupts the power supply of sucking coil.Thereby can eliminate the shake of contact, prolong the life-span of contact.
3, the sucking coil to A.C. contactor has protective effect.Under running status, adopt the method that limits the power power supply to power to A.C. contactor, can never burn out the sucking coil of A.C. contactor.
4, has the faults itself protective effect.Under halted state, just in case break down in its inside, A.C. contactor is not adhesive voluntarily also, and the mechanical accident of can avoiding meeting accident takes place.
Three, Presentation Function is strong
The operation and the halted state that 1, can show motor.
2, has the function that load shows.Can instant playback go out underloading, fully loaded, over-current state, can understand the load condition of motor so at any time.
3, has the deixis of adjusting.Can accurately carry out current calibration according to the demonstration situation, thereby overcome the not accurate enough defective of current calibration of prior art.
4, has the automatic fault diagnosis function.Can be after implementing the protection action, with the failure cause memory and show, so that fix a breakdown rapidly.
5, have under-voltage and the three-phase imbalance deixis.
Four, has the environment self-adaption function
Can adjust setting current according to ambient temperature automatically, can give full play to the usefulness of motor.
Five, energy-saving effect is remarkable
The total power consumption of the present invention's control protector is below 2W.Than the active power that traditional thermal relay guard signal lamp indicating mode is saved 5~15W, can reduce the reactive power of 10~90W.
Six, reduced the cost of relevant low-voltage electrical apparatus
Owing to do not use auxiliary contact on the A.C. contactor, do not have eddy current problem, can cancel short-circuited conducting sleeve and auxiliary contact on the A.C. contactor iron core.The control of employing light current can be used the simple and easy near switch of magnet and magneto sensor composition, replaces existing travel switch, electromagnetic viscosimeter formula near switch.
Seven, improved safe class
What external-connected port adopted is the following direct current light current control of 10V, therefore, reveals core or short circuit even external line occurs, also can not get an electric shock and the accident of arcing.
Eight, powerful expanded function
Its extraneous control port has D.C. regulated power supply output, can insert various sentive switch and extended function box, promptly can realize simple control automatically.
Description of drawings
Fig. 1 is the schematic diagram of wiring occupation mode of the present invention.
Fig. 2 is the frame principle figure of control protection electric circuit of the present invention's control protector.
Fig. 3 is the logical circuit schematic diagram (minus earth) of circuit shown in Figure 2.
Fig. 4 also is the logical circuit schematic diagram (plus earth) of circuit shown in Figure 2.
Fig. 5 is a kind of physical circuit figure that realizes circuit logic function shown in Figure 3.
Embodiment
Below in conjunction with description of drawings concrete structure of the present invention and operation principle.
As shown in drawings; the present invention's motor controlling protector; it has shell (1); the light-emitting diode (3) that button (2) and indication usefulness are arranged on the shell; on described control protector; the sucking coil of A.C. contactor KM is connected with first output of contactor control circuit (11), the 1st current transformer (TA 1), the 2nd current transformer (TA 2), the 3rd current transformer (TA 3) the tail end of the secondary coil ground connection that connects together, the 1st current transformer (TA 1) head end and the load condition signal of secondary coil produces and the first input end of indicating circuit (4) and the first input end of the phase failure and three-phase imbalance failure detector circuit (5) are connected the 2nd current transformer (TA 2) head end and the load condition signal of secondary coil produces and second input of indicating circuit (4) and second input of the phase failure and three-phase imbalance failure detector circuit (5) are connected the 3rd current transformer (TA 3) head end and the load condition signal of secondary coil produces and the 3rd input of indicating circuit (4) and the 3rd input of the phase failure and three-phase imbalance failure detector circuit (5) are connected; the load condition signal time of delivery (TOD) constant that the load condition signal produces and indicating circuit (4) is exported is adjusted the input of integrating circuit (7) automatically; time constant is adjusted the first input end that three-phase imbalance signal that the over-current signal of integrating circuit (7) output and the phase failure and three-phase imbalance signal generating circuit (5) produce is delivered to time-delay control logic circuit (8) automatically; the phase failure signal that the phase failure and three-phase imbalance signal generating circuit (5) produce is delivered to the input of question-and-answer game apparatus formula memory circuit (12); the input that stopping signal produces circuit (9) be connected on under-voltage and the first output that powers up broad pulse output and model selection and warning circuit (10) that just powers up signal generating circuit (15) on; the stopping signal that stopping signal produces the output of circuit (9) output is delivered on the first input end of the first input end of contactor control circuit (11) and question-and-answer game apparatus formula memory circuit (12); the output of time-delay control logic circuit (8) is connected with the set end of question-and-answer game apparatus formula memory circuit (12); the reset terminal of question-and-answer game apparatus formula memory circuit (12) links to each other with the reset pulse output that startup and reset pulse produce circuit (6); the first input end that startup and reset pulse produce circuit (6) links to each other with the first output that powers up burst pulse output and model selection and warning circuit (10) that just powers up signal generating circuit (15) with under-voltage; startup and reset pulse produce the starting impulse output of circuit (6) and receive on second input of contactor control circuit (11); the output of question-and-answer game apparatus formula memory circuit (12) is connected with the input of LED display matrix door (13); the output of LED display matrix door (13) is received on the first input end of contactor control circuit (11); the control signal of contactor control circuit (11) second outputs output is received on another input of generation of load condition signal and indicating circuit (4); under-voltage signal under-voltage and that just power up signal generating circuit (15) output produces the input of circuit (9) respectively with stopping signal; second input of time-delay control logic circuit (8); the input of model selection and warning circuit (10) is connected with the first input end of startup and reset pulse generation circuit (6); another input of model selection and warning circuit (10) is received on the 3rd output of contactor control circuit (11); the road direct voltage with variation of ambient temperature in the two-way voltage of temperature sensitive stabilized voltage power supply (14) output is connected on the time-delay control logic circuit (8), and another road is not connected on time-delay control logic circuit (8) other circuit in addition with the direct voltage of variation of ambient temperature.
The operation principle of Fig. 2 is as follows:
In circuit shown in the drawings, the current transformer TA of three punchings 1, TA 2, TA 3Be respectively applied for U, the V that detects motor, the line current of W three-phase.Adjust and load condition signal generating circuit (4) to D.C mutual-inductor TA 1, TA 2, TA 3The alternating voltage of secondary output is handled, generation can reflect motor load condition voltage signal and greater than the short-circuit signal of motor start-up electric current; And with the relevant preset level comparison of threshold level of load condition signal and time-delay control logic circuit (8), determine load condition, display it by the load condition display circuit.
The effect that time constant is adjusted integrating circuit (7) automatically is that the load condition signal is handled, the signal of telecommunication of output reflection motor stator winding temperature rise situation.
The effect of time-delay control logic circuit (8) is that overload signal, short-circuit signal, three-phase imbalance signal, under-voltage signal and the phase failure signal etc. of input are analyzed, and carries out suitable delay process according to specific circumstances.The threshold level of time-delay control logic circuit changes with variation of temperature, thereby realizes determining that according to ambient temperature the motor increment still is that derate is used.
The effect of question-and-answer game apparatus formula memory circuit (12) is to the digital signal storage memory by the output of time-delay control logic circuit.Its multi-channel input is connected with each status signal end respectively, the direct driving LED display matrix work of its output, and its interlock function is used to prevent wrong demonstration.
The logic gates that LED display matrix door (13) is made up of light-emitting diode and resistance etc.It can show above fault, can carry out combinational logic for question-and-answer game apparatus formula memory circuit output signal again and handle, and produces the required control signal of contactor control circuit.
The effect that startup and reset pulse produce circuit (6) is that the start command signal of input is handled.It can export two kinds of pulses, and a kind of is the required reset pulse of question-and-answer game apparatus formula memory circuit, is used for carrying out initialization process for question-and-answer game apparatus formula memory circuit, and pulse duration has only about 3mS.Another kind is the required starting impulse of contactor control circuit, about width 100mS, is used to control the high pressure adhesive of A.C. contactor.This circuit is subjected to the control of under-voltage signal, even press start button under under-voltage condition, does not also produce starting impulse and reset pulse.
The effect that stopping signal produces circuit (9) is that the output stopping signal is to question-and-answer game apparatus formula memory circuit, to realize shutting down control.This circuit can produce instruction stop and two kinds of signals are shut down in protection.When system just powers up; this circuit utilization just powers up broad pulse and produces the stopping signal in 2~3 seconds of duration to question-and-answer game apparatus formula memory circuit and contactor control circuit; guaranteeing not adhesive of A.C. contactor in question-and-answer game apparatus formula memory circuit initialization procedure, not shake, and after initialization, transfer stopped status immediately to.
Under-voltage and just power up signal generating circuit (15) and can occur when under-voltage at power supply, export under-voltage signal and produce circuit and time-delay control logic circuit to stopping signal, be used to realize under-voltage protection.
Temperature sensitive stabilized voltage power supply (14) is made up of the very approaching major and minor two-way stabilized voltage power supply of output voltage.Secondary stabilized voltage power supply output is with the voltage V of variation of ambient temperature OTGive time-delay control logic circuit (8) power supply; The output of main stabilized voltage power supply is not with the direct voltage V of variation of ambient temperature OPGive other circuit supply.
Contactor control circuit (11) is used for the power supply control of the sucking coil of A.C. contactor, when starting, provide the duration only 100 milliseconds than High Level DC Voltage, provide direct voltage about 10V at the state of keeping to sucking coil, the holding power of contactor only has tens of mW like this.
Model selection and warning circuit (10) are used to select control model, produce control command and alarm signal.It has button control and two kinds of patterns of toggle switch control.The former has the o-volt protection effect.The latter does not have the o-volt protection effect, but has the function of electric alarm delayed startup.
Fig. 3 and Fig. 4 are the logical circuit schematic diagrams of realizing above-mentioned functions.Among the figure, G 2, G 3, G 4, G 16Adopt the CMOS integrated gate circuit.Two schematic diagrams have the relation of antilogical and reversed polarity.In Fig. 3 and circuit shown in Figure 4, diode V 76Adopt germanium diode, and utilize CMOS integrated gate circuit transfer curve to have more steep turnover characteristic and threshold level to equal 0.5V DDCharacteristics, also, make transmission characteristic more steep by increasing the method for positive feedback, the output voltage that time constant is adjusted integrating circuit is automatically differentiated according to this.
The negative pole end ground connection of main stabilized voltage power supply in Fig. 3 circuit, the positive pole of major-minor stabilized voltage power supply connects together, and question-and-answer game apparatus formula memory circuit is by constituting with non-type rest-set flip-flop, and input signal is effective when low level; The AND circuit that LED display matrix door is made up of light-emitting diode and resistance, its load condition signal V PDescend along with increasing the weight of of load, work as V PV SThe time represent underloading, work as V P<V SThe time represent overcurrent.
The plus earth of main stabilized voltage power supply in Fig. 4 circuit, the negative pole of major and minor stabilized voltage power supply connects together, question-and-answer game apparatus formula memory circuit is made of the or/no type rest-set flip-flop, input signal is effective when high level, the OR circuit that LED display matrix door is made up of light-emitting diode and resistance, its load condition signal V PRaise along with increasing the weight of of load, in the presence of V PV SThe time represent overcurrent, in the presence of V P<V SThe time represent underloading.
Startup and reset pulse produce circuit (6) mainly by monostable flipflop F 1, F 4With door G 13, G 20Form.
Produce on the circuit (6) door G in described startup and reset pulse 13The b input and the start button SB in model selection and the warning circuit (10) 2One end links to each other and and K switch 2-2A fixed contact connect G 13A input and under-voltage and just power up inverter G in the signal generating circuit (15) 14Output link to each other G 13Output and monostable flipflop F 1Input and monostable flipflop F 4Input link to each other and with question-and-answer game apparatus formula memory circuit (8) in door G 18The a input connect F 1The starting impulse signal of output output be connected on resistance R in the contactor control circuit (11) 80On, F 4Output with the door G 20The a input link to each other G 20B input and under-voltage and just power up monostable flipflop F in the signal generating circuit (15) 11Output connect door G 20The reset pulse of output output receive rest-set flip-flop F in the question-and-answer game apparatus formula memory circuit (12) 6, F 7, F 8, F 9The set end on.
In circuit shown in Figure 3, G 13The rising edge of output pulse triggers F 4, F 4The positive pulse of output is through G 20Form the reset pulse of negative polarity after the paraphase; G 13The rising edge of output pulse triggers F 1, F 1The starting impulse of output negative pole; G 20It is NOR gate; Door G 20The reset pulse of output output negative pole receive rest-set flip-flop F in the question-and-answer game apparatus formula memory circuit (12) 6, F 7, F 8, F 9Put on 1 end.In the circuit shown in Figure 4, G 13The trailing edge of output pulse triggers F 4, F 4The output negative pulse is through G 20Form the reset pulse of positive polarity after the paraphase; G 13The trailing edge of output pulse triggers F 1, F 1The starting impulse of output cathode; G 13And G 20The right and wrong door; Door G 20The positive polarity reset pulse of output output receive rest-set flip-flop F in the question-and-answer game apparatus formula memory circuit (12) 6, F 7, F 8, F 9Put on 0 end.
Time constant is adjusted integrating circuit (7) automatically mainly by half adc circuit, multiway analog switch, equivalent variable resistance R nWith diode V 24Form.Half adc circuit (quasi-mode number converter) can become analog signal conversion a kind of special digital signal.It is compared with binary adc circuit and has saved binary coding circuit, therefore is called half adc circuit.
