CN201601475U - Electronic type overcurrent protector - Google Patents

Abstract

The utility model discloses an electronic type overcurrent protector comprising a shell and an electronic circuit plate, wherein the electronic circuit plate is provided with a protection circuit and a depressurization rectification voltage-stabilizing circuit; the depressurization rectification voltage-stabilizing circuit provides a direct-current working power supply for the protection circuit; the protection circuit takes an STC12C5201 AD chip U2 as a core, a pin 1 of the STC12C5201 AD chip U2: reset, a pin 4 and a pin 5: a crystal oscillator, the pin 7: an overcurrent indicator light, the pin 8: a negative 5V power supply, a pin 9: a testing/reset button, a pin 10: current threshold adjustment input, a pin 11: A-phase current sampling input and a magnetism receiving ring, a pin 12: delay time adjustment input, a pin 13: C-phase current sampling input and the magnetism receiving ring, a pin 14: tripping operation relay output, and a pin 16: a positive 5V power supply. The protector is applied to motors and other equipments, and has protective functions such as overcurrent, open phase, stalling and the like.

Description

Electronic type overcurrent protector

Technical field

The utility model relates to a kind of overcurrent protective device, refers in particular to a kind of electronic type overcurrent protector.

Background technology

Overcurrent appears in load equipment such as motor etc., not only can burn out equipment, and brings potential safety hazards such as fire.For this reason; Chinese patent once disclosed a kind of " overcurrent protective device " (TaiWan, China; notification number CN2857294Y; January 10 2007 day for announcing); make a direct current power supply pass through; and detect a current value of described DC power supply; and described overcurrent protective device includes: at least one iron core; one main coil and a Hall subassembly; one side of described iron core has a convex body; this convex body is to extend along a direction of described iron core; on the aforementioned convex body of described main coil cross-over connection; when DC power supply is passed through; DC power supply forms a corresponding magnetic flux density along the direction that convex body extends, and described Hall subassembly is corresponding with described convex body, and at a distance of convex body one spacing; to receive the magnetic flux density that described main coil forms; utilize in the described Hall subassembly operating characteristic magnetic flux density with flow through electric current become down than relation, when measuring current value, prevent overcurrent protective device and circuit contacts (serial connection).It is not an electronic type.

Chinese patent once disclosed " a kind of overcurrent protective device " (China, notification number CN2781619Y, May 17 2006 day for announcing), by temperature switch, starting resistance, keep resistance and form.Temperature switch is connected with starting resistance; Temperature switch is with to keep resistance in parallel.It is placed in the terminal box of students' dormitory supply socket, prevents that high-power electric appliance from using, and fire safety, economize on electricity are had effect.It does not have defencive functions such as motor phase shortage, stall.

Chinese patent once disclosed " a kind of overcurrent protective device " (China; notification number CN2433758Y; the June 6 calendar year 2001 day for announcing); it comprises DC power supply circuit and the load detecting circuit that is connected with ac power supply line; also comprise optical detection circuit and and load detecting circuit; the control circuit that optical detection circuit connects; load detecting circuit includes sample resistance; photoelectrical coupler; first NAND gate circuit; the delay circuit and second NAND gate circuit; optical detection circuit includes photo resistance; the 3rd NAND gate circuit; control circuit includes the 4th NAND gate circuit; amplifying triode and control relay, wherein the normally-closed contact of sample resistance and control relay is connected in the ac power supply line.This overcurrent protective device not only can solve " normal bright lamp " phenomenon, and can prevent electricity filching behavior.It is not suitable for motor.

Chinese patent once disclosed a kind of " multi-functional electric motor protecting device " (China; notification number CN201130850Y; October 8 2008 day for announcing); comprise current sampling circuit; delay circuit; the relay turning circuit; relay and power circuit; its current sampling circuit is made of shunt and the turning circuit that connects the shunting coil of wire of shunt; the output of turning circuit connects delay circuit; delay circuit is succeeded the electrical equipment turning circuit, the output of power circuit one termination turning circuit, another termination delay circuit and relay turning circuit.The utility model can not make the motor outage when electric motor starting, and will protect motor as overcurrent occurring in normal operation back.It is simple in structure, is applicable to any model motor, and volume is little, and cost is low, protects effective.It does not have test/reset button.

