Patent ID: 11929606
Assignee: DONGGUAN HANG CHE BAO FUTURE TECHNOLOGY CO., LTD.
Field: Electrical machinery, apparatus, energy (Electrical engineering)
Classification: CPC H  F  Y | IPC F  H

Claim 0:
1. A safety control circuit, comprising an EC5 input module (31), an ignition clip module (32), a relay module (33), a timing control module (34), an input high-voltage protection module (35), a voltage-stabilizing power supply module (36), an input low-voltage protection module (37), a high-temperature protection module (38), a low-temperature protection module (39), an error alarm module (391), a first timing module (41), a second timing module (42) and a light display module (43);
wherein the EC5 input module (31) comprises an EC5+ terminal and an EC5− terminal;
the ignition clip module (32) comprises a red clip wire OUT+ network terminal, a black clip OUT− terminal, a diode D12 and a diode D19; the red clip wire OUT+ network terminal is connected to a first wire (321); the first wire (321) is connected to OUT+ and is connected to one end of the diode D19 and an output end of the relay module (33) at the same time; an input end of the relay module (33) is connected to a second wire (322); the other end of the second wire (322) is connected to the EC5+ terminal; the other end of the diode D19 is connected to a Negative Temperature Coefficient (NTC) resistor; the black clip OUT− terminal is connected to a third wire (323); the third wire (323) is connected to an OUT− network and is connected to one end of the diode D12 at the same time; the other end of the diode D12 is grounded; the other end of the third wire (323) is connected to the EC5− terminal;
the EC5+ terminal is also connected to a VCC+ network, the voltage-stabilizing power supply module (36) and the input high-voltage protection module (35);
the relay module (33) comprises a relay RK3, a diode D6, a diode D7, a triode Q1, a resistor R7, a resistor R44, a triode Q2, and a resistor R4; pin 3 of the relay RK3 is connected to the VCC+ network, and is connected to the diode D6, the diode D7 and pin 2 of the triode Q1 in sequence, pin 1 of the triode Q1 is connected to pin 2 of the resistor R44; pin 3 of the triode Q1 is grounded; pin 1 of the resistor R7 is connected to pin 3 of the triode Q1; pin 2 of the resistor R7 is connected to pin 2 of the triode Q2, pin 1 of the triode Q2 is connected to pin 2 of the resistor R4; pin 1 of the resistor R4 and pin 3 of the triode Q2 are grounded; pin 2 of the relay RK3 is set as an output end of the relay module (33); pin 1 of the relay RK3 is set as an input end of the relay module (33);
the voltage-stabilizing power supply module (36) comprises a diode D1, a capacitor C1, a capacitor C2, a three-terminal voltage-stabilizing chip U3, a capacitor C3, a capacitor C6, and a filter capacitor CE3; one end of the diode D1 is connected to the EC5+ terminal, and the other end is connected to a VIN terminal of the three-end voltage-stabilizing chip U3; the capacitor C1 and the capacitor C2 are connected in parallel to the VIN terminal and a GND terminal of the three-terminal voltage-stabilizing chip U3; the capacitor C3, the capacitor C6 and the filter capacitor CE3 are all connected in parallel to the GND terminal and an OUT terminal of the three-terminal voltage-stabilizing chip U3; the GND terminal of the three-terminal voltage-stabilizing chip U3 is grounded; one end of the capacitor C1 is connected to pin 3 of the three-terminal voltage-stabilizing chip U3, and the other end is connected to pin 2 of the three-terminal voltage-stabilizing chip U3; pin 3 of the three-terminal voltage-stabilizing chip U3 is also connected to a VCC1 power supply voltage;
the input high-voltage protection module (35) comprises a zener diode ZD1, a zener diode ZD2, a diode D9, a diode D13, a resistor R13 and a resistor R21; the zener diode ZD2 is connected in series with the diode D9, the resistor R13, the resistor R21, the diode D13 and the zener diode ZD1 in sequence, and an other end of the zener diode ZD1 is connected to the OUT+ network;
the input low-voltage protection module (37) comprises a diode D5, a diode D4, a resistor R16, an output signal LV, an operational amplifier LM-358, a capacitor C4, a resistor R15, a capacitor C8, a capacitor C19, a capacitor C22, a capacitor C13, a capacitor C21, a resistor R24, a diode D11 the VCC1 power supply voltage, a diode D17, a resistor R26, a triode Q5, a resistor R33, a resistor R19, a capacitor C11, a resistor R8, a resistor R19 and a capacitor C5; the operational amplifier LM-358 comprises a VDD terminal of pin 8, a + terminal of pin 5, a − terminal of pin 6, a U1-B terminal of pin 7 and a GND terminal of pin 4; the diode D5, the diode D4 and resistor R16 are connected in series in sequence; pin 7 of the operational amplifier LM-358 is connected to a control signal LV; the U1-B terminal of pin 7 and the + terminal of pin 5 of the operational amplifier LM-358 are