Automatically adjust on the integrating circuit (7) input of half adc circuit and the 24th diode (V in described time constant 24) an end link to each other and be connected on that the load condition signal produces and indicating circuit (4) in the 11st resistance (R 11) and the 31st resistance (R 31) between, row's resistance (R n) an end and the 24th diode (V 24) the other end connect row's resistance (R n) the other end and the 11st electric capacity (C 11) and resistance the 55th resistance (R 55) an end link to each other the 55th resistance (R 55) the other end and time-delay control logic circuit (8) in the 2nd (G 2), the 3rd (G 3), the 4th (G 4) a input link to each other the 11st electric capacity (C 11) the other end and the 3rd bridge in the temperature sensitive temperature and pressure power supply (14) heap (DL 3) output link to each other, the output of half adc circuit is connected with the control end of multiway analog switch respectively, the output of multiway analog switch is connected on arranges resistance (R n) on.
In circuit shown in Figure 3: V 24Negative pole link to each other C with the P point 11Positive pole receive DL 3Positive output end on.In circuit shown in Figure 4: V 24Positive pole link to each other C with the P point 11Negative pole receive DL 3Negative output terminal on.
Time-delay control logic circuit (8) is mainly by door G 2, G 3, G 4, G 16And inverter G 1Form.
On described time-delay control logic circuit (8), the 2nd (G 2), the 3rd (G 3), the 4th (G 4) a input and time constant adjust the 55th resistance (R in the integrating circuit (7) automatically 55) link to each other the 2nd (G 2) c input and the 1st inverter (G 1) output link to each other the 2nd (G 2) b input and under-voltage and just power up the 14th inverter (G in the signal generating circuit (15) 14) output link to each other and produce the 13rd (G in the circuit (6) with startup and reset pulse 13) a input link to each other the 27th triode (V in the phase failure and the three-phase imbalance failure detector circuit (5) 27) the three-phase imbalance signal of collector electrode output be connected on the 1st inverter (G 1) input and the 3rd (G 3) the b input on, the 4th (G 4) b input and under-voltage and just power up the 14th inverter (G in the signal generating circuit (15) 14) input link to each other the 2nd (G 2) output and the 16th (G 16) the b input link to each other, from the load condition signal produce and indicating circuit (4) the 31st resistance (R 31) and the 43rd resistance (R 43) between output short-circuit signal receive the 16th (G 16) a input on, the 16th (G 16) output receive the 6th trigger (F in the integrated rest-set flip-flop in the question-and-answer game apparatus formula memory circuit (12) 6) input on, the 4th (G 4) output and stopping signal produce the 19th (G in the circuit (9) 19) a input link to each other the 3rd (G 3) output receive the 7th trigger (F in the integrated rest-set flip-flop in the question-and-answer game apparatus formula memory circuit (12) 7) input on, the 2nd (G 2), the 3rd (G 3), the 4th (G 4) the power supply pin respectively with temperature sensitive stabilized voltage power supply (14) in the 3rd bridge heap (DL 3) output and the 74th triode (V 74) emitter connect.
In circuit shown in Figure 3: G 2, G 3, G 4For or the door, G 16For with door, G 2, G 3, G 4Take from same CMOS or door chip.In the circuit shown in Figure 4: G 2, G 3, G 4Be and door G 16Be or door G 2, G 3, G 4Take from same CMOS and door chip.
Contactor control circuit (11) is mainly by door G 21, triode V 59, V 69, keep relay J 1, starting relay J 2, high-voltage rectifying bridge heap DL 2With decompression capacitor C 28Deng composition.
On described contactor control circuit (11), the 21st (G 21) a input and the 51st light-emitting diode (V in the LED display matrix door (13) 51), the 52nd light-emitting diode (V 52), the 53rd light-emitting diode (V 53), the 54th (light-emitting diode V 54), the 55th optical diode (V 55) an end link to each other and produce the 22nd (G in the circuit (9) with stopping signal 22) the b input connect the 21st (G 21) b input and the 22nd (G 22) output link to each other, under-voltage and just power up the 10th monostable flipflop (F in the signal generating circuit (15) 10) the first broad pulse that powers up of output output be connected on the 21st (G 21) the c input on, the 21st (G 21) output and the 2nd resistance (R 2) an end link to each other and with the 75th resistance (R 75) an end connect the 75th resistance (R 75) the other end be connected on the 59th triode (V 59) base stage on, R 2The other end and the load condition signal produces and indicating circuit (4) in the 1st triode (V 1) base stage link to each other the 59th triode (V 59) collector electrode and the 69th triode (V 69) emitter and the 1st relay (J 1) an end of sucking coil link to each other, and produce with the load condition signal and indicating circuit (4) in the 1st integrated operational amplifier (A 1), the 2nd integrated operational amplifier (A 2) power end connect the 59th triode (V 59) emitter and the 3rd bridge in the temperature sensitive stabilized voltage power supply (14) heap (DL 3) the 1st output link to each other, start and reset pulse produces the 1st monostable flipflop (F in the circuit (6) 1) the starting impulse of output output through the 80th resistance (R 80) receive the 69th triode (V 69) base stage on, the 69th triode (V 69) collector electrode and the 2nd relay (J 2) an end of sucking coil link to each other the 1st relay (J 1) the other end and the 2nd relay (J of sucking coil 2) the other end of sucking coil link to each other and with the 3rd bridge heap (DL 3) another output connect, an end of AC power is through the 3rd switch (K 3) receive Bridge 2 heap (DL 2) an input on, the other end of AC power and the 1st fuse (FU 1) an end link to each other the 1st fuse (FU 1) the other end and the 28th electric capacity (C 28) an end link to each other and through the 1st relay (J 2) normally opened contact and the 91st resistance (R 91) an end connect the 91st resistance (R 91) the other end and the 28th electric capacity (C 28) the other end link to each other and with Bridge 2 heap (DL 2) another input connect Bridge 2 heap (DL 2) an output link to each other Bridge 2 heap (DL with an end of the sucking coil of A.C. contactor (KM) 2) another output through the 1st relay (J 1) the normally opened contact group be connected the 95th resistance (R with the other end of the sucking coil of A.C. contactor (KM) 95) and the 30th electric capacity (C 30) be connected in parallel on the sucking coil of A.C. contactor KM after the series connection.
In circuit shown in Figure 3, G 21The right and wrong door, V 59And V 69Adopt the positive-negative-positive triode, V 59Emitter receive DL 3Positive output end on, work as F 1The starting impulse of output negative pole and V 59Full fashionable, J 2Adhesive; J 1, J 2The other end of sucking coil be connected in DL 3Negative output terminal on; In halted state, LED and door output low level.In the circuit shown in Figure 4, V 59, V 69Adopt NPN type triode, G 21Be NOR gate, G 21V during the output high level 59Full closing; Work as F 1The starting impulse of output cathode and V 59Full fashionable, J 2Adhesive; J 1, J 2One termination DL of sucking coil 3Positive output end; In halted state, LED or door output high level.
Generation of load condition signal and indicating circuit (4) are mainly by diode V 5, V 8, V 11And capacitor C 7The three phase half wave rectification filter circuit of forming, resistance R 10, potentiometer W 3, W 4The tunable load circuit of forming, R 4, R 11, R 31, R 43And triode V 1, diode V 2Form level shifter, A 1, A 2Two differential-voltage comparator of forming and by dichromatic LED DL 1The load indicating circuit that constitutes is formed.
On described load condition signal generation and indicating circuit (4), the 1st current transformer (TA 1), the 2nd current transformer (TA 2) and the 3rd current transformer (TA 3) head end respectively with the 5th diode (V 5), the 8th diode (V 8), the 11st diode (V 11) an end link to each other the 5th diode (V 5), the 8th diode (V 8), the 11st diode (V 11) the other end connect together and the 7th electric capacity (C 7) an end link to each other and with the 10th resistance (R 10) and the 4th resistance (R 4) an end connect the 10th resistance (R 10) the other end and the 4th potentiometer (W 4) an end connect the 4th resistance (R 4) the other end and the 11st resistance (R 11) an end link to each other and with the 2nd diode (V 2) an end connect the 2nd diode (V 2) the other end and the 1st triode (V 1) collector electrode connect the 11st resistance (R 11) the other end and the 31st resistance (R 31) an end link to each other and with the 1st integrated operational amplifier (A 1) and the 2nd integrated operational amplifier (A 2) an input connect the 31st resistance (R 31) and the 43rd resistance (R 43) between the short-circuit signal of output receive the 16th (G in time-delay control logic circuit (8) 16) a input on, the 1st integrated operational amplifier (A 1) and the 2nd integrated operational amplifier (A 2) another input and the 25th resistance (R 25) an end link to each other and with the 1st resistance (R 1) an end connect the 25th resistance (R 25) the other end and the 43rd resistance (R 43) the other end receive the 3rd bridge heap (DL in the temperature sensitive stabilized voltage power supply (14) 3) an output on, the 1st resistance (R 1) other end ground connection, the 1st integrated operational amplifier (A 1) and the 2nd integrated operational amplifier (A 2) output respectively with the 1st dichromatic LED (DL 1) two positive poles link to each other the 1st dichromatic LED (DL 1) negative pole through the 3rd resistance (R 3) ground connection, the 1st triode (V 1) base stage and the 2nd resistance (R 2) an end connect the 4th potentiometer (W 4), the 3rd potentiometer (W 3) all the other two ends connect together the 2nd resistance (R 2) the other end receive the 21st (G in the contactor control circuit (11) 21) output on, the 1st triode (V 1) emitter and the 7th electric capacity (C 7) other end ground connection.
In circuit shown in Figure 3, TA 1, TA 2, TA 3Head end respectively with diode V 5, V 8, V 11Negative pole connect V 1Be NPN type triode, V 2Negative pole and V 1Collector electrode connect A 1In-phase input end and A 2Inverting input meet P point, A 1Inverting input and A 2In-phase input end connects the S point.Work as V P<V SThe time, A 2The output high level drives DL 1In red light emitting diodes luminous, overcurrent appears in indication.Work as V PV SThe time be underloading, A 1The output high level, DL 1In green LED conducting indication underloading.
In circuit shown in Figure 4, TA 1, TA 2, TA 3Head end respectively with V 5, V 8, V 11Positive pole connect V 1Be the positive-negative-positive triode, V 2Positive pole and V 1Collector electrode connect A 1In-phase input end and A 2Inverting input meet S point, A 1Inverting input and A 2In-phase input end connects the P point.Work as V P<V SThe time, A 1The output high level, DL 1In green LED conducting indication underloading, work as V PV SThe time, A 1Output low level, DL 1In red light emitting diodes conducting indication overcurrent.
The phase failure and three-phase imbalance failure detector circuit (5) are mainly by diode V 15, V 18, V 21, C 8The three phase half wave rectification filter circuit of forming; V 3And C 1, V 6And C 3, V 9And C 5Form three groups of single-phase rectifier filter circuits; Triode V 16, V 19, V 22, V 27The synthetic gate circuit of the voltage ratio that constitutes is formed.
On the described phase failure and three-phase imbalance failure detector circuit (5), the 1st current transformer (TA 1) head end through the 3rd diode (V 3) and the 1st electric capacity (C 1) an end link to each other and with the 11st (G 11) a input and the 18th resistance (R 18) an end connect the 2nd current transformer (TA 2) head end through the 6th diode (V 6) and the 3rd electric capacity (C 3) an end link to each other and with the 11st (G 11) b input and the 20th resistance (R 20) an end connect the 3rd current transformer (TA 3) head end through the 9th diode (V 9) and the 5th electric capacity (C 5) an end link to each other and with the 11st (G 11) c input and the 22nd resistance (R 22) an end connect the 11st (G 11) the phase failure signal of output output receive the 17th (G in the question-and-answer game apparatus formula memory circuit (12) 17) a input on, the 1st electric capacity (C 1), the 3rd electric capacity (C 3), the 5th electric capacity (C 5) other end ground connection, the 12nd resistance (R 12) and the 1st electric capacity (C 1) parallel connection, the 13rd resistance (R 13) and the 3rd electric capacity (C 3) parallel connection, the 14th resistance (R 14) and the 5th electric capacity (C 5) parallel connection, the 18th resistance (R 18) the other end receive the 16th triode (V 16) base stage on, the 20th resistance (R 20) the other end receive the 19th triode (V 19) base stage on, the 22nd resistance (R 22) the other end receive the 22nd triode (V 22) base stage on, the 1st current transformer (TA 1) head end also with the 15th diode (V 15) end links to each other the 2nd current transformer (TA 2) head end also with the 18th diode (V 18) end links to each other the 3rd current transformer (TA 3) head end also with the 21st diode (V 21) an end link to each other the 15th diode (V 15), the 18th diode (V 18), the 21st diode (V 21) the other end connect together and with the 8th electric capacity (C 8) an end and the 27th resistance (R 27) end connection, the 27th resistance (R 27) the other end and the 28th resistance (R 28) an end link to each other and with the 16th triode (V 16), the 19th triode (V 19), the 22nd triode (V 22) emitter connect the 28th resistance (R 28) the other end and the 26th light-emitting diode (V 26) an end link to each other the 8th electric capacity (C 8) other end and the 26th diode pipe (V 26) the other end link to each other and ground connection the 16th triode (V 16), the 19th triode (V 19), the 22nd triode (V 22) collector electrode connect together and with the 30th resistance (R 30) an end connect the 30th resistance (R 30) the other end receive the 27th (triode V 27) base stage on, the 27th triode (V 27) grounded emitter, the 27th triode (V 27) collector electrode and the 28th light-emitting diode (V 28) an end connect the 28th light-emitting diode (V 28) the other end and the 48th resistance (R 48) an end connect the 48th resistance (R 48) the other end receive the 3rd bridge heap (DL in the temperature sensitive stabilized voltage power supply (14) 3) on the output, the 27th triode (V 27) the three-phase imbalance signal of collector electrode output receive the 1st inverter (G in the time-delay control logic (8) 1) input and the 3rd (G 3) the b input on.
