CN204921436U - Alternating current -direct current fan controlling means - Google Patents

Abstract

The utility model belongs to electrical apparatus control field especially relates to an alternating current -direct current fan controlling means. Comparing with traditional fan control circuit, having increased signal input part, first opto -coupler relay and second opto -coupler relay, signal input part is connected with a NULL through first opto -coupler relay, realizes chopper speed control input, and a NULL adjusts the slew velocity of motor according to the duty cycle of pulse, and the duty cycle is fast more at a high speed, otherwise the low velocity is slow more for the duty cycle, can be by stopping to adjust to full speed, a NULL passes through second opto -coupler relay and is connected with signal input part, realizes giving signal input part with the send parameters such as slew velocity of motor, and the motor trouble can be realized detecting by the signal that sends through signal input part relatively and the signal of feedback.

Description

A kind of alternating direct-current fan control device

Technical field

The utility model belongs to electrical equipment control field, particularly relates to a kind of alternating direct-current fan control device.

Background technique

Current existing fan mainly can be DC fan, ac fan and alternating direct-current fan three major types.These three kinds of fans respectively have pluses and minuses, and the working efficiency of DC fan is high and do not have noise, but needing to add joins Power convert and just can normally work; The installation of ac fan is more convenient, and cost is also cheaper, but inefficiency has noise again; Alternating direct-current fan is integrated with the advantage of DC fan and ac fan, becomes fan most popular in the market.The control gear of alternating direct-current fan is the important component part realizing alternating direct-current fan work.

Application number is: the Chinese patent document of 201320014189.0, and disclose a kind of alternating direct-current control circuit of cooling fan, it comprises rectifying unit, is electrically connected, carries out rectification to Ac with the input end of ac power supply; Filter unit, is electrically connected with described rectifying unit, carries out filtering convert DC electrical source to, for drive circuit provides VDC to the Ac after rectification; And drive circuit, be electrically connected with described DC fan stator coil, drive DC fan.The beneficial effect of this control circuit is: increase rectifying unit and filter unit, no matter access DC electrical source or ac power supply, after rectifying unit and filter unit rectifying and wave-filtering, all exportable galvanic current, effectively improve rotating speed and the air output of radiation fan, and then improve the radiating effect of radiation fan.

Above-mentioned disclosed a kind of alternating direct-current control circuit of cooling fan cannot realize the faut detection of motor and promote Consumer's Experience.

Model utility content

Technical problem to be solved in the utility model is: provide a kind of alternating direct-current fan control device that can detect electrical fault.

In order to solve the problems of the technologies described above, the technical solution adopted in the utility model is:

A kind of alternating direct-current fan control device, comprises combined-voltage input end, rectification circuit, power supply integrated regulator, signal input part, the first light coupling relay, the first integrated chip, motor, Hall amplification circuit and the second light coupling relay;

Described combined-voltage input end is connected with power supply integrated regulator by rectification circuit;

Described power supply integrated regulator, motor are connected with the first integrated chip respectively with Hall amplification circuit;

Described signal input part is connected with the first integrated chip by the first light coupling relay; Described first integrated chip is connected with signal input part by the second light coupling relay.

The beneficial effects of the utility model are: compared with traditional fan control circuitry, add signal input part, the first light coupling relay and the second light coupling relay, signal input part is connected with the first integrated chip by the first light coupling relay, realize chopper speed control input, the dutycycle of the first integrated chip foundation pulse adjusts the rotational velocity of motor, dutycycle is more high-speed faster, otherwise more low speed is slower for dutycycle, can be adjusted at full speed by stopping; First integrated chip is connected with signal input part by the second light coupling relay, realizes the parameters such as the rotational velocity of motor to send to signal input part, the signal sent by comparison signal input end and the signal of feedback, can realize detecting electrical fault.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of alternating direct-current fan control device of the present utility model;

Fig. 2 is the particular circuit configurations schematic diagram of a kind of alternating direct-current fan control device of the present utility model;