The utility model content

The purpose of this utility model is to provide a kind of electronic type overcurrent protector, and it is extra small energy-saving overcurrent protective device, has following function: (1) has defencive functions such as overcurrent, phase shortage, stall; (2) has motor load current settings function; (3) has motor start-up delay time set-up function; (4) have Presentation Function and affirmation actual current value, the minimum function of checking out the 0.2A electric current; (5) has function anti-interference, that noise isolation is not influenced by ambient temperature and pulsating load; (6) have test/reset button, threading off or simulating disconnects and can be undertaken by this button; (7) has the no-voltage release function.

For achieving the above object; the solution that the utility model is taked is: a kind of electronic type overcurrent protector; it comprises housing and electronic circuit board; shell of top cover is fixed on and constitutes housing on the drain pan; electronic circuit board is contained in the housing; protective circuit and step-down rectifier voltage stabilizing circuit are set on the electronic circuit board; the 220V AC power provides negative 24V and negative 5V DC power supply by the step-down rectifier voltage stabilizing circuit to protective circuit; protective circuit is a core with STC12C5201AD chip U2; 1 pin of STC12C5201AD chip U2 connects negative 5V power supply by resistance R 21; 4 pin and 5 pin connect crystal oscillating circuit; 7 pin are crossed resistance R 8; red led REDALARM (light-emitting diode; be the overcurrent indicator light) connect and bear the 5V power supply; 8 pin connect negative 5V power supply; 9 pin connect negative 5V power supply by test/reset button JB1; 10 pin connect the threshold that is made of potentiometer RC and regulate input circuit; 11 pin connect the A phase current sampling input circuit that is made of magnet ring HUAN2; 12 pin connect the delay time that is made of potentiometer OT and regulate input circuit; 13 pin connect the C phase current sampling input circuit that is made of magnet ring HUAN1; 14 pin are by resistance R 5; triode T1; relay R JA connects negative 24V power supply; 16 pin are by resistance R 10 ground connection GND; potentiometer RC; potentiometer OT; red led REDALARM; test/reset button JB1 stretches out shell of top cover; the L1 binding post is set on the shell of top cover; the L2 binding post; the T1 binding post; the T2 binding post; the T3 binding post; 95 binding posts; 96 binding posts and 98 binding posts; relay R JA and 95 binding posts; 96 binding posts and 98 binding posts connect; the A pin passes drain pan; electronic circuit board and magnet ring HUAN2 contact with the T1 binding post; the B pin passes drain pan; electronic circuit board contacts with the T2 binding post; the C pin passes drain pan; electronic circuit board and magnet ring HUAN1 contact with the T3 binding post, the L1 binding post; the L2 binding post connects the step-down rectifier voltage stabilizing circuit.

During use, electronic type overcurrent protector is inserted A.C. contactor, L1, L2 binding post connect operating power, and major loop phase line (T1, T2, T3 binding post) connects A.C. contactor, and 95,96 and 98 binding posts connect the auxiliary contact of A.C. contactor.At first potentiometer RC (load current knob) is transferred to maximum, starter motor then, after treating that motor operates steadily, the load current knob is screwed into red led REDALARM flicker position lentamente towards counter clockwise direction, this current value is 100% of a motor actual motion current value, again the clockwise radiation of load current knob being threaded to red led REDALARM extinguishes, this current value is 105% of a motor actual motion current value, and general set point is the 100%-130% (being the setting current value) of motor actual motion current value.After this, the bright expression motor of red led REDALARM actual motion current value surpasses the setting current value, otherwise, be lower than the setting current value.The user has the desirable sensitivity of concrete condition according to equipment, adjusts potentiometer OT (overload delay time knob) and arrives guard time accurately, scope 0-10s.If electronic type overcurrent protector is used for the circuit of frequency control, must add isolating transformer at the operating power input.