Resistance R 18The resistance value ratio resistance R 12Big many of resistance, resistance R 20The resistance value ratio resistance R 13Big many of resistance, resistance R 22The resistance value ratio resistance R 14Big many of resistance, its objective is when preventing phase shortage, because triode V 16, V 19, V 22In the middle of one emitter junction conducting is arranged, make G 11The current potential of corresponding input pin surpass its threshold level.In circuit shown in Figure 3: V 3And C 1, V 6And C 3, V 9And C 5The single phase half wave rectification filter circuit of forming three groups of positive outputs, diode V 15, V 18, V 21And capacitor C 8The three phase half wave rectification filter circuit of forming positive output, V 16, V 19, V 22Select the positive-negative-positive transistor for use, V 27Select negative-positive-negative transistor for use, G 11The right and wrong door.In circuit shown in Figure 4: V 3And C 1, V 6And C 3, V 9And C 5The single-phase rectifier filter circuit of forming three groups of negative outputs, diode V 15, V 18, V 21And capacitor C 8The three phase half wave rectification filter circuit of forming negative output, triode V 16, V 19, V 22Select negative-positive-negative transistor for use, V 27Select the positive-negative-positive transistor for use, G 11It is NOR gate.
Model selection and warning circuit (10) are mainly by monostable flipflop F 2, F 3, F 5, door G 12, G 13, G 15, control button SB 1, SB 2, mode selection switch K 2, control switch K 1Deng composition.K 2Be the dial type double-point double-throw switch, K 1It is the dpdt double-pole double-throw (DPDT) toggle switch.
On described model selection and warning circuit (10), the 2nd double-point double-throw switch (K 2-2) a fixed contact and the 12nd (G 12) output connect the 2nd double-point double-throw switch (K 2-2) another fixed contact and its moving contact short circuit and with start button (SB 2) an end and the 1st external control port (CN 1) in port 2. connect (the K of the 2nd double-point double-throw switch 2-1) a fixed contact and the 1st double-point double-throw switch (K 1-1) moving contact link to each other the 2nd double-point double-throw switch (K 2-1) moving contact ground connection, the 2nd double-point double-throw switch (K 2-1) another fixed contact and the 15th (G 15) the d input link to each other and with stop button (SB 1) an end and start button (SB 2) the other end connect the 1st double-point double-throw switch (K 1-1) a fixed contact and the 3rd monostable flipflop (F 3) input link to each other the 1st double-point double-throw switch (K 1-1) another fixed contact and stop button (SB 1) the other end link to each other and produce the 19th (G in the circuit (9) with stopping signal 19) the d input connect the 12nd (G 12) a input and the 3rd monostable flipflop (F 3) output link to each other the 12nd (G 12) b input and the 2nd monostable flipflop (F 2) output link to each other the 2nd monostable flipflop (F 2) input and the 1st double-point double-throw switch (K 1-2) a fixed contact link to each other and with the 15th (G 15) a input connect the 15th (G 15) b input and the 5th monostable flipflop (F 5) input link to each other and with under-voltage and just power up the 100th resistance (R in the signal generating circuit (4) 100) an end connect the 15th (G 15) the c input and the 21st (G in the contactor control circuit (11) 21) output link to each other the 15th (G 15) output link to each other the 3rd bridge in the other end of buzzer (DY) and the temperature sensitive stabilized voltage power supply (14) heap (DL with an end of buzzer (DY) 3) the output connection, the 1st double-point double-throw switch (K 1-2) moving contact and the 5th monostable flipflop (F 5) output link to each other.
In circuit shown in Figure 3, F 2, F 3All the trailing edge at input pulse triggers, the output negative pulse; F 5Be the trailing edge triggering of input pulse, output positive pulse; G 15Be NAND gate, buzzer DY and bridge heap DL 3Positive output end connect.In circuit shown in Figure 4: F 2, F 3All the rising edge at input pulse triggers, the output positive pulse; F 5Be the rising edge triggering of input pulse, output negative pulse; G 15Be NOR gate, buzzer DY and bridge heap DL 3Negative output terminal connect.Among Fig. 3, G 12For with door, G 13Be NOR gate, among Fig. 4, G 12For or the door, G 13Be NAND gate.
Under-voltage and just power up signal generating circuit (15) mainly by monostable flipflop F 10, F 11, integrated operational amplifier A 14The voltage comparator and the inverter G that constitute 14Deng composition.
Described under-voltage and just power up on the signal generating circuit (15) the 10th monostable flipflop (F 10) and the 11st monostable flipflop (F 11) input link to each other and with temperature sensitive stabilized voltage power supply (14) in the 3rd bridge heap (DL 3) output connect the 10th monostable flipflop (F 10) the first broad pulse that powers up of output receives the 21st (G in the contactor control circuit (11) 21) c input and stopping signal produce the 19th (G in the circuit (9) 19) the c input on, the 11st monostable flipflop (F 11) output output first power up burst pulse and receive and start and reset pulse produces the 20th (G in the circuit (6) 20) the b input on, the 14th integrated operational amplifier (A 14) an input and the 5th potentiometer (W 5) swing arm connect the 5th potentiometer (W 5) certain arm through the 89th resistance (R 89) be connected to the 3rd bridge heap (DL in the temperature sensitive stabilized voltage power supply (14) 3) an output on, the 5th potentiometer (W 5) another decide arm through the 90th resistance (R 90) receive the 3rd bridge heap (DL in the temperature sensitive stabilized voltage power supply (14) 3) another output on, the 14th integrated operational amplifier (A 14) another input and the 12nd integrated operational amplifier (A 12) in-phase input end link to each other and with temperature sensitive stabilized voltage power supply (14) in the 2nd voltage stabilizing didoe (V Z2) an end connect the 14th integrated operational amplifier (A 14) output and the 100th resistance (R 100) an end link to each other the 14th (G 14) input respectively with the 100th resistance (R 100) the other end, the 77th diode (V 77) an end, time-delay control logic circuit (8) in the 4th (G 4) b input, stopping signal produce the 22nd (G in the circuit (9) 22) a input, model selection and warning circuit (10) in the 5th monostable flipflop (F 5) input and the 15th (G 15) the b input connect the 14th (G 14) output and time-delay control logic circuit (8) in the 2nd (G 2) the b input link to each other and produce the 13rd (G in the circuit (6) with startup and reset pulse 13) a input connect the 77th diode (V 77) other end ground connection.
In circuit shown in Figure 3, A 14The effective under-voltage signal of output low level, G 14The under-voltage signal of output high level, F 10Rising edge at input pulse triggers, the negative pulse of output wider width, F 11Rising edge at input pulse triggers, the narrower positive pulse of output width, R 89With DL 3Positive output end link to each other R 90With DL 3Negative output terminal link to each other.In circuit shown in Figure 4, A 14The effective under-voltage signal of output high level, G 14The under-voltage signal of output high level, F 10Trailing edge at input pulse triggers, the positive pulse of output wider width, F 11Trailing edge at input pulse triggers, the narrower negative pulse of output width, R 89With DL 3Negative output terminal link to each other R 90With DL 3Positive output end link to each other.
Temperature sensitive stabilized voltage power supply (14) is mainly by A 12With V 73The main stabilized voltage power supply and the A that form 13With V 74The secondary stabilized voltage power supply of forming is formed.
On described temperature sensitive stabilized voltage power supply (14), the 74th triode (V 74) base stage and the 93rd resistance (R 93) an end link to each other and with the 76th diode (V 76) an end connect the 93rd resistance (R 93) the other end and the 13rd integrated operational amplifier (A 13) output link to each other the 76th diode (V 76) the other end and the 73rd triode (V 73) base stage link to each other and with the 12nd integrated operational amplifier (A 12) output connect the 74th triode (V 74) the emitter output voltage V OTReceive the 2nd (G in the time-delay control logic circuit (8) 2), the 3rd (G 3), the 4th (G 4) the power supply pin on, the 13rd integrated operational amplifier (A 13) in-phase input end and the 94th resistance (R 94) and the 92nd resistance (R 92) an end connect the 92nd resistance (R 92) the other end and the 72nd diode (V 72) end link to each other and with the 88th resistance (R 88) an end connect the 94th resistance (R 94) the other end and the 12nd integrated operational amplifier (A 12) in-phase input end and the 2nd voltage stabilizing didoe (V Z2) an end link to each other and with the 70th diode (V 70) an end connect the 88th resistance (R 88) other end ground connection, the 72nd diode (V 72) the other end and the 71st diode (V 71) an end link to each other, the 71st diode (V 71) the other end and the 70th diode (V 70) the other end link to each other the 13rd integrated operational amplifier (A 13) inverting input and the 98th resistance (R 98) and the 99th resistance (R 99) an end connect the 99th resistance (R 99) the other end and the 74th triode (V 74) emitter link to each other the 12nd integrated operational amplifier (A 12) inverting input and the 6th potentiometer (W 6) two ends link to each other and with the 97th resistance (R 97) an end connect the 97th resistance (R 97) the other end and the 73rd triode (V 73) emitter link to each other and ground connection the 6th potentiometer (W 6) the other end and the 96th resistance (R 96) an end connect the 2nd voltage stabilizing didoe (V Z2) the other end and the 96th resistance (R 96), the 98th resistance (R 98) the other end link to each other and with the 3rd bridge heap (DL 3) output connect the 73rd triode (V 73) collector electrode and the 74th triode (V 74) collector electrode link to each other and with the 3rd bridge heap (DL 3) another output be connected.
In circuit shown in Figure 3, V 73And V 74Be the positive-negative-positive triode, the positive output end of major and minor two-way stabilized voltage power supply is received DL 3Positive output end on, V 70Positive pole and V Z2Positive pole connect V 76Negative pole and V 74Base stage connect V 76Positive pole and V 73Base stage connect.In circuit shown in Figure 4, V 73And V 74Adopt NPN type triode, V 76Positive pole and V 74Base stage connect V 76Negative pole and V 73Base stage connect, two-way stabilized voltage power supply negative pole meets DL 3Negative output terminal, V 70Negative pole V Z2Negative pole connect.
Stopping signal produces circuit (9) mainly by door G 19And door G 22Deng composition.
Produce on the circuit (9) door G in described stopping signal 19A input and time-delay control logic circuit (8) in door G 4Output link to each other G 19D input and stop button SB 1One end link to each other and with external control port CN 1The stopping signal input 3. connect G 19C input and under-voltage and just power up monostable flipflop F in the signal generating circuit (15) 10Output connects, G 19The b input with the door G 22Output link to each other and with contactor control circuit (11) in door G 21The b input connect G 22A input and under-voltage and just power up resistance R in the signal generating circuit (15) 100An end link to each other G 19The e input and the light-emitting diode V in the LED display matrix door (13) 55An end link to each other and with normally closed button SB 3An end connect G 19Output and question-and-answer game apparatus formula memory circuit (12) in the door G 18The b input link to each other.
In the circuit that Fig. 3 shows, G 19Be and door G 22Be or door F 6, F 7, F 8, F 9Be and non-type rest-set flip-flop.G in the circuit shown in Figure 4 19Be or door G 22Be and door F 6, F 7, F 8, F 9Be the or/no type rest-set flip-flop.
Question-and-answer game apparatus formula memory circuit (12) is mainly by rest-set flip-flop F 6, F 7, F 8, F 9, thyristor V 45, the door G 17, G 18Deng composition.
On described question-and-answer game apparatus formula memory circuit (12), the F in the integrated rest-set flip-flop 6Input and time-delay control logic circuit (8) in door G 16Output link to each other F 6Output and the light-emitting diode V in the LED display matrix door (13) 51An end link to each other the F in the integrated rest-set flip-flop 7Input and time-delay control logic circuit (8) in door G 3Output link to each other F 7Output and the light-emitting diode V in the LED display matrix door (13) 52An end link to each other the F in the integrated rest-set flip-flop 8Input with the door G 17Output connect G 17The b input receive triode V in the contactor control circuit (11) 59Collector electrode on, F 7Output and the light-emitting diode V in the LED display matrix door (13) 53An end link to each other the door G in the phase failure and the three-phase imbalance failure detector circuit (5) 11The phase failure signal of output output receive G 17The a input on, the F in the integrated rest-set flip-flop 9Input with the door G 18Output link to each other G 18A input and startup and reset pulse produce door G in the circuit (6) 13Output link to each other F 9Output and the light-emitting diode V in the LED display matrix door (13) 54An end link to each other G 18B input and stopping signal produce door G in the circuit (9) 19Output link to each other.