Fig. 3 is the another kind of particular circuit configurations schematic diagram of a kind of alternating direct-current fan control device of the present utility model;

Fig. 4 is the silicon steel plate coiling schematic diagram of 4 grooves of a kind of alternating direct-current fan control device of the present utility model;

Fig. 5 is the current direction schematic diagram of 4 grooves of a kind of alternating direct-current fan control device of the present utility model;

Label declaration:

10, combined-voltage input end; 20, rectification circuit; 30, power supply integrated regulator; 40, the first integrated chip; 50, Hall amplification circuit; 60, signal input part; 70, the first light coupling relay; 80, the second light coupling relay; 90, motor.

Embodiment

By describing technology contents of the present utility model in detail, realized object and effect, accompanying drawing is coordinated to be explained below in conjunction with mode of execution.

The design of the utility model most critical is: add signal input part, the first light coupling relay and the second light coupling relay, realizes chopper speed control input and detects electrical fault.

Please refer to Fig. 1, a kind of alternating direct-current fan control device that the utility model provides, comprises combined-voltage input end 10, rectification circuit 20, power supply integrated regulator 30, signal input part 60, first light coupling relay 70, first integrated chip 40, motor 90, Hall amplification circuit 50 and the second light coupling relay 80;

Described combined-voltage input end is connected with power supply integrated regulator by rectification circuit;

Described power supply integrated regulator, motor are connected with the first integrated chip respectively with Hall amplification circuit;

Described signal input part is connected with the first integrated chip by the first light coupling relay; Described first integrated chip is connected with signal input part by the second light coupling relay.

From foregoing description, the beneficial effects of the utility model are: compared with traditional fan control circuitry, add signal input part, the first light coupling relay and the second light coupling relay, signal input part is connected with the first integrated chip by the first light coupling relay, realize chopper speed control input, the dutycycle of the first integrated chip foundation pulse adjusts the rotational velocity of motor, and dutycycle is more high-speed faster, otherwise dutycycle more low speed is slower, can be adjusted at full speed by stopping; First integrated chip is connected with signal input part by the second light coupling relay, realizes the parameters such as the rotational velocity of motor to send to signal input part, the signal sent by comparison signal input end and the signal of feedback, can realize detecting electrical fault.

Further, the first resistance is also comprised;

Described first integrated chip comprises the first pin, the second pin, the 3rd pin, the 4th pin, the 5th pin, the 6th pin, the 7th pin, the 8th pin, the 9th pin, the tenth pin, the 11 pin, the 12 pin, the 13 pin and the 14 pin;

Described power supply integrated regulator is connected with the 3rd pin of the first integrated chip, is that the first integrated chip is powered;

Described signal input part comprises the first pin, the second pin, the 3rd pin, the 4th pin and the 5th pin;

First pin of described signal input part is connected with the negative input of the first light coupling relay;

Second pin of described signal input part is connected with the electrode input end of the first light coupling relay by described first resistance;

First output terminal of described first light coupling relay is connected with the 12 pin of the first integrated chip;

Second output head grounding of described first light coupling relay.

Seen from the above description, 12 pin of the first integrated chip is chopper speed control (PWM) input, it can accept the pulse signal of 20KHZ to 50KHZ, the dutycycle of the first integrated chip foundation pulse signal adjusts the rotational velocity of motor, the higher rotational velocity of dutycycle is faster, otherwise the lower rotational velocity of dutycycle is slower, can be adjusted at full speed by stopping.

Further, described Hall amplification circuit comprises the first pin, the second pin, the 3rd pin and the 4th pin;

First pin of described Hall amplification circuit is connected with the 4th pin of the first integrated chip;

Second pin of described Hall amplification circuit is connected with the 5th pin of the first integrated chip;

3rd pin of described Hall amplification circuit is connected with the 6th pin of the first integrated chip;

4th pin ground connection of described Hall amplification circuit.