Because adopting with STC12C5201AD chip U2 is the protective circuit of core, makes this electronic type overcurrent protector become extra small energy-saving product, and has following advantage:

(1) when motor overcurrent occurs or stall takes place, magnet ring HUAN1 senses overcurrent signal input STC12C5201AD chip U2, and STC12C5201AD single-chip microcomputer U2 work makes relay R JA tripping operation; When phase shortage (A phase or C phase) appearred in motor, magnet ring HUAN2 or magnet ring HUAN1 induction were less than current signal, and relay R JA is in normally open, so it has defencive functions such as overcurrent, phase shortage, stall; (2), set the motor load electric current by potentiometer RC; (3), set the motor start-up delay time by potentiometer OT; (4) have Presentation Function and affirmation actual current value, the minimum function of checking out the 0.2A electric current; (5) function that have anti-interference, noise isolation, not influenced by ambient temperature and pulsating load; (6) have test/reset button, threading off or simulating disconnects and can be undertaken by this button; (7) has the no-voltage release function.

Description of drawings

Fig. 1 is the stereogram of present embodiment.

Fig. 2 is the schematic diagram that is electrically connected of present embodiment.

Among the figure: 1, shell of top cover, 2, drain pan.

Embodiment

Below in conjunction with embodiment and accompanying drawing thereof the utility model is remake description.

Referring to Fig. 1 and Fig. 2; a kind of electronic type overcurrent protector; it comprises housing and electronic circuit board; shell of top cover 1 is fixed on the drain pan 2 and constitutes housing; electronic circuit board is contained in the housing; protective circuit and step-down rectifier voltage stabilizing circuit are set on the electronic circuit board; the 220V AC power provides negative 24V and negative 5V DC power supply by the step-down rectifier voltage stabilizing circuit to protective circuit; protective circuit is a core with STC12C5201AD chip U2; 1 pin of STC12C5201AD chip U2 connects negative 5V power supply by resistance R 21; 4 pin and 5 pin connect crystal oscillating circuit; 7 pin are by resistance R 8; red led REDALARM (light-emitting diode; be the overcurrent indicator light) connect and bear the 5V power supply; 8 pin connect negative 5V power supply; 9 pin connect negative 5V power supply by test/reset button JB1; 10 pin connect the threshold that is made of potentiometer RC and regulate input circuit; 11 pin connect the A phase current sampling input circuit that is made of magnet ring HUAN2; 12 pin connect the delay time that is made of potentiometer OT and regulate input circuit; 13 pin connect the C phase current sampling input circuit that is made of magnet ring HUAN1; 14 pin are by resistance R 5; triode T1; relay R JA connects negative 24V power supply; 16 pin are by resistance R 10 ground connection GND; potentiometer RC; potentiometer OT; red led REDALARM; test/reset button JB1 stretches out shell of top cover 1; the L1 binding post is set on the shell of top cover 1; the L2 binding post; the T1 binding post; the T2 binding post; the T3 binding post; 95 binding posts; 96 binding posts and 98 binding posts; relay R JA and 95 binding posts; 96 binding posts and 98 binding posts connect; the A pin passes drain pan 2; electronic circuit board and magnet ring HUAN2 contact with the T1 binding post; the B pin passes drain pan 2; electronic circuit board contacts with the T2 binding post; the C pin passes drain pan 2; electronic circuit board and magnet ring HUAN1 contact with the T3 binding post, the L1 binding post; the L2 binding post connects the step-down rectifier voltage stabilizing circuit.