This circuit is compared with general question-and-answer game apparatus circuit and is not sufficiently complete, and mainly is that interlock circuit is simplified, and only is provided with G 17G in the circuit shown in Figure 3 17The right and wrong door, G in the circuit shown in Figure 4 17Be NOR gate, this is by the decision of the work characteristics of the present invention's control protector.G among Fig. 3 18For or the door, the G among Fig. 4 18For with door.This circuit can also select for use various forms of triggers to form, and as various triggers such as RS, D, T, JK or latch and read-write memory RAM immediately, perhaps uses the circuit realization of being made of the question-and-answer game apparatus formula thyristor, transistor.
LED display matrix door (13) is mainly by light-emitting diode V 51, V 52, V 53, V 54, V 55And resistance R 74Form.
On described LED display matrix door (13), light-emitting diode V 51, V 52, V 53, V 54An end respectively with question-and-answer game apparatus formula memory circuit (12) in integrated rest-set flip-flop in F 6, F 7, F 8, F 9Output connects, V 55An end and button SB 3An end link to each other V 51, V 52, V 53, V 54, V 55The other end connect together the back and resistance R 74And capacitor C 13Link to each other and with contactor control circuit (11) in door G 21A input and stopping signal produce door G in the circuit (9) 22The b input connect.
In circuit shown in Figure 3, light-emitting diode V 51, V 52, V 53, V 54Negative pole respectively and F 6, F 7, F 8, F 9Output connect V 55Negative pole and SB 3An end connect V 51, V 52, V 53, V 54, V 55Positive pole connect together and R 74Form the LED AND circuit.In the circuit shown in Figure 4, light-emitting diode V 51, V 52, V 53, V 54Positive pole respectively with F 6, F 7, F 8, F 9Output link to each other V 55Positive pole and SB 3An end connect V 51, V 52, V 53, V 54, V 55Negative pole connect together the back and R 74Form the LED OR circuit.
Be the operation principle of example explanation the present invention's motor controlling protector below with circuit shown in Figure 3.
Two kinds of mode of operations of the present invention's motor controlling protector are by functional switch K 2Control.As functional switch K 2When placing button control pattern (moving contact and fixed contact 1 are connected), use button to control, have the o-volt protection function.As functional switch K 2(moving contact and fixed contact 2 are connected) uses toggle switch K when placing the toggle switch control model 1Control, do not have the o-volt protection effect.Work as K 2When placing position as shown in the figure, the present invention's motor controlling protector is in the button control pattern.
At first introduce the working condition under the button control pattern below.
Under normal stopped status, integrated rest-set flip-flop F 9The output output low level, make light-emitting diode V in the LED display matrix gate circuit (12) 54Conducting is luminous, indicates normal stopped status.LED display matrix gate circuit output low level, door G 21The output high level forces positive-negative-positive triode V 59End, keep relay J 1Be in release condition.
Start: under stopped status, the basic normal situation of line voltage, door G 13The a input be low level.As press start button SB 2, G 13The b input be low level, so G 13The output high level is added to monostable flipflop F 4Input on, F 4Be subjected to trigger a narrow positive pulse of output (reset pulse) and be added to a G 20The a input on, G 20What the output negative pulse was added to integrated rest-set flip-flop respectively puts 1 end, makes that each trigger in the integrated rest-set flip-flop all puts 1, the light-emitting diode V in the LED display matrix gate circuit 51~V 54Extinguish.LED display matrix gate circuit output high level, a feasible door G 21Output low level, V 59Full closing drives and keeps relay J 1Adhesive, and put V 69Emission high level very.Monostable flipflop F 1Be subjected to G 13The triggering of the high level (enabling signal) of output, the negative starting impulse about output output width 100mS is through R 80Be added to V 69Base stage on.V 69To be added to starting relay J after the starting impulse amplification 2On, starting relay J 2Adhesive makes decompression capacitor C 28By resistance R 91Short circuit.Keep relay J 1After the adhesive, A.C. contactor adhesive, motor start-up.After this, current transformer TA 1, TA 2, TA 3Secondary output AC voltage, through triode V 15, V 18, V 21Three phase half wave rectification, and through C 8After the filtering, again through R 27, R 28Give light-emitting diode V 26Forward current is provided.V 26Conducting is luminous, is used as the usefulness of the operation indication of motor on the one hand, also can indicate the size of motor operating current on the other hand by the variation of brightness.If do not insert motor, V 26To be not luminous, with call user's attention.During two relay adhesives simultaneously, the higher direct voltage of civil power through producing behind the over commutation is added on the sucking coil of A.C. contactor, makes its rapid adhesive.After the starting impulse, starting relay J 2Discharge decompression capacitor C 28Insert, only provide the direct current about 10V to keep voltage, limit and reduced the electric current of keeping of A.C. contactor, realized the energy-saving, noiseless operation of A.C. contactor to A.C. contactor.R in the circuit 91Effect mainly be to prevent J 2When closed, C 28Through J 2Contact discharge and cause J 2The ablation of contact, and have protective effect to sucking coil.
Press start button SB 2The time, G 13The high level of output also is added to or door G 18The a input, the one, G in the time of can preventing to start 11Export default phase signal and cause F 9Put 0; The 2nd, prevent the adhesive simultaneously of two relays, cause temperature sensitive stabilized voltage power supply output direct voltage landing and cause the malfunction of under-voltage protection; The 3rd, be used to realize crawl control.If press stop button earlier, pin start button, G then 13The high level of output can stop stopping signal to be added to F 9Put 0 end, therefore can start.When pinning that stop botton is not put and after unclamping start button, stopping signal is added to F immediately 9Put 0 end, A.C. contactor discharges, thereby has realized crawl control.
O-volt protection: when just powering up, monostable flipflop F 10The negative pulse of output width about 2 seconds is added to a G 19The c input produce the autostop signal, and be added to a G 21The c input to prevent the A.C. contactor malfunction.G 19The autostop signal of output is through door G 18Be added to rest-set flip-flop F 9Put 0 end; While monostable flipflop F 11Produce positive pulse (reset pulse) and be added to G 20The b input, G 20The negative pulse that the output width is counted mS is added to F 6, F 7, F 8, F 9Put 1 end; Make F like this 9Put 0, F 6, F 7, F 8Put 1, G 21Output low level makes J 1Be in release condition, V 54The conducting indication is in normal holding state, thereby has realized o-volt protection.
Under-voltage protection: line voltage just often, integrated operational amplifier A 14The inverting input current potential be lower than its in-phase input end, so A 14The output high level, door G 22The output high level has been opened door G 19, and force G 14Output low level has been opened G 2Door.When line voltage descends, A 14The current potential of inverting input rise thereupon, when rising to above its in-phase input end current potential, A 14Output low level makes G 14The output high level, driven for emitting lights diode V 60The luminous indication of conducting occurs under-voltage.Be in running status as motor, G 22B input input high level, thereby G 22The output high level has been opened door G 19With door G 21If under-voltage overcurrent, the G of not causing 2, G 3, G 4The a input keep high level output, motor remains in operation.If overcurrent has appearred in motor, P point current potential descends, and power supply is through R nGive capacitor C 11Charging, row's resistance R nIn the resistance number that seals in can adjust automatically according to P point current potential, along with C 11Charging, Q point current potential drops to low level by high level gradually.The current potential of ordering as Q drops to the half near the supply voltage of CMOS integrated gate circuit, and the CMOS integrated gate circuit enters magnifying state, and LED display matrix door output potential descends, and passes through R 56With C 13The RC circuit that series connection forms has been introduced an amount of positive feedback, feeds back to the Q point, makes it to reduce to rapidly low level, resistance R 55Play buffer action.Because under-voltage signal is through G 14Paraphase makes or door G 2The b input keep high level, therefore blocked a door G 2, but low level under-voltage signal also is added to a G 4The b input on.As door G 4A input current potential drop to its threshold level when following, G 4Output low level is added to a G 19The a input, G 19Output low level is added to a G 18The b input, G 18The a input be low level under running status, thereby G 18Output low level is added to F 9On, make it put 0.So LED display matrix door output low level makes and keeps relay J 1Discharge, thereby realized under-voltage protection.V 59The low level of collector electrode output be added to a G 17The b input, blocked G 17, can prevent to shut down back G 11The output high level causes F 8Put 0, and wrong phase failure indication occurs.Regulate W 5, can realize that the voltage of under-voltage protection is adjusted.
In halted state, LED display matrix door output low level.Occur under-voltage, under-voltage and just power up voltage comparator A in the signal generating circuit as power supply 14The inverting input current potential be higher than its in-phase input end, thereby the effective under-voltage signal of output low level passes through G 14Paraphase rear drive light-emitting diode V 60Conducting, indication occurs under-voltage.Because G 14The output high level, thereby blocked door G 13, and two low level signals are added to a G 22A, b input on, G 22Output low level has been blocked door G 19, G 21Therefore, even press start button, there is not reset pulse to produce, door G yet 21Still export high level, V 59End, make keep relay can not adhesive, the A.C. contactor sucking coil can not get power supply, motor can not start.
Overcurrent protection: by V 5, V 8, V 11, C 7The output voltage V of forming the three phase half wave rectification filter circuit of negative polarity output N(because R is directly proportional with the operating current of motor 10With W 3, W 4Series connection, resistance is less).Adjust finish after, V NBasically be directly proportional with the ratio of setting current, thereby guarantee that this circuit under the different situation of setting current, has identical time-delay characteristics with motor real work electric current.When motor full-load run, the current potential that P is ordered equals the current potential that Q is ordered.If in the running of motor, overcurrent occurred, capacitor C 7The voltage at two ends increases, and bigger landing appears in N point current potential, and the current potential that causes P to be ordered is lower than Q point current potential, capacitor C 11Through R nCharging, the current potential that makes Q order descends, when dropping to a G 2Threshold level (0.5V DD) time, there is not under the under-voltage situation door G in basic symmetry of three-phase current and power supply 2A, b, c end be low level, G 2So output low level is G 16Output low level, F 6Put 0.G 3, G 4B end be high level, F 7, F 8, F 9All export the high level that remains unchanged.Light-emitting diode V in the LED display matrix gate circuit 51Conducting is luminous, and overcurrent appears in indication, keeps relay J 1Discharge, realized that overcurrent protects automatically.G 21The high level of output has blocked G 17, prevent wrong phase failure indication.
Short-circuit protection: if short trouble occurred in the process that starts or move, P point current potential is lower than the current potential of 8 times of setting current correspondences, by reasonably selecting resistance R 31And R 49Resistance, the current potential that makes M order also is lower than a G 16Threshold level, so thereby output low level is F 6Put 0.Light-emitting diode V in the LED display matrix gate circuit 51Conducting is kept relay and is discharged, and has realized that short circuit protects automatically.V 59The low level of collector electrode output has been blocked G 17, prevent wrong phase failure indication.
Open phase protection: at the running status of motor, G 17The b input be high level.When open phase fault occurring (as the phase failure of U phase), door G then 11The a input low level appears, G 11The output high level is added to a G 17The a input, make G 17Output low level is with F 8Put 0, with F 8The light-emitting diode V that connects of output 53Conducting is luminous, and the phase failure appears in indication.G 21The output high level, V 59End, keep relay J 1Discharge, realized that the memory of open phase fault shows and protection automatically.
The three-phase imbalance protection: when three-phase current unbalance occurring in the running of motor, such as the U phase current is less than normal, will cause triode V 16Base potential be lower than its emitter current potential, V 16Conducting makes triode V 27Full closing.So V 27The three-phase imbalance signal of collector electrode output low level, light-emitting diode V 28Three-phase imbalance appears in the conducting indication.Change divider resistance R 27, R 28Voltage ratio, just can change the set point of three-phase imbalance protection.V 27The effective three-phase imbalance signal of low level of collector electrode output be added to a door G 3The b input, opened the door G 3, through G 1Be added to G after the paraphase 2The c input, blocked the door G 2If overcurrent does not appear in motor, then the Q point is kept high level all the time, and motor can continue operation.If under the situation of three-phase imbalance, overcurrent has appearred in motor, R nResistance changes according to the overcurrent degree, selects suitable delay time constant, and after after a while, the Q point becomes low level, G 3The three-phase imbalance signal of door output low level is added to F 70 end of putting make it put 0, light-emitting diode V 52Conducting, V 59End J 1Discharge, realize that the three-phase imbalance memory shows and stoppage protection.
Earth leakage protective: at external control port CN 15. pin and thyristor V 45Insert electric-leakage detection circuit between the gate pole, thyristor V 45Gate pole be connected with the output of electric-leakage detection circuit, detection of electrical leakage can adopt the residual current detection method, also can adopt the zero sequence voltage detection method.If electric leakage, V 45Triggered and conducting thyristor V 45The high level of anode output be added to G after becoming low level 18The e input, produce stopping signal automatically, light-emitting diode V 54, V 55All conducting is luminous, the indication electric leakage.In case after the leakage protection circuit action, press start button SB 2Then can not start.As restarting, need click normally closed button SB 3, make V 45Recover to close and have no progeny, can start.
Instruction stop: in the running of motor, press stop button SB 1, G 19D input input low level, G 19Output low level makes G 18Output low level is added to F 9Put 0 end, F 9The output output low level, driven for emitting lights diode V 54Luminous, V 59By making J 1Discharge, thereby realized shutdown.