Seen from the above description, existing alternating direct-current fan generally all uses Hall IC to export as logic, and output terminal is not high level, is exactly low level.And the Hall amplification circuit that the utility model provides uses modulating output, be the modulating output of a magnetic field power, export more accurate.It also has an advantage to be can realize magnetic field to convert in conjunction with software and hardware compensating the retard time that logic exports.

Further, the second resistance is also comprised;

Described power supply integrated regulator is connected with the electrode input end of the second light coupling relay by described second resistance;

7th pin of described first integrated chip is connected with the negative input of the second light coupling relay;

First output terminal of described second light coupling relay is connected with the 3rd pin of signal input part;

Second output terminal of described second light coupling relay is connected with the first pin of signal input part.

Seen from the above description, by above-mentioned annexation, the signal feed back between the first integrated chip and signal input part can be realized.

Further, described motor comprises first input end, the second input end and power end;

Second pin of described first integrated chip is connected with the first input end of motor;

13 pin of described first integrated chip is connected with the second input end of motor;

Described rectification circuit is connected with power end.

Seen from the above description, the second pin and the 13 pin of the first integrated chip provide signal to motor, and combined-voltage input end is powered to power end by the voltage obtained after rectification circuit, realizes motor rotation.

Further, the 5th diode and the 6th resistance is also comprised;

Described motor comprises first input end, the second input end and power end;

Second pin of described first integrated chip is connected with the first input end of motor;

13 pin of described first integrated chip is connected with the second input end of motor;

Described power end is connected with the negative pole of the 5th diode by the 6th resistance; The plus earth of described 5th diode.

Seen from the above description, 5th diode plays pressure stabilization function in foregoing circuit linkage structure, 6th resistance plays hypotensive effect in foregoing circuit linkage structure, and the DC electrical source DC48V that power supply integrated regulator can be realized to provide obtains required DC electrical source DC15V by the 5th diode and the 6th resistance.

Further, the 3rd resistance and the first electric capacity is also comprised;

4th pin of described signal input part is connected with the 11 pin of described first integrated chip;

4th pin of described signal input part is by described first capacity earth;

5th pin of described signal input part is connected with the 9th pin of described first integrated chip;

5th pin of described signal input part is by described 3rd resistance eutral grounding.

Seen from the above description, when the 12 pin of Puled input first integrated chip is unchanged, the voltage by the 9th pin of the first integrated chip adjusts the rotational velocity of motor, and voltage is more high-speed faster, otherwise voltage more low speed is slower, can be adjusted at full speed by stopping.

Further, described rectification circuit comprises the first diode and the second electric capacity; Described combined-voltage input end comprises electrode input end and negative input;

The electrode input end of described combined-voltage input end is connected with the positive pole of the first diode; The negative pole of described first diode is connected with power supply integrated regulator; The negative pole of described first diode is connected with the negative input of described combined-voltage input end by the second electric capacity.

Seen from the above description, the second electric capacity can be coordinated again to be diminished by the ripple of direct current for about DC155V direct current by whole for the Ac of 220V by the first diode.

Further, described power supply integrated regulator comprises driving chip, the 4th resistance, the 5th resistance, the 3rd electric capacity, the 4th electric capacity, the 5th electric capacity, the 6th electric capacity, the 7th electric capacity, the second diode, the 3rd diode, the 4th diode, the first inductance and the second inductance;

Described driving chip comprises the first pin, the second pin, the 3rd pin, the 4th pin, the 5th pin, the 6th pin, the 7th pin and the 8th pin;

First pin of described driving chip is connected with the 8th pin of described driving chip by the 4th resistance;

7th pin of described driving chip is connected with the 8th pin of described driving chip;

8th pin of described driving chip is connected with described rectification circuit;

Second pin of described driving chip is connected with the 3rd pin of described driving chip by the 3rd electric capacity;

Second pin of described driving chip is connected with the 3rd pin of described driving chip by the 4th electric capacity;

4th pin of described driving chip is connected with the 3rd pin of described driving chip by the 5th electric capacity;