Referring to Fig. 2, described step-down rectifier voltage stabilizing circuit is by diode D1, diode D2, diode D3, the rectification circuit that diode D4 constitutes, by inductance L 11, the reduction voltage circuit that inductance L 21 constitutes and form by the voltage stabilizing circuit that LM79L05 three terminal regulator U1 and voltage-stabiliser tube Z1 constitute, inductance L 11 outputs divide three the tunnel respectively by capacitor C 1, resistance R 2, resistance R 1 connects rectification circuit input end, the positive termination inductance L 21 of rectification circuit output end, inductance L 21 output connecting resistance R3, electric capacity E1 anode, electric capacity E2 anode, 1 end of LM79L05 three terminal regulator U1, electric capacity E3 anode, meet capacitor C 2 and ground GND, the rectification circuit output end negative terminal connects voltage-stabiliser tube Z1 anode, the negative 24V power supply of output, connecting resistance R4, the voltage-stabiliser tube Z1 negative terminal connecting resistance R3 other end, resistance R 4 another termination capacitor E2 negative terminals, 2 ends of LM79L05 three terminal regulator U1, the 3 termination capacitor E2 negative terminals of LM79L05 three terminal regulator U1, the negative 5V power supply of output, connect capacitor C 2 other ends.

Referring to Fig. 2, described crystal oscillating circuit is made of crystal oscillator XTAL, and crystal oscillator XTAL the two poles of the earth connect capacitor C 5, capacitor C 6 respectively, and capacitor C 5 is connected mid point and connects negative 5V power supply with capacitor C 6.

Referring to Fig. 2, described potentiometer RC one terminating resistor R22, other end connecting resistance R19, described potentiometer OT one terminating resistor R20, the other end connecting resistance R22 other end and negative 5V power supply, resistance R 19 and resistance R 20 other end ground connection GND.

Referring to Fig. 2,1 end of described magnet ring HUAN2 and 2 end shunt capacitance C4, resistance R 15, resistance R 16,1 termination of magnet ring HUAN2 is born 5V power supply, 2 ends meet STC12C5201AD chip U2 by resistance R 18 11 pin.

Referring to Fig. 2,1 end of described magnet ring HUAN1 and 2 end shunt capacitance C3, resistance R 11, resistance R 12,1 termination of magnet ring HUAN1 is born 5V power supply, 2 ends meet STC12C5201AD chip U2 by resistance R 14 13 pin.

Referring to Fig. 2, described resistance R 5 and triode T1 base stage be connected mid point connecting resistance R6, connect diode D5 negative terminal between triode T1 collector electrode and the relay R JA, the positive termination of diode D5 is born the 24V power supply, the positive ending grounding GND of triode T1 emitter, resistance R 6 other ends and power supply indicator PWR (light-emitting diode), power supply indicator PWR negative terminal connecting resistance R7, resistance R 7 another terminations are born the 24V power supply.

Referring to Fig. 1 and Fig. 2, described power supply indicator PWR stretches out shell of top cover 1.

This electronic type overcurrent protector specification and technical parameter are as follows:

Claims (8)

1. electronic type overcurrent protector; it comprises housing and electronic circuit board; shell of top cover (1) is fixed on drain pan (2) and goes up the formation housing; electronic circuit board is contained in the housing; it is characterized in that: protective circuit and step-down rectifier voltage stabilizing circuit are set on the electronic circuit board; the 220V AC power provides negative 24V and negative 5V DC power supply by the step-down rectifier voltage stabilizing circuit to protective circuit; protective circuit is a core with STC12C5201AD chip U2; 1 pin of STC12C5201AD chip U2 connects negative 5V power supply by resistance R 21; 4 pin and 5 pin connect crystal oscillating circuit; 7 pin are by resistance R 8; red led REDALARM connects negative 5V power supply; 8 pin connect negative 5V power supply; 9 pin connect negative 5V power supply by test/reset button JB1; 10 pin connect the threshold that is made of potentiometer RC and regulate input circuit; 11 pin connect the A phase current sampling input circuit that is made of magnet ring HUAN2; 12 pin connect the delay time that is made of potentiometer OT and regulate input circuit; 13 pin connect the C phase current sampling input circuit that is made of magnet ring HUAN1; 14 pin are by resistance R 5; triode T1; relay R JA connects negative 24V power supply; 16 pin are by resistance R 10 ground connection GND; potentiometer RC; potentiometer OT; red led REDALARM; test/reset button JB1 stretches out shell of top cover (1); shell of top cover is provided with the L1 binding post on (1); the L2 binding post; the T1 binding post; the T2 binding post; the T3 binding post; 95 binding posts; 96 binding posts and 98 binding posts; relay R JA and 95 binding posts; 96 binding posts and 98 binding posts connect; the A pin passes drain pan (2); electronic circuit board and magnet ring HUAN2 contact with the T1 binding post; the B pin passes drain pan (2); electronic circuit board contacts with the T2 binding post; the C pin passes drain pan (2); electronic circuit board and magnet ring HUAN1 contact with the T3 binding post, the L1 binding post; the L2 binding post connects the step-down rectifier voltage stabilizing circuit.