Setting value is adjusted automatically: during 35 ℃ of ambient temperatures, by regulating W 6Make the output voltage of two-way stabilized voltage power supply equate G 2, G 3, G 4Threshold level equal the current potential that S is ordered.If ambient temperature is lower than 35 ℃, diode V 72, V 71, V 70The numerical value of forward voltage drop during greater than 35 ℃, triode V 74The emitter current potential be lower than V 73The emitter current potential, G 2, G 3, G 4The numerical value of supply power voltage during also greater than 35 ℃, its threshold level is low to be reduced, the charging interval during overcurrent has reached the purpose of increment use than 35 ℃ of durations.When temperature dropped to a certain extent, diode V 76Conducting has limited V 74The continuation of emitter current potential descend, make the increment amplitude be not more than 20%.When ambient temperature is higher than 35 ℃, diode V 70, V 71, V 72Forward voltage drop reduce V 74The emitter current potential be higher than V 73The emitter current potential, G 2, G 3, G 4Supply power voltage reduce, its threshold level raises, and has reached the purpose that derate is used.R tWhat select for use is critical type thermistor, and when ambient temperature was higher than 45 ℃, resistance sharply reduced, and had accelerated V 74The rate of climb of emitter current potential, make the derate amplitude increase.When ambient temperature is higher than 45 ℃, the derate amplitude is more than 1%.
Load condition shows: choose resistance R in generation of load condition signal and indicating circuit (4) 25With R 1Resistance, make P point current potential V P=V S=0.525V C(DL 3Anodal voltage to earth).When P point current potential equals S point current potential, A 2With A 1Output potential equates, DL 1In two all conductings of light-emitting diode, send sodium yellow, indication is fully loaded.When overcurrent occurring, P point current potential is lower than S point, A 2Output potential be higher than A 1Output potential, DL 1Middle red light-emitting diode conducting, overcurrent appears in indication.During underloading, P point current potential is higher than S point, A 2Output potential be lower than A 1Output potential, DL 1Middle green light-emitting diode conducting, underloading appears in indication.
Introduce the working condition under the toggle switch control model below.
If with K 2The position that places its moving contact and fixed contact 2 to connect, the present invention's motor controlling protector is in the toggle switch control model, and this pattern is mainly used in wishes the automatically actuated occasion of incoming call.
As control switch K 1Dial when putting running status (moving contact becomes and fixed contact 2 is connected by connecting with fixed contact 1), monostable flipflop F by halted state 3The input current potential from high to low variation, F take place 3The output negative pulse is through G 12, K 2-2Be added to G 13Input.Under the basic normal situation of supply voltage, by G 13The positive pulse one tunnel of output is added to G 18The a input, F is triggered on another road 4Produce reset pulse, F 4The reset pulse of output is through door G 20Be added to F 6, F 7, F 8, F 9Put 1 end, it is put 1, make G like this 21Output low level, triode V 59Saturated, keep relay J 1Adhesive; F 1Also be subjected to G 13Triggering, the starting impulse of output is through V 69Amplify back control J 2Of short duration adhesive has realized high pressure adhesive, the low voltage sustain of A.C. contactor.If it is under-voltage that power supply occurs, G 13A input input high level, circuit can not start immediately, waits for that supply voltage recovers can report to the police immediately after normal, time-delay starts automatically then.
If in running status generation power down, behind service restoration, circuit enters holding state (operation principle is identical with button mode), A at first automatically 14Variation from low to high takes place in the output current potential, triggers monostable flipflop F 5, F 5Positive pulse about output width 100S.Work as F 5During the output high level, because K 1-2Connect, give G 15The a input apply high level.At holding state, door G 21The high level of output is added to G 15The c input.When generation is under-voltage, G 15The b input be low level, only in 1~2 minute the time that voltage has just recovered, F 5The output positive pulse, door G 15Four inputs be high level, so G 15Output low level control alarm DY warnings of sounding, indication is sent a telegram here.F 5After the output pulse, G 15Output high level, alarm DY stop to report to the police.F 5K is passed through on the back edge of output positive pulse 1-2Trigger F 2The negative pulse that produces is through G 12, K 2-2Be added to G 13Input and F 1, F 4Input, trigger F 1And F 4Produce delayed startup pulse and reset pulse, realized that the automatic time delay of circuit starts.
Under the running status of motor, if with K 1Pull to stop position K 1-2Disconnect G 15The a input be changed to low level, warning circuit can not be worked; K 1-1With door G 19The d input put low level, make a door G 18Output low level, F 9Put 0, light-emitting diode V 54Conducting is luminous, and indication is shut down.Keep relay J 1Discharge the sucking coil dead electricity of A.C. contactor.
Under the toggle switch control model, its overload, short circuit, under-voltage, the phase failure, three-phase imbalance, earth leakage protective are identical with the button control pattern.But under the button control pattern, K switch 2-1Moving contact and its fixed contact 2 connect, with G 15The d input end grounding, G 15All the time export high level, therefore come electric alarm and delayed startup circuit not to work, have the o-volt protection effect.
Resistance R 95And capacitor C 30The RC circuit of forming is in parallel with the sucking coil of A.C. contactor.Like this, when the sucking coil power down, the self induction electromotive force that it produces is given capacitor C 30Charging, thus the damping vibration attenuation vibration formed, eliminate remanent magnetism, make A.C. contactor discharge rapidly, overcome A.C. contactor and occurred pressing the shortcoming that stop button does not discharge immediately sometimes.Break down in the present invention's control protector inside if be in operation, and causes stop button inoperative, can disconnect toggle switch K 3Implement to stop by force.
Use external control port CN 1When controlling, should be with K 2Place the button control pattern.CN 11. pin be the output of external control positive source, resistance R 59Be used to prevent output short-circuit.4. pin is an earth terminal.2. and insert start button 1. 3. and insert stop button 1.,, can realize two places control.External extended function box is connected on CN 1On the port.
The operation principle of circuit shown in Figure 4 is similar to Fig. 3.
The following describes the operation principle of circuit shown in Figure 5.
Circuit shown in Figure 5 and circuit shown in Figure 3 have corresponding relation.F in Fig. 3 circuit 1By the capacitor C in Fig. 5 circuit 20, resistance R 79With schmitt inverter G 8Constitute.F in Fig. 3 circuit 2By the resistance R in Fig. 5 circuit 83, capacitor C 23Deng composition.F in Fig. 3 circuit 3By the resistance R in Fig. 5 circuit 70, R 71, capacitor C 16Deng composition.F in Fig. 3 circuit 11By the capacitor C in Fig. 5 circuit 14, resistance R 61Constitute.C 14, R 61Cooperate G 6Produce and just power up narrow negative pulse.F in Fig. 3 circuit 10By the capacitor C in Fig. 5 circuit 15, resistance R 62With schmitt inverter G 5Constitute.Door G in Fig. 3 circuit 12By the diode V in Fig. 5 circuit 62, V 49Deng composition.Door G in Fig. 3 circuit 13By the diode V in Fig. 5 circuit 65, resistance R 72, R 78With schmitt inverter G 7Form.Inverter G in Fig. 3 circuit 14By the triode V in Fig. 5 circuit 66, resistance R 82, R 76, R 57With light-emitting diode V 60Deng composition.Door G in Fig. 3 circuit 20By the diode V in Fig. 5 circuit 39, V 47Resistance R 68And schmitt inverter G 6Form.Door G in Fig. 3 circuit 15By the resistance R in Fig. 5 circuit 81, diode V 50, V 58, V 75And triode V 64Deng composition.Door G in Fig. 3 circuit 16By the resistance R in Fig. 5 circuit 63And diode V 37Form.Door G in Fig. 3 circuit 18By the diode V in Fig. 5 circuit 48And resistance R 64Form.Door G in Fig. 3 circuit 19By the diode V in Fig. 5 circuit 38, V 40, V 44, V 56And resistance R 65Form.Door G in Fig. 3 circuit 22By the diode V in Fig. 5 circuit 43, V 46Resistance R 69And integrated operational amplifier A 10Deng composition.Door G in Fig. 3 circuit 21By the resistance R in Fig. 5 circuit 74, diode V 41, V 57And inverter G 9Deng composition.In Fig. 5 circuit, triode V 12With resistance R 7, R 19Form an inverter, triode V 13With resistance R 8, R 21Form an inverter, triode V 14With resistance R 9, R 23Form an inverter, diode V 17, V 20, V 23With resistance R 29, R 41Deng the composition OR circuit, the suitable NAND gate that combines (the root law gets Y=A+B+C=ABC by rubbing) is with the door G in Fig. 3 circuit 11Effect, function identical.Triode V in Fig. 5 circuit 29, V 30And resistance R 50, R 58Deng constituting NAND gate circuit, with the door G in Fig. 3 circuit 17Effect, function identical.Half DAC circuit in Fig. 3 circuit is by the integrated operational amplifier A in Fig. 5 circuit 4~A 9The voltage comparator that constitutes and by R 33, R 34, R 35, R 36, R 37, R 38, R 45The reference voltage generating circuit of forming is formed.In Fig. 5 circuit, A 4~A 9Output to the S in the multiway analog switch 1~S 4Control end and triode V 31, V 32Base stage control V 31, V 32Play the simulation switch; Row's resistance R nBy resistance R 32, R 42, R 44, R 51, R 52, R 53, R 54Series connection constitutes, R 32, R 42, R 44, R 51Respectively with analog switch S 1, S 2, S 3, S 4Parallel connection, R 52, R 53Be connected on V respectively 31, V 32Collector electrode and emitter between.In circuit shown in Figure 5, integrated operational amplifier A 3Be connected into follower, purpose is to improve the input impedance of half DAC circuit.When being short-circuited, the current potential that P is ordered may be lower than earth potential, inserts diode V for this reason 25And resistance R 26, be used for A 3Input protection.Voltage stabilizing didoe V Z1The burning voltage selection of parameter get more greatly, to guarantee at A 11During output low level, V Z1Can not puncture, at A 11During the output high level, V Z1Can reverse breakdown and make V 64Saturated.In order to alleviate G 9Load current, R 81, R 51Resistance bigger, V 59, V 64Select high-amplification-factor triode or Darlington transistor for use.The output voltage of major-minor stabilized voltage power supply is chosen about 8V, DL 3Output voltage normally about 14V.Half DAC circuit produces circuit by multistage dividing potential drop reference circuit and a plurality of voltage comparator is formed, the expression-form of its dateout is: 000000,000001,000011,000111,001111,011111,111111, and also the voltage ratio of multistage dividing potential drop reference circuit generation circuit is determined according to the requirement of the time-delay characteristics of motor.
In circuit shown in Figure 5, integrated operational amplifier A 1, A 2Its power end V is provided by a slice LM358 integrated package CCReceive triode V 59Collector electrode on.Door G 2, G 3, G 4Its V is provided by a slice CC4075 integrated package SSPower end is received triode V 74Emitter on.Integrated operational amplifier A 3, A 4, A 5, A 6Integrated operational amplifier A is provided by a slice LM324 integrated package 7, A 8, A 9, A 10Provide by a slice LM324 integrated package.Integrated operational amplifier A 11, A 12, A 13, A 14Provide by a slice LM324 integrated package.Schmitt inverter G 1, G 5, G 6, G 7, G 8, G 9Provide by a slice CC40106 integrated package.Select the CC4044 integrated package for use with non-type rest-set flip-flop, the integrated multipath analog switch is selected the CC4066 integrated package for use.
In circuit shown in Figure 5, W 3Be current calibration coarse adjustment knob, W 4Current calibration fine tuning knob (W 4Resistance get W 31/10), W 3Draw the electric current scale on the knob.When adjusting, under the situation of motor full-load run, regulate W 3Catch the Yellow luminous critical point of load indication, then by regulating W 4It is yellow to make that the load indication accurately shows.Can realize so accurately adjusting.
In circuit shown in Figure 5, on described time constant is adjusted half adc circuit in the integrating circuit (7) automatically, the 26th resistance (R 26) one terminate at that the load condition signal produces and indicating circuit (4) in the 11st resistance (R 11) and the 24th resistance (R 24) between, the 26th resistance (R 26) the other end and the 3rd integrated operational amplifier (A 3) in-phase input end and the 25th diode (V 25) negative pole connect the 25th diode (V 25) plus earth, the 3rd integrated computing side amplifier (A 3) inverting input link to each other with its output and with the 4th integrated operational amplifier (A 4), the 5th integrated operational amplifier (A 5), the 6th integrated operational amplifier (A 6), the 7th integrated operational amplifier (A 7) inverting input and the 8th integrated operational amplifier (A 8), the 9th integrated operational amplifier (A 9) in-phase input end connect the 9th integrated operational amplifier (A 9) inverting input and the 38th resistance (R 38) an end link to each other and with the 37th resistance (R 37) an end connect the 9th integrated operational amplifier (A 9) output through the 47th resistance (R 47) with analog switching circuit in triode (V 32) base stage connect the 38th resistance (R 38) other end ground connection, the 8th integrated operational amplifier (A 8) inverting input and the 37th resistance (R 37) the other end link to each other and with the 36th resistance (R 36) an end connect the 8th integrated operational amplifier (A 8) output through the 46th resistance (R 46) with analog switching circuit in the 31st triode (V 31) base stage connect the 7th integrated operational amplifier (A 7) in-phase input end and the 36th resistance (R 36) the other end link to each other and with the 35th resistance (R 35) an end connect the 7th integrated operational amplifier (A 7) output and the 4th analog switch (S in the analog switching circuit 4) control end connect the 6th integrated operational amplifier (A 6) in-phase input end and the 35th resistance (R 35) the other end link to each other and with the 34th resistance (R 34) an end connect the 6th integrated operational amplifier (A 6) output and the 3rd analog switch (S in the analog switching circuit 3) control end connect the 5th integrated operational amplifier (A 5) in-phase input end and the 34th resistance (R 34) the other end link to each other and with the 33rd resistance (R 33) an end connect the 5th integrated operational amplifier (A 5) output and the 2nd analog switch (S in the analog switching circuit 2) control end connect the 4th integrated operational amplifier (A 4) in-phase input end and the 33rd resistance (R 33) the other end link to each other and with the 45th resistance (R 45) an end connect the 4th integrated operational amplifier (A 4) output and the 1st analog switch (S in the analog switching circuit 1) control end connect the 45th resistance (R 45) the other end receive the 3rd bridge heap (DL in the temperature sensitive stabilized voltage power supply (14) 3) output on.