5th pin of described driving chip is connected with the 3rd pin of described driving chip by the 5th resistance;

3rd pin of described driving chip is connected with the negative pole of the 4th diode;

The plus earth of described 4th diode;

Second pin of described driving chip is connected with the positive pole of the second diode; The negative pole of described second diode is connected with the negative pole of the 3rd diode; Six electric capacity, seven capacity earth of positive pole by being connected in parallel of described 3rd diode;

5th pin of described driving chip is successively by the first inductance, the second inductance and the 6th electric capacity be connected in parallel, the 7th capacity earth.

Seen from the above description, by foregoing circuit Placement, required DC electrical source DC15V can be obtained by DC155V direct current through foregoing circuit.

Further, the 8th electric capacity is also comprised; Described power supply integrated regulator is by the 8th capacity earth.

Seen from the above description, the 8th electric capacity plays filter action.

Please refer to Fig. 1-5, embodiment one of the present utility model is:

A kind of alternating direct-current fan control device that the utility model provides, comprises combined-voltage input end, rectification circuit, power supply integrated regulator, signal input part, the first light coupling relay, the first integrated chip, motor, Hall amplification circuit and the second light coupling relay;

Described combined-voltage input end is connected with power supply integrated regulator by rectification circuit;

Described power supply integrated regulator, motor are connected with the first integrated chip respectively with Hall amplification circuit;

Described signal input part is connected with the first integrated chip by the first light coupling relay; Described first integrated chip is connected with signal input part by the second light coupling relay.

As shown in Figure 2, described combined-voltage input end comprises electrode input end (AC_L) and negative input (AC_N), exchanges or VDC for inputting 220V.The voltage of input is through breaking piece (F1, parameter is 500MA/250V) and between the electrode input end and negative input of combined-voltage input end, access resistance (R3, model is 07D471K) connect rectification circuit afterwards; Wherein breaking piece plays the effect of safety fuse cutout.

Described rectification circuit comprises the first diode (D3, model is IN4007) and the second electric capacity (C6, parameter is 400V/6.8 μ F); The electrode input end of described combined-voltage input end is connected with the positive pole of the first diode; The negative pole of described first diode is connected with power supply integrated regulator; The negative pole of described first diode is connected with the negative input of described combined-voltage input end by the second electric capacity.The second electric capacity can be coordinated again to be diminished by the ripple of direct current for about DC155V direct current by whole for the Ac of 220V by the first diode.

Obtain DC155V direct current through rectification circuit and pass into power supply integrated regulator;

Described power supply integrated regulator comprises driving chip (U3), 4th resistance (R1, resistance is 2.4M, model is 1206), 5th resistance (R2, 0.75R, model is 1206), 3rd electric capacity (C1, 25V/10 μ F), 4th electric capacity (C2, 25V/10 μ F), 5th electric capacity (C3, 50V/103pF), 6th electric capacity (C4, 16V/220 μ F), 7th electric capacity (C5, 16V/104pF), second diode (D1, 2.1V/1/2W), 3rd diode (D2, FR107), 4th diode (D4, UF407), first inductance (L1, 470 μ H) and the second inductance (L2, 470 μ H),

Described driving chip comprises the first pin, the second pin, the 3rd pin, the 4th pin, the 5th pin, the 6th pin, the 7th pin and the 8th pin; It should be noted that: it is the pin of 1 that the first pin of described driving chip is U3 chip label in figure, and other pins by that analogy.