respectively connected to the diode D4 and the resistor R16; the GND terminal of pin 4 of the operational amplifier LM-358 is grounded; the VDD terminal of pin 8 of the operational amplifier LM-358 is connected to the OUT terminal of pin 1 of the three-terminal voltage-stabilizing chip U3 in the voltage-stabilizing power supply module (36); the − terminal of pin 6 of the operational amplifier LM-358 is connected in series with the resistor R24, the diode D11 and the VCCC1 power supply voltage in sequence; the resistor R15, the capacitor C8, the capacitor C19, the capacitor C22, the capacitor C13 and the capacitor C21 are all connected in parallel to the VDD terminal of pin 8 and the − terminal of pin 6 of the operational amplifier LM-358; the capacitor C4 and the resistor R15 are connected in sequence; the resistor R26 is connected in series with the diode D17, pin 2 of the triode Q5 and pin 3 of the triode Q5 in sequence and between pin 6 of the operational amplifier LM-358 and the VDD terminal of pin 8 of the operational amplifier LM-358; pin 1 of the triode Q5 is grounded after being connected in series to the resistor R19 and the capacitor C11; two ends 2 and 1 of the resistor R33 are respectively connected to pin 3 of the triode Q5 and end 1 of the resistor R19; the resistor R8 is connected between end 2 of the resistor R16 and the OUT terminal of pin 1 in the three-terminal voltage-stabilizing chip U3 in the voltage-stabilizing power supply module (36); two ends of the resistor R9 are respectively connected to the capacitor C5 and end 1 of the resistor R8; end 1 of the resistor R9 is grounded after being connected to the capacitor C5;
the high-temperature protection module (36) comprises a network OT, a diode D3, a diode D8, a temperature comparator U1-A, a resistor R18, an NTC resistor, a capacitor C10, a resistor R3, a capacitor C9, a resistor R10, a resistor R14 and a VDD power supply voltage; the diode D3 is connected to pin 1 of the temperature comparator U1-A; pin 2 of the temperature comparator U1-A is connected to the OUT terminal of pin 1 in the three-terminal voltage-stabilizing chip U3 in the voltage-stabilizing power supply module (36) by way of connection to the resistor R3; the network OT is connected in series to the diode D8 and the resistor R18 in sequence; the network OT and pin 2 of the resistor R18 are respectively connected to the diode D3 and pin 3 of the temperature comparator U1-A; pin 2 of the NTC resistor is grounded; pin 1 of the NTC resistor is connected to pin 1 of the resistor R3; the capacitor C10 is connected in parallel to the NTC resistor; pin 3 of the temperature comparator U1-A is connected in series to the resistor R14 and the VDD power supply voltage; pin 2 of the resistor R10 is grounded; pin 1 of the resistor R10 is connected to pin 1 of the resistor R14; the capacitor C9 is connected in parallel to the resistor R10;
the timing control module (34) comprises a resistor R28, a resistor R34, a triode Q7, a triode Q3, a resistor R35 and a resistor R36; pin 2 of the triode Q3 is connected to pin 1 of the resistor R44 and pin 2 of the triode Q7; pin 1 of the triode Q3 is connected to pin 2 of the resistor R36 and pin 1 of the resistor R35; pin 1 of the resistor R36 is connected to a VDD network; pin 2 of the resistor R35 is grounded; pin 1 of the triode Q7 is connected to pin 1 of the resistor 28 and pin 2 of the resistor R34; pin 1 of the resistor R34 is connected to pin 3 of the triode Q7;
the first timing module (41) comprises a PM network, a resistor R31, a diode D18, a chip U2, a V1 network, a capacitor C14, a capacitor C16, a capacitor C17, a diode D14, a diode D15, a resistor R30, a resistor R32, a resistor R29, a photoelectric coupler PC1, a resistor R2, a diode D16, a resistor R38, a Metal Oxide Semiconductor (MOS) transistor Q8 and a forced power-on module (411); the forced power-on module (411) comprises a triode Q9, a resistor R39, a filter capacitor CE2, a resistor R40, and a button switch K1; pin 3 of the triode Q9 is grounded; pin 1 of the triode Q9 is connected to pin 1 of the resistor R39; pin 2 of the resistor R39 is connected to pin 1 of the resistor R40; pin 2 of the resistor R40 is connected to pin 2 of a button switch K1; pin 1 of the button switch K1 is connected to the VDD network; pin 1 of the filter capacitor CE2 is connected to pin 2 of the resistor R39 and pin 1 of the resistor R40; pin 2 of the filter capacitor CE2 is grounded; pin 1 of the resistor R31 is connected to pin 1 of the resistor R44 and the PM network; pin 2 of the resistor R31 is connected to pin 3 of the chip U2; the diode D18 is connected in parallel to the resistor R31; pin 5 of the chip U2 is grounded by way of connection to the capacitor C14; pin 2 of the chip U2 is simultaneously connected to pin 6 of the chip U2, one end of the capacitor C17, one end of the diode D14 and one end of the diode D15; the other end of the capacitor C17 is grounded; the