In circuit shown in Figure 5, the analog switch S in the multiway analog switch in the described variable time constant integrating circuit (7) 1With resistance R 32Parallel connection, analog switch S 2With resistance R 42Parallel connection, analog switch S 3With resistance R 44Parallel connection, analog switch S 4With resistance R 51Parallel connection, the triode V in the multiway analog switch 31Emitter and resistance R 52An end link to each other V 31Collector electrode and R 52The other end connect the triode V in the multiway analog switch 32Emitter and resistance R 53An end link to each other V 32Collector electrode and R 53The other end link to each other and and resistance R 54An end connect.
In stopped status, IC 2Output Q 4Output low level, light-emitting diode V 54Conducting, indication is in normal stopped status.Schmitt inverter G 9Input low level, the output high level makes triode V 59End.Keep relay J 1Be in release condition, so A.C. contactor is in release condition.
In running status, all outputs of integrated rest-set flip-flop are high level, schmitt inverter G 9Input high level makes triode V 59Saturated, V 30Also saturated thereupon.Keep relay J 1Be in attracting state.
Under the button control pattern, work as K switch 2When placing the button control pattern, K 2-1 Fixed contact 1 connect with moving contact, with fixed contact 1 ground connection, make button SB 1, SB 2Start to control making usefulness, toggle switch K 1Do not start to control to make and use; K 2-2Moving contact and fixed contact 2 disconnect.At A 11Between the output high period, diode V 50Conducting, voltage stabilizing didoe V Z1Can not reverse breakdown, triode V 64All the time be in cut-off state, come electric alarm circuit not work.
Press start button SB at holding state 2The time, schmitt inverter G 7Input become low level, thereby output high level.G 7The high level of output, the one tunnel through resistance R 77Give capacitor C 18Charging, consequent positive spike is through diode V 47Be added to schmitt inverter G 6Input on, through G 6After the shaping paraphase, the negative reset pulse of output is added to 1 end of putting of integrated rest-set flip-flop
Figure C200510042387D00371
On, make each trigger all put 1 (because at holding state IC 2
Figure C200510042387D00372
Be high level), IC 2Each output output high level be added to G 9Input (under the voltage normal condition, diode V 57, V 41All by), G 9Output low level makes triode V 59Saturated, keep relay J 1Closed.G 7Another road of the high level of output is through diode V 48Be added to IC 2
Figure C200510042387D00373
End, the one, the voltage that causes when being used to prevent to start lands and causes occurring shutting down action, and the 2nd, be used to realize crawl control.G 7The high level of output also passes through resistance R 79Give capacitor C 20Charging is at G 8Input form a positive pulse, make G 8The starting impulse that output is negative.This pulse is through resistance R 80Be added to triode V 69Base stage.Because V 69Emitter receive V 59Collector electrode on, therefore have only V 59After full the closing, V 69Can conducting, thus starting relay J made 2Closed.In the moment that starts, two relays are all closed, make the pulsating dc voltage of civil power through producing behind the over commutation be added in entirely on the sucking coil of A.C. contactor, realized high pressure adhesive (R 91Resistance less, its pressure drop is ignored).Along with C 20Charging, G 8The current potential of input reduce gradually, when being lower than its threshold level, its output becomes high level, makes V 69End starting relay J 2Discharge.At this moment pass through capacitor C 28Rectification only exports that the direct voltage about 10V is added on the sucking coil of KM after the step-down.Because the inductive energy storage effect of sucking coil makes its electric current smoother, thereby reduced noise, has reduced the holding power of A.C. contactor, realized the energy-saving, noiseless operation of A.C. contactor.As long as reasonably select C 20Charge constant, just can make J 2Pickup time suitably (irrelevant) with the time of pressing button.When just powering up, power supply is through C 17Give G 7Apply a positive pulse, guarantee G 8Can export high level reliably.So C 17And R 78Play anti-interference effect, prevent malfunction.This by G 7, G 8The reaction type derivative-type monostable flipflop that constitutes has elimination SB 2The effect of contact chatter.
As implementing crawl control, as long as pin stop button SB 1Do not put, press start button SB again 2, because V 48Conducting stoped stopping signal to be added to IC 2Put 0 end R 4On, A.C. contactor just can adhesive.And when pinning stop button SB 1, discharge start button SB 2After, IC 2R 4End is converted into low level stop signal by high level, and A.C. contactor discharges immediately, thereby has realized crawl control.
In the running of motor, if press stop button SB 1, IC 2R 4End becomes low level, its Q 4The output output low level, driven for emitting lights diode V 54Conducting is luminous, and indication is in holding state, G 9Output becomes high level by low level, triode V 59Become by conducting and to end, keep relay J 1Discharge, A.C. contactor discharges.
Under the toggle switch control model, work as K switch 2When placing the toggle switch control model, K 2-1 Fixed contact 2 connect and ground connection with moving contact, make button SB 1, SB 2Do not start to control making usefulness, diode V 50End toggle switch K 1Start to control to make and use; The moving contact of K2-2 and fixed contact 2 are connected, and between A11 output high period, under holding state, come electric alarm circuit to get final product work like this, and have the automatically actuated function of time-delay.Under above-mentioned control model, pass through K 1The control state of motor.K 1Place 2 position, motor starts immediately.K 1Place 1 position, motor can stop immediately.
Start: at holding state, with K 1When placing running status (position 2), power supply is through R 71Give capacitor C 16Charging, diode V 49Conducting, G 7Input obtains a negative pulse, circuit start.
When just powering up, G 6The reset pulse and the G that produce 5The first broad pulse that powers up that produces makes circuit be in stopped status at first automatically.Do not occurring under the under-voltage situation, power supply is through C 26Charging makes A 14Export high level immediately, capacitor C 21Through R 87Charging, A 11The current potential of inverting input rise gradually.At A 11The current potential of inverting input be lower than before the current potential of its in-phase input end A 11The output high level.Because diode V 50, V 58, V 75All be in cut-off state, so triode V 64Saturated, buzzer sends sound, the expression incoming call.Work as C 21The voltage that charges to its two ends is higher than A 11The in-phase input end current potential after, A 11Output low level, triode V 64End, the sound that buzzer sends stops.A 11Output low level makes capacitor C 23Be recharged diode V 62G is given in conducting 7Input apply a negative polarity starting impulse, realized that the automatic time delay of motor starts.
With K 1Place running status (when moving contact and fixed contact 2 are connected), after having implemented under-voltage protection, though C 21Make A after the discharge 11The reverse input end current potential be lower than its in-phase input end and export high level, but because A 14Output low level makes diode V 75Conducting, thereby V 64Still can not saturation conduction, so alarm can not send sound.Recover normal at voltage, A 14Behind the output high level, because C 21It is very slow to charge, before its both end voltage is lower than in-phase input end, and V 64Saturated, the alarm pronunciation.
In running status, G 9Even output low level is A 11The output high level is because diode V 58Conducting makes V Z1Can not puncture V 64Can not conducting, so warning circuit can not be worked.Only under holding state and the normal situation of supply voltage, because V 58, V 75End, at A 11Between the output high period, V 64Can saturation conduction.At A 14During the output low level, diode V 75Conducting makes V 64Can not conducting.Has only K 1-2Moving contact and fixed contact 2 situation about connecting under, voltage recovers to begin normally following period of time, A after power down 14Output is a high level by low transition, at this moment V 75, V 58, V 50All end, simultaneously A 14The high level of output is through resistance R 87And R 100Give capacitor C 21A is worked as in charging 11Reverse input end current potential when being lower than its in-phase input end, A 11The output high level, V Z1Puncture and to make V 64Saturated, buzzer DY sends sound.Delay time is by R 87, C 21The time constant decision of the RC circuit of forming.A in the circuit 11~A 14Take from 4 operational amplifiers in a slice LM324 integrated package, this chip adopts dual power supply, and its negative supply is taken from DL 3Negative output terminal.
Overload protection: the current potential that P is ordered during overload is lower than normal value, according to the height of P point current potential, integrated operational amplifier A 4~A 9Corresponding the changing of output potential, as the overcurrent coefficient less than 1.2 o'clock, A then 4~A 7All output low level has only A 8, A 9The output high level, C 11Through diode V 24And row's resistance R nIn R 32, R 42, R 44, R 51, R 52, R 53, R 54Charging, charge constant is bigger, and delay time is longer; Greater than 1.2 and less than 1.5 o'clock, has only A as the overcurrent coefficient 4, A 8, A 9The output high level, analog switch S 1Closure is with resistance R 32Short circuit, C 11Through diode V 24And row's resistance R nIn R 42, R 44, R 51, R 52, R 53, R 54Charging, delay time is shorter; Greater than 1.5 and less than 2.0 o'clock, has only A as the overcurrent coefficient 4, A 5, A 8, A 9The output high level, analog switch S 1Closed with resistance R 32Short circuit, analog switch S 2Closed with resistance R 42Short circuit, C 11Through diode V 24And row's resistance R nIn R 51, R 52, R 53, R 54Charging, delay time further shortens; Greater than 2.0 and less than 3.0 o'clock, has only A as the overcurrent coefficient 4, A 5, A 6, A 8, A 9The output high level, analog switch S 1Closed with resistance R 32Short circuit, analog switch S 2Closed with resistance R 42Short circuit, analog switch S 3Closed with resistance R 44Short circuit, C 11Through diode V 24And row's resistance R nIn R 51, R 52, R 53, R 54Charging, delay time further shortens; Greater than 3.0 and less than 4.0 o'clock, has only A as the overcurrent coefficient 4, A 5, A 6, A 7, A 8, A 9The output high level, analog switch S 1Closed with resistance R 32Short circuit, analog switch S 2Closed with resistance R 42Short circuit, analog switch S 3Closed with resistance R 44Short circuit, analog switch S 4Closed with resistance R 51Short circuit, C 11Through diode V 24And row's resistance R nIn R 52, R 53, R 54Charging, delay time further shortens; Greater than 4.0 and less than 5.0 o'clock, has only A as the overcurrent coefficient 4, A 5, A 6, A 7, A 9The output high level, analog switch S 1Closed with resistance R 32Short circuit, analog switch S 2Closed with resistance R 42Short circuit, analog switch S 3Closed with resistance R 44Short circuit, analog switch S 4Closed with resistance R 51Short circuit, triode V 31Saturated, resistance R 52By short circuit, C 11Through diode V 24And row's resistance R nIn R 53, R 54Charging, delay time further shortens; As the overcurrent coefficient greater than 5.0 and less than 6.0 o'clock, A 4, A 5, A 6, A 7, A 8, A 9All export high level, analog switch S 1Closed with resistance R 32Short circuit, analog switch S 2Closed with resistance R 42Short circuit, analog switch S 3Closed with resistance R 44Short circuit, analog switch S 4Closed with resistance R 51Short circuit, triode V 31Saturated, resistance R 52By short circuit, triode V 32Saturated, resistance R 53By short circuit, C 11Through diode V 24And row's resistance R nIn R 54Charging, delay time further shortens.In a word, insert of the height decision of the number of resistance, C by P point current potential 11Through V 24And row's resistance R nIn R 32, R 42, R 44, R 51, R 52, R 53, R 54In part resistance charging, diode V 24The direct current equivalent resistance also can be along with P point potential change, V under the situation of slight overcurrent especially 24Dynamic electric resistor can reach more than 5 megaohms, can satisfy at the overcurrent coefficient is 1.1 o'clock, delay time is more than 2 hours, thereby obtained good inverse time-lag protection.The current potential that Q is ordered descends gradually, when being reduced to a G 2Threshold level the time, G 2The low level of output is through R 58Be added to the R of integrated rest-set flip-flop 1End makes Q 1Be low level, light-emitting diode V 51Conducting is luminous, indication overcurrent, G 9Input low level, output high level, V 59End, keep relay J 1Discharge, realized the protection and the demonstration of overload.