First pin of described driving chip is connected with the 8th pin of described driving chip by the 4th resistance;

7th pin of described driving chip is connected with the 8th pin of described driving chip;

8th pin of described driving chip is connected with described rectification circuit;

Second pin of described driving chip is connected with the 3rd pin of described driving chip by the 3rd electric capacity;

Second pin of described driving chip is connected with the 3rd pin of described driving chip by the 4th electric capacity;

4th pin of described driving chip is connected with the 3rd pin of described driving chip by the 5th electric capacity;

5th pin of described driving chip is connected with the 3rd pin of described driving chip by the 5th resistance;

3rd pin of described driving chip is connected with the negative pole of the 4th diode;

The plus earth of described 4th diode;

Second pin of described driving chip is connected with the positive pole of the second diode; The negative pole of described second diode is connected with the negative pole of the 3rd diode; Six electric capacity, seven capacity earth of positive pole by being connected in parallel of described 3rd diode;

5th pin of described driving chip is successively by the first inductance, the second inductance and the 6th electric capacity be connected in parallel, the 7th capacity earth.

By foregoing circuit Placement, required DC electrical source DC15V can be obtained by DC155V direct current through foregoing circuit.

Described first integrated chip (U1, SJ1503) comprises the first pin, the second pin, the 3rd pin, the 4th pin, the 5th pin, the 6th pin, the 7th pin, the 8th pin, the 9th pin, the tenth pin, the 11 pin, the 12 pin, the 13 pin and the 14 pin; It should be noted that: it is the pin of 1 that the first pin of described first integrated chip is U1 chip label in figure, and other pins by that analogy.

Described power supply integrated regulator is connected with the 3rd pin of the first integrated chip, is that the first integrated chip is powered;

Described signal input part (P1) comprises the first pin, the second pin, the 3rd pin, the 4th pin and the 5th pin; It should be noted that: it is the pin of 1 that the first pin of described signal input part is P1 label in figure, and other pins by that analogy.

First pin of described signal input part is connected with the negative input of the first light coupling relay (U2);

Second pin of described signal input part is connected with the electrode input end of the first light coupling relay (U2) by described first resistance (R4,1K/0605);

First output terminal of described first light coupling relay (U2) and the 12 pin of the first integrated chip (U1, SJ1503) connect;

Second output head grounding of described first light coupling relay (U2).

12 pin of described first integrated chip is chopper speed control (PWM) input, it can accept the pulse signal of 20KHZ to 50KHZ, the dutycycle of the first integrated chip foundation pulse signal adjusts the rotational velocity of motor, the higher rotational velocity of dutycycle is faster, otherwise the lower rotational velocity of dutycycle is slower, can be adjusted at full speed by stopping.

If fan is less, do not need DC155V high pressure, a kind of mode is in addition: can obtain required DC electrical source DC48V by above-mentioned power supply integrated regulator equally.

As shown in Figure 3, described alternating direct-current fan control device also comprises the 5th diode (D5) and the 6th resistance (R5,1K/0605);

Described motor comprises first input end, the second input end and power end;

Second pin of described first integrated chip is connected with the first input end of motor;

13 pin of described first integrated chip is connected with the second input end of motor;

Described power end is connected with the negative pole of the 5th diode by the 6th resistance; The plus earth of described 5th diode.

Described 5th diode plays pressure stabilization function in foregoing circuit linkage structure, 6th resistance plays hypotensive effect in foregoing circuit linkage structure, and the DC electrical source DC48V that power supply integrated regulator can be realized to provide obtains required DC electrical source DC15V by the 5th diode and the 6th resistance.

Described alternating direct-current fan control device also comprises the 3rd resistance (R7,3K/0605) and the first electric capacity (C8,6.3V/10 μ F);

4th pin of described signal input part is connected with the 11 pin of described first integrated chip;

4th pin of described signal input part is by described first capacity earth;

5th pin of described signal input part is connected with the 9th pin of described first integrated chip;

5th pin of described signal input part is by described 3rd resistance eutral grounding.

When the 12 pin of Puled input first integrated chip is unchanged, the voltage by the 9th pin of the first integrated chip adjusts the rotational velocity of motor, and voltage is more high-speed faster, otherwise more low speed is slower for voltage, can be adjusted at full speed by stopping.