2. electronic type overcurrent protector according to claim 1; it is characterized in that: described step-down rectifier voltage stabilizing circuit is by diode D1; diode D2; diode D3; the rectification circuit that diode D4 constitutes; by inductance L 11; the reduction voltage circuit that inductance L 21 constitutes and form by the voltage stabilizing circuit that LM79L05 three terminal regulator U1 and voltage-stabiliser tube Z1 constitute; inductance L 11 outputs divide three the tunnel respectively by capacitor C 1; resistance R 2; resistance R 1 connects rectification circuit input end; the positive termination inductance L 21 of rectification circuit output end; inductance L 21 output connecting resistance R3; electric capacity E1 anode; electric capacity E2 anode; 1 end of LM79L05 three terminal regulator U1; electric capacity E3 anode; meet capacitor C 2 and ground GND; the rectification circuit output end negative terminal connects voltage-stabiliser tube Z1 anode; the negative 24V power supply of output; connecting resistance R4; the voltage-stabiliser tube Z1 negative terminal connecting resistance R3 other end; resistance R 4 another termination capacitor E2 negative terminals; 2 ends of LM79L05 three terminal regulator U1, the 3 termination capacitor E2 negative terminals of LM79L05 three terminal regulator U1; the negative 5V power supply of output; connect capacitor C 2 other ends.

3. electronic type overcurrent protector according to claim 1 is characterized in that: described crystal oscillating circuit is made of crystal oscillator XTAL, and crystal oscillator XTAL the two poles of the earth connect capacitor C 5, capacitor C 6 respectively, and capacitor C 5 is connected mid point and connects negative 5V power supply with capacitor C 6.

4. electronic type overcurrent protector according to claim 1; it is characterized in that: described potentiometer RC one terminating resistor R22, other end connecting resistance R19; described potentiometer OT one terminating resistor R20, the other end connecting resistance R22 other end and negative 5V power supply, resistance R 19 and resistance R 20 other end ground connection GND.

5. electronic type overcurrent protector according to claim 1; it is characterized in that: 1 end of described magnet ring HUAN2 and 2 end shunt capacitance C4, resistance R 15, resistance R 16,1 termination of magnet ring HUAN2 is born 5V power supply, 2 ends meet STC12C5201AD chip U2 by resistance R 18 11 pin.

6. electronic type overcurrent protector according to claim 1; it is characterized in that: 1 end of described magnet ring HUAN1 and 2 end shunt capacitance C3, resistance R 11, resistance R 12,1 termination of magnet ring HUAN1 is born 5V power supply, 2 ends meet STC12C5201AD chip U2 by resistance R 14 13 pin.

7. electronic type overcurrent protector according to claim 1; it is characterized in that: described resistance R 5 and triode T1 base stage be connected mid point connecting resistance R6; connect diode D5 negative terminal between triode T1 collector electrode and the relay R JA; the positive termination of diode D5 is born the 24V power supply; the positive ending grounding GND of triode T1 emitter, resistance R 6 other ends and power supply indicator PWR; power supply indicator PWR negative terminal connecting resistance R7, resistance R 7 another terminations are born the 24V power supply.

8. according to claim 1 or 7 described electronic type overcurrent protectors, it is characterized in that: described power supply indicator PWR stretches out shell of top cover (1).

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