If appearance is under-voltage under the button control pattern, A 14The current potential of inverting input be higher than in-phase input end, A 14Output low level makes triode V 66Full closing blocked door G 2, opened door G 4, light-emitting diode V 60The conducting indication occurs under-voltage.In halted state, IC 2It is low level that an output must be arranged, so diode V 46End.As under-voltage then A appears 14Output low level, diode V 43End integrated operational amplifier A 10The in-phase input end current potential be lower than its inverting input, thereby output low level.Diode V 56Conducting is with IC 2R 4End is put low level, diode V 57Conducting forces G 9The output high level, V 59Can not conducting, make and keep relay J 1Can not adhesive; V 66Saturated, V 65Conducting stops low level to be added to G 7Input.At this moment, even press start button SB 2, G 7Input also to keep high level constant, thereby be not activated and reset pulse produces, A.C. contactor KM can not adhesive.If in the running of motor, occur under-voltage: because all outputs of integrated rest-set flip-flop are high level, so diode V 46Conducting makes A 10The in-phase input end current potential be higher than its inverting input, thereby output high level, for G 9Not influence of incoming level, so motor can be not out of service immediately.But because A 14Output low level makes triode V 66Saturated, give G 4B input input low level, give a door G 2The b input apply high level.Blocked door G like this 2, opened door G 4As long as the current potential that Q is ordered is higher than a G 4Threshold level, G 4Just keep high level output, motor can remain in operation.If cause occurring overcurrent because of under-voltage, start the variable time constant integrating circuit, realize the inverse time-lag protection.The current potential of ordering as Q is lower than G 4The door threshold level the time, G 4Output low level is with IC 2Output Q 4Put 0, G 9Input low level and export high level, triode V 59End J 1Discharge, realized under-voltage automatic power-off protection, triode V 30End thereupon, make V 29Can not be saturated, can prevent wrong phase shortage indication.
If under the toggle switch control model, motor occurs under-voltage in running status, A 14Output low level, capacitor C 21Through resistance R 87, R 100Discharge makes A 14The current potential of inverting input descend gradually, when dropping to its in-phase input end current potential when following, A 14The output high level.V under running status 58Conducting, V 64Still end, buzzer DY does not work.A 11Output low level makes V 66Saturated, V 65G has been blocked in conducting 7If under-voltagely do not cause occurring overcurrent, motor remains in operation.If overcurrent, then according to the overcurrent degree, select suitable delay time stoppage protection automatically.After the under-voltage protection action, if supply voltage still is lower than set point, motor is in halted state always.After voltage recovered normally, circuit still can be reported to the police earlier, and automatic time delay starts then.
Earth leakage protective: the ground of circuit shown in Figure 5 is connected resistance R with ground wire or zero line 60Be connected with the shell of motor.Enhancement mode field effect transistor V when electric leakage occurring 42The part source current flow into thyristor V 45Gate pole, V 45Conducting driven for emitting lights diode V 55Electric leakage, G appear in the luminous indication of conducting 9Input low level, output high level, V 59End, keep relay J 1Discharge, realized electric leakage protection automatically.V 45Make diode V after the conducting 44Conducting forces IC 2R 4The input input low level, IC 2Q 4Output output low level driven for emitting lights diode V 54Conducting is luminous, the indication stopped status.In case V 45Conducting, when pressing start button, circuit can not start.As starting once more, must click rest button SB 3, make thyristor V 45Recover to close and have no progeny, circuit could start.Diode V in the circuit 35, V 36Fet gate is shielded.
The principle and the principle in the circuit shown in Figure 3 of o-volt protection, under-voltage protection, load condition demonstration, open phase protection, short-circuit protection are basic identical.
Said overcurrent comprises the overcurrent that overload, under-voltage, three-phase imbalance and short circuit cause.

Claims (10)

1, motor controlling protector; it has shell (1); the light-emitting diode (3) that button (2) and indication usefulness are arranged on the shell; it is characterized in that; on described control protector; the sucking coil of A.C. contactor KM is connected with first output of contactor control circuit (11), the 1st current transformer (TA 1), the 2nd current transformer (TA 2), the 3rd current transformer (TA 3) the tail end of the secondary coil ground connection that connects together, the 1st current transformer (TA 1) head end and the load condition signal of secondary coil produces and the first input end of indicating circuit (4) and the first input end of the phase failure and three-phase imbalance failure detector circuit (5) are connected the 2nd current transformer (TA 2) head end and the load condition signal of secondary coil produces and second input of indicating circuit (4) and second input of the phase failure and three-phase imbalance failure detector circuit (5) are connected the 3rd current transformer (TA 3) head end and the load condition signal of secondary coil produces and the 3rd input of indicating circuit (4) and the 3rd input of the phase failure and three-phase imbalance failure detector circuit (5) are connected; the load condition signal time of delivery (TOD) constant that the load condition signal produces and indicating circuit (4) is exported is adjusted the input of integrating circuit (7) automatically; the over-current signal that time constant is adjusted integrating circuit (7) output is automatically delivered to the first input end of time-delay control logic circuit (8); the three-phase imbalance signal that the phase failure and three-phase imbalance signal generating circuit (5) produce is delivered to second input of time-delay control logic circuit (8); the phase failure signal that the phase failure and three-phase imbalance signal generating circuit (5) produce is delivered to the input of question-and-answer game apparatus formula memory circuit (12); the first input end that stopping signal produces circuit (9) be connected on under-voltage and first first output that powers up broad pulse output and model selection and warning circuit (10) that just powers up signal generating circuit (15) on; stopping signal produces the stopping signal of circuit (9) first outputs output and delivers on the first input end of contactor control circuit (11); stopping signal produces the stopping signal of circuit (9) second outputs output and delivers on the first input end of question-and-answer game apparatus formula memory circuit (12); the output of time-delay control logic circuit (8) is connected with the set end of question-and-answer game apparatus formula memory circuit (12); the reset terminal of question-and-answer game apparatus formula memory circuit (12) links to each other with the reset pulse output that startup and reset pulse produce circuit (6); the first input end that startup and reset pulse produce circuit (6) links to each other with the first burst pulse output that powers up that just powers up signal generating circuit (15) with under-voltage; second input that startup and reset pulse produce circuit (6) links to each other with second output of model selection and warning circuit (10); startup and reset pulse produce the starting impulse output of circuit (6) and receive on second input of contactor control circuit (11); the output of question-and-answer game apparatus formula memory circuit (12) is connected with the input of LED display matrix door (13); the output of LED display matrix door (13) is received on the first input end of contactor control circuit (11); the control signal of contactor control circuit (11) second outputs output is received on the 3rd input of generation of load condition signal and indicating circuit (4); under-voltage signal under-voltage and that just power up signal generating circuit (15) output produces second input of circuit (9) respectively with stopping signal; the 3rd input of time-delay control logic circuit (8); the first input end of model selection and warning circuit (10) is connected with the 3rd input of startup and reset pulse generation circuit (6); second input of model selection and warning circuit (10) is received on the 3rd output of contactor control circuit (11); the road direct voltage with variation of ambient temperature in the two-way voltage of temperature sensitive stabilized voltage power supply (14) output is connected on the time-delay control logic circuit (8), and another road is not connected on other circuit that removes the control logic circuit (8) of delaying time with the direct voltage of variation of ambient temperature.
2, motor controlling protector as claimed in claim 1 is characterized in that, adjusts on the integrating circuit (7) input of half adc circuit and the 24th diode (V automatically in described time constant 24) an end link to each other and be connected on that the load condition signal produces and indicating circuit (4) in the 11st resistance (R 11) and the 31st resistance (R 31) between, row's resistance (R n) an end and the 24th diode (V 24) the other end connect row's resistance (R n) the other end and the 11st electric capacity (C 11) and resistance the 55th resistance (R 55) an end link to each other the 55th resistance (R 55) the other end and time-delay control logic circuit (8) in the 2nd (G 2), the 3rd (G 3), the 4th (G 4) a input link to each other the 11st electric capacity (C 11) the other end and the 3rd bridge in the temperature sensitive stabilized voltage power supply (14) heap (DL 3) output link to each other, the output of half adc circuit is connected with the control end of multiway analog switch respectively, the output of multiway analog switch is connected on arranges resistance (R n) on.
3, motor controlling protector as claimed in claim 1 is characterized in that, on described time-delay control logic circuit (8), and the 2nd (G 2), the 3rd (G 3), the 4th (G 4) a input and time constant adjust the 55th resistance (R in the integrating circuit (7) automatically 55) link to each other the 2nd (G 2) c input and the 1st inverter (G 1) output link to each other the 2nd (G 2) b input and under-voltage and just power up the 14th inverter (G in the signal generating circuit (15) 14) output link to each other and produce the 13rd (G in the circuit (6) with startup and reset pulse 13) a input link to each other the 27th triode (V in the phase failure and the three-phase imbalance failure detector circuit (5) 27) the three-phase imbalance signal of collector electrode output be connected on the 1st inverter (G 1) input and the 3rd (G 3) the b input on, the 4th (G 4) b input and under-voltage and just power up the 14th inverter (G in the signal generating circuit (15) 14) input link to each other the 2nd (G 2) output and the 16th (G 16) the b input link to each other, from the load condition signal produce and indicating circuit (4) the 31st resistance (R 31) and the 43rd resistance (R 43) between output short-circuit signal receive the 16th (G 16) a input on, the 16th (G 16) output receive the 6th trigger (F in the integrated rest-set flip-flop in the question-and-answer game apparatus formula memory circuit (12) 6) input on, the 4th (G 4) output and stopping signal produce the 19th (G in the circuit (9) 19) a input link to each other the 3rd (G 3) output receive the 7th trigger (F in the integrated rest-set flip-flop in the question-and-answer game apparatus formula memory circuit (12) 7) input on, the 2nd (G 2), the 3rd (G 3), the 4th (G 4) the power supply pin respectively with temperature sensitive stabilized voltage power supply (14) in the 3rd bridge heap (DL 3) output and the 74th triode (V 74) emitter connect.
4, motor controlling protector as claimed in claim 1 is characterized in that, on described contactor control circuit (11), and the 21st (G 21) a input and the 51st light-emitting diode (V in the LED display matrix door (13) 51), the 52nd light-emitting diode (V 52), the 53rd light-emitting diode (V 53), the 54th light-emitting diode (V 54), the 55th optical diode (V 55) an end link to each other and produce the 22nd (G in the circuit (9) with stopping signal 22) the b input connect the 21st (G 21) b input and the 22nd (G 22) output link to each other, under-voltage and just power up the 10th monostable flipflop (F in the signal generating circuit (15) 10) the first broad pulse that powers up of output output be connected on the 21st (G 21) the c input on, the 21st (G 21) output and the 2nd resistance (R 2) an end link to each other and with the 75th resistance (R 75) an end connect the 75th resistance (R 75) the other end be connected on the 59th triode (V 59) base stage on, R 2The other end and the load condition signal produces and indicating circuit (4) in the 1st triode (V 1) base stage link to each other the 59th triode (V 59) collector electrode and the 69th triode (V 69) emitter and the 1st relay (J 1) an end of sucking coil link to each other, and produce with the load condition signal and indicating circuit (4) in the 1st integrated operational amplifier (A 1), the 2nd integrated operational amplifier (A 2) power end connect the 59th triode (V 59) emitter and the 3rd bridge in the temperature sensitive stabilized voltage power supply (14) heap (DL 3) an output link to each other, start and reset pulse produces the 1st monostable flipflop (F in the circuit (6) 1) the starting impulse of output output through the 80th resistance (R 80) receive the 69th triode (V 69) base stage on, the 69th triode (V 69) collector electrode and the 2nd relay (J 2) an end of sucking coil link to each other the 1st relay (J 1) the other end and the 2nd relay (J of sucking coil 2) the other end of sucking coil link to each other and with the 3rd bridge heap (DL 3) another output connect, an end of AC power is through the 3rd switch (K 3) receive Bridge 2 heap (DL 2) an input on, the other end of AC power and the 1st fuse (FU 1) an end link to each other the 1st fuse (FU 1) the other end and the 28th electric capacity (C 28) an end link to each other and through the 1st relay (J 2) normally opened contact group and the 91st resistance (R 91) an end connect the 91st resistance (R 91) the other end and the 28th electric capacity (C 28) the other end link to each other and with Bridge 2 heap (DL 2) another input connect Bridge 2 heap (DL 2) an output link to each other Bridge 2 heap (DL with an end of the sucking coil of A.C. contactor KM 2) another output through the 1st relay (J 1) the normally opened contact group be connected the 95th resistance (R with the other end of the sucking coil of A.C. contactor KM 95) and the 30th electric capacity (C 30) be connected in parallel on the sucking coil of A.C. contactor KM after the series connection.
5, motor controlling protector as claimed in claim 1 is characterized in that, on described load condition signal generation and indicating circuit (4), and the 1st current transformer (TA 1), the 2nd current transformer (TA 2) and the 3rd current transformer (TA 3) head end respectively with the 5th diode (V 5), the 8th diode (V 8), the 11st diode (V 11) an end link to each other the 5th diode (V 5), the 8th diode (V 8), the 11st diode (V 11) the other end connect together and the 7th electric capacity (C 7) an end link to each other and with the 10th resistance (R 10) and the 4th resistance (R 4) an end connect the 10th resistance (R 10) the other end and the 4th potentiometer (W 4) an end connect the 4th resistance (R 4) the other end and the 11st resistance (R 11) an end link to each other and with the 2nd diode (V 2) an end connect the 2nd diode (V 2) the other end and the 1st triode (V 1) collector electrode connect the 11st resistance (R 11) the other end and the 31st resistance (R 31) an end link to each other and with the 1st integrated operational amplifier (A 1) and the 2nd integrated operational amplifier (A 2) an input connect the 31st resistance (R 31) and the 43rd resistance (R 43) between the short-circuit signal of output receive the 16th (G in time-delay control logic circuit (8) 16) a input on, the 1st integrated operational amplifier (A 1) and the 2nd integrated operational amplifier (A 2) another input and the 25th resistance (R 25) an end link to each other and with the 1st resistance (R 1) an end connect the 25th resistance (R 25) the other end and the 43rd resistance (R 43) the other end receive the 3rd bridge heap (DL in the temperature sensitive stabilized voltage power supply (14) 3) an output on, the 1st resistance (R 1) other end ground connection, the 1st integrated operational amplifier (A 1) and the 2nd integrated operational amplifier (A 2) output respectively with the 1st dichromatic LED (DL 1) two positive poles link to each other the 1st dichromatic LED (DL 1) negative pole through the 3rd resistance (R 3) ground connection, the 1st triode (V 1) base stage and the 2nd resistance (R 2) an end connect the 4th potentiometer (W 4), the 3rd potentiometer (W 3) all the other two ends connect together the 2nd resistance (R 2) the other end receive the 21st (G in the contactor control circuit (11) 21) output on, the 1st triode (V 1) emitter and the 7th electric capacity (C 7) other end ground connection.