The stator coil of motor has two kinds of conventional patterns, and the silicon steel plate of one to be single-phase alternation be 4 grooves, according to the coiling of Fig. 4 mode, magnetic field can be produced when coiling has voltage, have the two like magnetic poles repel each other phenomenon that there is a natural attraction between the sexes with the magnet of rotor, make rotor turns, and then drive electric fan.Fig. 5 is the current direction schematic diagram of 4 grooves.Another type is the silicon steel plate of 9 grooves, can produce magnetic field when coiling has voltage, has the two like magnetic poles repel each other phenomenon that there is a natural attraction between the sexes, make rotor turns with the magnet of rotor, and then drives electric fan.

The rotor of motor is taked to turn mode outward, and rotor is combined by flabellum, iron-clad and magnetic stripe.Be fixed on by flabellum outside iron-clad, magnetic stripe is close within iron-clad, and magnetic stripe can be changed into 2 pairs of NS poles (4 groove), 3 pairs of NS poles (9 groove) and 4 pairs of NS poles (9 groove) through magnetizing.

Rectification circuit by whole for Ac be direct current, switch to the quick square wave of DC to the blow-up set subcoil of motor fast through power supply integrated regulator and the first integrated chip (U1) and Hall amplification circuit (HW1) again, to produce the magnetic that NS level constantly changes, the two like magnetic poles repel each other phenomenon that there is a natural attraction between the sexes is had with the epitrochanterian NS level magnet of motor, make rotor turns, and then drive electric fan.

Described Hall amplification circuit (HW1) comprises the first pin, the second pin, the 3rd pin and the 4th pin; It should be noted that: the label that the first pin of described Hall amplification circuit is HW1 in figure is the pin of 1, and other pins by that analogy.

First pin of described Hall amplification circuit is connected with the 4th pin of the first integrated chip;

Second pin of described Hall amplification circuit is connected with the 5th pin of the first integrated chip;

3rd pin of described Hall amplification circuit is connected with the 6th pin of the first integrated chip;

4th pin ground connection of described Hall amplification circuit.

Existing alternating direct-current fan generally all uses Hall IC to export as logic, and output terminal is not high level, is exactly low level.And the Hall amplification circuit that the utility model provides uses modulating output, be the modulating output of a magnetic field power, export more accurate.It also has an advantage to be can realize magnetic field to convert in conjunction with software and hardware compensating the retard time that logic exports.

First the first integrated chip gives its second pin positive electricity, gives its 13 pin negative electricity, and the blow-up set subcoil Vertical direction making motor is N level, substantially horizontal is S level, have the two like magnetic poles repel each other phenomenon that there is a natural attraction between the sexes with the magnet of rotor, make rotor turns, and then drive electric fan.By the time Hall amplification circuit detects rotor and has turned 90 degree, first integrated chip will change to its second pin negative electricity, to its 13 pin positive electricity, the blow-up set subcoil Vertical direction making motor is S level, substantially horizontal is N level, have the two like magnetic poles repel each other phenomenon that there is a natural attraction between the sexes with the magnet of rotor, make rotor turns, and then drive electric fan.The rotor change that first integrated chip can detect according to Hall amplification circuit, the constantly level of change the second pin and the 13 pin, fan will operate always.This device has a feature to be that after the velocity-stabilization of running, the first integrated chip can make change in polarity in advance, with the delay compensation that interpretation Hall IC is responded to when after running a period of time.

Some application not only needs air draft also to need air draught, therefore the selection of the tenth pin through the first integrated chip, chopper speed control (PWM) function and adjusting velocity by voltage function can be rotate forward at full speed to reversing (when the tenth pin of the first integrated chip is high petential) or stopping at full speed to rotating forward at full speed (when the tenth pin of the first integrated chip is low potential), two kinds of selections.

Described alternating direct-current fan control device also comprises the 8th electric capacity (C7,16V/10 μ F); Described power supply integrated regulator is by the 8th capacity earth.8th electric capacity plays filter action.