other end of the diode D15 is connected to pin 2 of the resistor R30; pin 1 of the resistor R30 is connected to pin 2 of the resistor R32; pin 1 of the resistor R32 is simultaneously connected to one end of the capacitor C16, pin 4 of the chip U2, pin 8 of the chip U2 and pin 3 of the MOS transistor Q8; the other end of the capacitor C16 is grounded; pin 7 of the chip U2 is simultaneously connected to the other end of the diode D14, pin 1 of the resistor R30 and pin 2 of the resistor R32; pin 1 of the MOS transistor Q8 is simultaneously connected to pin 4 of the photoelectric coupler PC1, pin 2 of the resistor R38 and pin 2 of the triode Q9 in the forced power-on module (411); pin 1 of the resistor R38 is connected to pin 2 of the MOS transistor Q8 and the VDD network; pin 3 and pin 2 of the photoelectric coupler PC1 are respectively grounded; pin 1 of the photoelectric coupler PC1 is simultaneously connected to pin 2 of the resistor R29 and pin 1 of the resistor R2; pin 1 of the resistor R29 is grounded; pin 2 of the resistor R2 is connected to one end of the diode D16;
the low-temperature protection module (39) comprises a resistor R11, a zener diode ZD3, a resistor R20, a photoelectric coupler PC3, an NTC network, a triode U4, a capacitor C7 and a resistor R45; pin 2 of the zener diode ZD3 is connected to the other end of the diode D16; pin 1 of the zener diode ZD3 is simultaneously connected to the OUT+ network and pin 1 of the resistor R20; pin 2 of the resistor R20 is connected to pin 2 of the photoelectric coupler PC3; pin 3 of the photoelectric coupler PC3 is grounded; pin 4 of the photoelectric coupler PC3 is connected to the NTC network; pin 1 of the photoelectric coupler PC3 is connected to the OUT− network; pin 2 of the resistor R11 is connected to pin 1 of the resistor R4; pin 1 of the resistor R11 is grounded;
the second timing module (42) comprises a capacitor C15, a resistor R22, a resistor R23, a triode Q32, a resistor R41, a V1 network, a diode D10, a filter capacitor CE1, a resistor R37, and a triode Q6; pin 3 of the triode Q32 is simultaneously connected to pin 1 of the resistor R41 and pin 2 of the resistor R22; pin 2 of the resistor R41 is connected to the V1 network; pin 1 of the resistor R22 is simultaneously connected to pin 1 of R23 and one end of the capacitor C15; the other end of the capacitor C15 is grounded; pin 2 of the triode Q32 is connected to one end of the diode D10; the other end of the diode D10 is simultaneously connected to pin 1 of the filter capacitor CE1 and pin 1 of the resistor R37; pin 2 of the filter capacitor CE1 is grounded; pin 2 of the resistor R37 is connected to pin 1 of the triode Q6; pin 3 of the triode Q6 is grounded; pin 2 of the triode Q6 is connected to pin 1 of the triode Q3;
the error alarm module (391) comprises a resistor R17, a triode Q10, a diode D2, a resistor R5 and a buzzer; pin 1 of the resistor R17 is connected to pin 1 of the resistor R4; pin 2 of the resistor R17 is connected to pin 1 of the triode Q10; pin 3 of the triode Q10 is grounded; pin 2 of the triode Q10 is connected to pin 2 of the buzzer; two ends of the diode D2 are respectively connected to pin 1 and pin 2 of the buzzer; pin 2 of the resistor R5 is connected to pin 1 of the buzzer; pin 1 of the resistor R5 is connected to the VDD network;
the light display module (43) comprises a resistor R42, a triode Q13, a capacitor C25, a triode Q14, a resistor R43, a resistor R6, a triode Q11, a resistor R12, a red light LED3, a capacitor C18, a resistor R27, a triode Q12, a resistor R1, a capacitor C23 and a green light LED1; pin 1 of the resistor R42 is connected to pin 1 of the resistor R4; pin 2 of the resistor R42 is connected to pin 1 of the triode Q13; pin 3 of the triode Q13 is grounded; pin 2 of the triode Q13 is simultaneously connected to pin 1 of the triode Q12, pin 2 of the resistor R27 and one end of the capacitor C18; pin 3 of the triode Q12 is connected to pin 3 of the triode Q11 and grounded; pin 2 of the triode Q12 is simultaneously connected to pin 2 of the resistor R1 and one end of the capacitor C23; the other end of C23 is simultaneously connected to pin 2 of the triode Q14, pin 1 of the triode Q11 and pin 2 of the resistor R6; pin 2 of the triode Q11 is simultaneously connected to the other end of the capacitor C18 and pin 1 of the resistor R12; pin 2 of the resistor R12 is connected to one end of the red light LED3; pin 1 of the resistor R1 is connected to one end of the green light LED1; pin 1 of the resistor R6 is connected to VDD by way of connection to the other end of the red light LED3, pin 1 of the resistor R27 and the other end of the green light LED1; pin 3 of the triode Q14 is grounded and is connected to one end of the capacitor C25 at the same time; the other end of the capacitor C25 is simultaneously connected to pin 1 of the triode Q14 and pin 2 of the resistor R43; and pin 1 of the resistor R43 is connected to the PM network.