6, motor controlling protector as claimed in claim 1 is characterized in that, on the described phase failure and three-phase imbalance failure detector circuit (5), and the 1st current transformer (TA 1) head end through the 3rd diode (V 3) and the 1st electric capacity (C 1) an end link to each other and with the 11st (G 11) a input and the 18th resistance (R 18) an end connect the 2nd current transformer (TA 2) head end through the 6th diode (V 6) and the 3rd electric capacity (C 3) an end link to each other and with the 11st (G 11) b input and the 20th resistance (R 20) an end connect the 3rd current transformer (TA 3) head end through the 9th diode (V 9) and the 5th electric capacity (C 5) an end link to each other and with the 11st (G 11) c input and the 22nd resistance (R 22) an end connect the 11st (G 11) the phase failure signal of output output receive the 17th (G in the question-and-answer game apparatus formula memory circuit (12) 17) a input on, the 1st electric capacity (C 1), the 3rd electric capacity (C 3), the 5th electric capacity (C 5) other end ground connection, the 12nd resistance (R 12) and the 1st electric capacity (C 1) parallel connection, the 13rd resistance (R 13) and the 3rd electric capacity (C 3) parallel connection, the 14th resistance (R 14) and the 5th electric capacity (C 5) parallel connection, the 18th resistance (R 18) the other end receive the 16th triode (V 16) base stage on, the 20th resistance (R 20) the other end receive the 19th triode (V 19) base stage on, the 22nd resistance (R 22) the other end receive the 22nd triode (V 22) base stage on, the 1st current transformer (TA 1) head end also with the 15th diode (V 15) end links to each other the 2nd current transformer (TA 2) head end also with the 18th diode (V 18) end links to each other the 3rd current transformer (TA 3) head end also with the 21st diode (V 21) an end link to each other the 15th diode (V 15), the 18th diode (V 18), the 21st diode (V 21) the other end connect together and with the 8th electric capacity (C 8) an end and the 27th resistance (R 27) end connection, the 27th resistance (R 27) the other end and the 28th resistance (R 28) an end link to each other and with the 16th triode (V 16), the 19th triode (V 19), the 22nd triode (V 22) emitter connect the 28th resistance (R 28) the other end and the 26th light-emitting diode (V 26) an end link to each other the 8th electric capacity (C 8) other end and the 26th diode pipe (V 26) the other end link to each other and ground connection the 16th triode (V 16), the 19th triode (V 19), the 22nd triode (V 22) collector electrode connect together and with the 30th resistance (R 30) an end connect the 30th resistance (R 30) the other end receive the 27th triode (V 27) base stage on, the 27th triode (V 27) grounded emitter, the 27th triode (V 27) collector electrode and the 28th light-emitting diode (V 28) an end connect the 28th light-emitting diode (V 28) the other end and the 48th resistance (R 48) an end connect the 48th resistance (R 48) the other end receive the 3rd bridge heap (DL in the temperature sensitive stabilized voltage power supply (14) 3) on the output, the 27th triode (V 27) the three-phase imbalance signal of collector electrode output receive the 1st inverter (G in the time-delay control logic (8) 1) input and the 3rd (G 3) the b input on.
7, motor controlling protector as claimed in claim 1 is characterized in that, on described model selection and warning circuit (10), and 2-2 double-point double-throw switch (K 2-2) a fixed contact and the 12nd (G 12) output connect 2-2 double-point double-throw switch (K 2-2) another fixed contact and its moving contact short circuit and with start button (SB 2) an end and the 1st external control port (CN 1) in port 2. connect (the K of 2-1 double-point double-throw switch 2-1) a fixed contact and 1-1 double-point double-throw switch (K 1-1) moving contact link to each other 2-1 double-point double-throw switch (K 2-1) moving contact ground connection, 2-1 double-point double-throw switch (K 2-1) another fixed contact and the 15th (G 15) the d input link to each other and with stop button (SB 1) an end and start button (SB 2) the other end connect 1-1 double-point double-throw switch (K 1-1) a fixed contact and the 3rd monostable flipflop (F 3) input link to each other 1-1 double-point double-throw switch (K 1-1) another fixed contact and stop button (SB 1) the other end link to each other and produce the 19th (G in the circuit (9) with stopping signal 19) the d input connect the 12nd (G 12) a input and the 3rd monostable flipflop (F 3) output link to each other the 12nd (G 12) b input and the 2nd monostable flipflop (F 2) output link to each other the 2nd monostable flipflop (F 2) input and 1-2 double-point double-throw switch (K 1-2) a fixed contact link to each other and with the 15th (G 15) a input connect the 15th (G 15) b input and the 5th monostable flipflop (F 5) input link to each other and with under-voltage and just power up the 100th resistance (R in the signal generating circuit (4) 100) an end connect the 15th (G 15) the c input and the 21st (G in the contactor control circuit (11) 21) output link to each other the 15th (G 15) output link to each other the 3rd bridge in the other end of buzzer (DY) and the temperature sensitive stabilized voltage power supply (14) heap (DL with an end of buzzer (DY) 3) the output connection, 1-2 double-point double-throw switch (K 1-2) moving contact and the 5th monostable flipflop (F 5) output link to each other.
8, motor controlling protector as claimed in claim 1 is characterized in that, described under-voltage and just power up on the signal generating circuit (15) the 10th monostable flipflop (F 10) and the 11st monostable flipflop (F 11) input link to each other and with temperature sensitive stabilized voltage power supply (14) in the 3rd bridge heap (DL 3) output connect the 10th monostable flipflop (F 10) the first broad pulse that powers up of output receives the 21st (G in the contactor control circuit (11) 21) c input and stopping signal produce the 19th (G in the circuit (9) 19) the c input on, the 11st monostable flipflop (F 11) output output first power up burst pulse and receive and start and reset pulse produces the 20th (G in the circuit (6) 20) the b input on, the 14th integrated operational amplifier (A 14) an input and the 5th potentiometer (W 5) swing arm connect the 5th potentiometer (W 5) certain arm through the 89th resistance (R 89) be connected to the 3rd bridge heap (DL in the temperature sensitive stabilized voltage power supply (14) 3) an output on, the 5th potentiometer (W 5) another decide arm through the 90th resistance (R 90) receive the 3rd bridge heap (DL in the temperature sensitive stabilized voltage power supply (14) 3) another output on, the 14th integrated operational amplifier (A 14) another input and the 12nd integrated operational amplifier (A 12) in-phase input end link to each other and with temperature sensitive stabilized voltage power supply (14) in the 2nd voltage stabilizing didoe (V Z2) an end connect the 14th integrated operational amplifier (A 14) output and the 100th resistance (R 100) an end link to each other the 14th (G 14) input respectively with the 100th resistance (R 100) the other end, the 77th diode (V 77) an end, time-delay control logic circuit (8) in the 4th (G 4) b input, stopping signal produce the 22nd (G in the circuit (9) 22) a input, model selection and warning circuit (10) in the 5th monostable flipflop (F 5) input and the 15th (G 15) the b input connect the 14th (G 14) output and time-delay control logic circuit (8) in the 2nd (G 2) the b input link to each other and produce the 13rd (G in the circuit (6) with startup and reset pulse 13) a input connect the 77th diode (V 77) other end ground connection.
9, motor controlling protector as claimed in claim 1 is characterized in that, on described temperature sensitive stabilized voltage power supply (14), and the 74th triode (V 74) base stage and the 93rd resistance (R 93) an end link to each other and with the 76th diode (V 76) an end connect the 93rd resistance (R 93) the other end and the 13rd integrated operational amplifier (A 13) output link to each other the 76th diode (V 76) the other end and the 73rd triode (V 73) base stage link to each other and with the 12nd integrated operational amplifier (A 12) output connect the 74th triode (V 74) the emitter output voltage V OTReceive the 2nd (G in the time-delay control logic circuit (8) 2), the 3rd (G 3), the 4th (G 4) the power supply pin on, the 13rd integrated operational amplifier (A 13) in-phase input end and the 94th resistance (R 94) and the 92nd resistance (R 92) an end connect the 92nd resistance (R 92) the other end and the 72nd diode (V 72) end link to each other and with the 88th resistance (R 88) an end connect the 94th resistance (R 94) the other end and the 12nd integrated operational amplifier (A 12) in-phase input end and the 2nd voltage stabilizing didoe (V Z2) an end link to each other and with the 70th diode (V 70) an end connect the 88th resistance (R 88) other end ground connection, the 72nd diode (V 72) the other end and the 71st diode (V 71) an end link to each other, the 71st diode (V 71) the other end and the 70th diode (V 70) the other end link to each other the 13rd integrated operational amplifier (A 13) inverting input and the 98th resistance (R 98) and the 99th resistance (R 99) an end connect the 99th resistance (R 99) the other end and the 74th triode (V 74) emitter link to each other the 12nd integrated operational amplifier (A 12) inverting input and the 6th potentiometer (W 6) two ends link to each other and with the 97th resistance (R 97) an end connect the 97th resistance (R 97) the other end and the 73rd triode (V 73) emitter link to each other and ground connection the 6th potentiometer (W 6) the other end and the 96th resistance (R 96) an end connect the 2nd voltage stabilizing didoe (V Z2) the other end and the 96th resistance (R 96), the 98th resistance (R 98) the other end link to each other and with the 3rd bridge heap (DL 3) output connect the 73rd triode (V 73) collector electrode and the 74th triode (V 74) collector electrode link to each other and with the 3rd bridge heap (DL 3) another output be connected.
10, motor controlling protector as claimed in claim 2 is characterized in that, on described time constant is adjusted half adc circuit in the integrating circuit (7) automatically, and the 26th resistance (R 26) one terminate at that the load condition signal produces and indicating circuit (4) in the 11st resistance (R 11) and the 24th resistance (R 24) between, the 26th resistance (R 26) the other end and the 3rd integrated operational amplifier (A 3) in-phase input end and the 25th diode (V 25) negative pole connect the 25th diode (V 25) plus earth, the 3rd integrated operational amplifier (A 3) inverting input link to each other with its output and with the 4th integrated operational amplifier (A 4), the 5th integrated operational amplifier (A 5), the 6th integrated operational amplifier (A 6), the 7th integrated operational amplifier (A 7) inverting input and the 8th integrated operational amplifier (A 8), the 9th integrated operational amplifier (A 9) in-phase input end connect the 9th integrated operational amplifier (A 9) inverting input and the 38th resistance (R 38) an end link to each other and with the 37th resistance (R 37) an end connect the 9th integrated operational amplifier (A 9) output through the 47th resistance (R 47) with analog switching circuit in triode (V 32) base stage connect the 38th resistance (R 38) other end ground connection, the 8th integrated operational amplifier (A 8) inverting input and the 37th resistance (R 37) the other end link to each other and with the 36th resistance (R 36) an end connect the 8th integrated operational amplifier (A 8) output through the 46th resistance (R 46) with analog switching circuit in the 31st triode (V 31) base stage connect the 7th integrated operational amplifier (A 7) in-phase input end and the 36th resistance (R 36) the other end link to each other and with the 35th resistance (R 35) an end connect the 7th integrated operational amplifier (A 7) output and the 4th analog switch (S in the analog switching circuit 4) control end connect the 6th integrated operational amplifier (A 6) in-phase input end and the 35th resistance (R 35) the other end link to each other and with the 34th resistance (R 34) an end connect the 6th integrated operational amplifier (A 6) output and the 3rd analog switch (S in the analog switching circuit 3) control end connect the 5th integrated operational amplifier (A 5) in-phase input end and the 34th resistance (R 34) the other end link to each other and with the 33rd resistance (R 33) an end connect the 5th integrated operational amplifier (A 5) output and the 2nd analog switch (S in the analog switching circuit 2) control end connect the 4th integrated operational amplifier (A 4) in-phase input end and the 33rd resistance (R 33) the other end link to each other and with the 45th resistance (R 45) an end connect the 4th integrated operational amplifier (A 4) output and the 1st analog switch (S in the analog switching circuit 1) control end connect the 45th resistance (R 45) the other end receive the 3rd bridge heap (DL in the temperature sensitive stabilized voltage power supply (14) 3) output on.
CNB2005100423878A 2005-01-27 2005-01-27 Motor controlling protector Expired - Fee Related CN100470985C (en)

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CN106444615B (en) * 2016-11-23 2023-04-28 淮南矿业(集团)有限责任公司 Instant start and delay power failure circuit and tape machine comprising same
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CN110112707B (en) * 2019-05-17 2022-03-15 上海金脉电子科技有限公司 Motor fault processing device
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