Described alternating direct-current fan control device also comprises the second resistance (R6,1K/0605);

Described power supply integrated regulator is connected with the electrode input end of the second light coupling relay by described second resistance;

7th pin of described first integrated chip is connected with the negative input of the second light coupling relay;

First output terminal of described second light coupling relay is connected with the 3rd pin of signal input part;

Second output terminal of described second light coupling relay is connected with the first pin of signal input part.

By above-mentioned annexation, the signal feed back between the first integrated chip and signal input part can be realized.

In sum, a kind of alternating direct-current fan control device that the utility model provides, compared with traditional fan control circuitry, add signal input part, the first light coupling relay and the second light coupling relay, signal input part is connected with the first integrated chip by the first light coupling relay, realizes chopper speed control input, the dutycycle of the first integrated chip foundation pulse adjusts the rotational velocity of motor, dutycycle is more high-speed faster, otherwise more low speed is slower for dutycycle, can be adjusted at full speed by stopping; First integrated chip is connected with signal input part by the second light coupling relay, realizes the parameters such as the rotational velocity of motor to send to signal input part, the signal sent by comparison signal input end and the signal of feedback, can realize detecting electrical fault.The alternating direct-current fan control device that the utility model provides can utilize selection of speed mode and speed-regulating function can from rotating forward at full speed to reversion at full speed, and same fan does not need to change to be installed, and just can realize air draft or air draught.In the alternating direct-current fan control device that the utility model provides, all circuit thickness are through sophisticated design, can be hidden into fan inside, not affect installation.Alternating direct-current fan control device and motor use same power supply need not increase circuit and can use, and improve the practicability of this device.This device not only has the advantage and DC fan that ac fan cost again easy for installation is low, the high benefit quiet again of efficiency, cause the first integrated chip is a special motor single-chip microcomputer, each circulation has a FG signal to export (the 7th pin of the first integrated chip exports), with the running speed that other these devices of device of accusing are current when in place.When running speed is than when setting slow or fast, there is a FG signal output can control the second smooth lotus root relay conducting to notify other devices or alarm buzzer, illustrate that this device occurs abnormal.

The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every equivalents utilizing the utility model specification and accompanying drawing content to do; or be directly or indirectly used in relevant technical field, be all in like manner included in scope of patent protection of the present utility model.

Claims (10)

1. an alternating direct-current fan control device, it is characterized in that, comprise combined-voltage input end, rectification circuit, power supply integrated regulator, signal input part, the first light coupling relay, the first integrated chip, motor, Hall amplification circuit and the second light coupling relay;

Described combined-voltage input end is connected with power supply integrated regulator by rectification circuit;

Described power supply integrated regulator, motor are connected with the first integrated chip respectively with Hall amplification circuit;

Described signal input part is connected with the first integrated chip by the first light coupling relay; Described first integrated chip is connected with signal input part by the second light coupling relay.

2. a kind of alternating direct-current fan control device according to claim 1, is characterized in that, also comprise the first resistance;

Described first integrated chip comprises the first pin, the second pin, the 3rd pin, the 4th pin, the 5th pin, the 6th pin, the 7th pin, the 8th pin, the 9th pin, the tenth pin, the 11 pin, the 12 pin, the 13 pin and the 14 pin;

Described power supply integrated regulator is connected with the 3rd pin of the first integrated chip, is that the first integrated chip is powered;

Described signal input part comprises the first pin, the second pin, the 3rd pin, the 4th pin and the 5th pin;

First pin of described signal input part is connected with the negative input of the first light coupling relay;

Second pin of described signal input part is connected with the electrode input end of the first light coupling relay by described first resistance;

First output terminal of described first light coupling relay is connected with the 12 pin of the first integrated chip;

Second output head grounding of described first light coupling relay.

3. a kind of alternating direct-current fan control device according to claim 2, is characterized in that, described Hall amplification circuit comprises the first pin, the second pin, the 3rd pin and the 4th pin;

First pin of described Hall amplification circuit is connected with the 4th pin of the first integrated chip;

Second pin of described Hall amplification circuit is connected with the 5th pin of the first integrated chip;

3rd pin of described Hall amplification circuit is connected with the 6th pin of the first integrated chip;

4th pin ground connection of described Hall amplification circuit.

4. a kind of alternating direct-current fan control device according to claim 2, is characterized in that, also comprise the second resistance;

Described power supply integrated regulator is connected with the electrode input end of the second light coupling relay by described second resistance;

7th pin of described first integrated chip is connected with the negative input of the second light coupling relay;

First output terminal of described second light coupling relay is connected with the 3rd pin of signal input part;

Second output terminal of described second light coupling relay is connected with the first pin of signal input part.

5. a kind of alternating direct-current fan control device according to claim 2, is characterized in that, described motor comprises first input end, the second input end and power end;

Second pin of described first integrated chip is connected with the first input end of motor;

13 pin of described first integrated chip is connected with the second input end of motor;

Described rectification circuit is connected with power end.

6. a kind of alternating direct-current fan control device according to claim 2, is characterized in that, also comprises the 5th diode and the 6th resistance;

Described motor comprises first input end, the second input end and power end;

Second pin of described first integrated chip is connected with the first input end of motor;

13 pin of described first integrated chip is connected with the second input end of motor;

Described power end is connected with the negative pole of the 5th diode by the 6th resistance; The plus earth of described 5th diode.

7. a kind of alternating direct-current fan control device according to claim 2, is characterized in that, also comprises the 3rd resistance and the first electric capacity;

4th pin of described signal input part is connected with the 11 pin of described first integrated chip;

4th pin of described signal input part is by described first capacity earth;

5th pin of described signal input part is connected with the 9th pin of described first integrated chip;

5th pin of described signal input part is by described 3rd resistance eutral grounding.

8. a kind of alternating direct-current fan control device according to claim 2, is characterized in that, described rectification circuit comprises the first diode and the second electric capacity; Described combined-voltage input end comprises electrode input end and negative input;

The electrode input end of described combined-voltage input end is connected with the positive pole of the first diode; The negative pole of described first diode is connected with power supply integrated regulator; The negative pole of described first diode is connected with the negative input of described combined-voltage input end by the second electric capacity.

9. a kind of alternating direct-current fan control device according to claim 2, it is characterized in that, described power supply integrated regulator comprises driving chip, the 4th resistance, the 5th resistance, the 3rd electric capacity, the 4th electric capacity, the 5th electric capacity, the 6th electric capacity, the 7th electric capacity, the second diode, the 3rd diode, the 4th diode, the first inductance and the second inductance;

Described driving chip comprises the first pin, the second pin, the 3rd pin, the 4th pin, the 5th pin, the 6th pin, the 7th pin and the 8th pin;

First pin of described driving chip is connected with the 8th pin of described driving chip by the 4th resistance;

7th pin of described driving chip is connected with the 8th pin of described driving chip;

8th pin of described driving chip is connected with described rectification circuit;

Second pin of described driving chip is connected with the 3rd pin of described driving chip by the 3rd electric capacity;

Second pin of described driving chip is connected with the 3rd pin of described driving chip by the 4th electric capacity;

4th pin of described driving chip is connected with the 3rd pin of described driving chip by the 5th electric capacity;

5th pin of described driving chip is connected with the 3rd pin of described driving chip by the 5th resistance;

3rd pin of described driving chip is connected with the negative pole of the 4th diode;

The plus earth of described 4th diode;

Second pin of described driving chip is connected with the positive pole of the second diode; The negative pole of described second diode is connected with the negative pole of the 3rd diode; Six electric capacity, seven capacity earth of positive pole by being connected in parallel of described 3rd diode;

5th pin of described driving chip is successively by the first inductance, the second inductance and the 6th electric capacity be connected in parallel, the 7th capacity earth.

10. a kind of alternating direct-current fan control device according to claim 2, is characterized in that, also comprises the 8th electric capacity; Described power supply integrated regulator is by the 8th capacity earth.