CN1815861A - Induction less brush-less DC. motor and fan with same - Google Patents

Induction less brush-less DC. motor and fan with same Download PDF

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Publication number
CN1815861A
CN1815861A CN 200510033206 CN200510033206A CN1815861A CN 1815861 A CN1815861 A CN 1815861A CN 200510033206 CN200510033206 CN 200510033206 CN 200510033206 A CN200510033206 A CN 200510033206A CN 1815861 A CN1815861 A CN 1815861A
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China
Prior art keywords
stator
fan
motor
coil
induction
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CN 200510033206
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CN100499323C (en
Inventor
王为彬
施文章
黄晋兴
洪健隆
王琼媚
陈志荣
黄祥河
林焕超
白先声
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Fuzhun Precision Industry Shenzhen Co Ltd
Hon Hai Precision Industry Co Ltd
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Fuzhun Precision Industry Shenzhen Co Ltd
Hon Hai Precision Industry Co Ltd
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Priority to CNB2005100332065A priority Critical patent/CN100499323C/en
Publication of CN1815861A publication Critical patent/CN1815861A/en
Application granted granted Critical
Publication of CN100499323C publication Critical patent/CN100499323C/en
Expired - Fee Related legal-status Critical Current
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  • Brushless Motors (AREA)

Abstract

The DC motor is composed of a stator, a motor, and drive control circuit in use for driving and controlling motor. The stator includes a stator core, and stator coil placed on the stator core. The stator coil is connected to the drive control circuit in electrically. The rotor includes a permanent magnet. Further, an induction coil is setup on the stator core. The induction coil is connected to the drive control circuit electrically. Being able to output induction signal alternant between positive going and negative going, the induction coil can replace Hall sensor completely, and can be cooperated with the drive control circuit.

Description

Induction less brush-less d.c. motor and adopt the fan of this motor
[technical field]
The present invention relates to Brushless DC motor, refer to a kind of induction less brush-less d.c. motor of position-sensor-free especially and adopt the fan of this motor.
[background technology]
Fig. 1 is the cutaway view of a common brushless DC fan.This brushless DC fan mainly comprises a stator 1 and rotor 2.Stator 1 roughly comprises the silicon steel sheet 10 that majority stacks together, circle is provided with motor driving control circuit around the stator coil 12 and on the silicon steel sheet 10 circuit board 14.This rotor 2 comprises an impeller 20 and is located at the annular magnetic stripe 22 of impeller 20 inside.One position detecting element 15 is installed on this circuit board 14, is used for the position of detecting rotor 2 when rotor 2 rotations, this position detecting element 15 is a hall sensor (Hall Sensor) usually.
Please consult Fig. 1 and 2 together, silicon steel sheet 10 has four polar arms 11, and these stator coil 12 circles are around on these polar arms 11, and draw two terminals OUT1 and OUT2.These two terminals OUT1, OUT2 are electrically connected in the circuit of circuit board 14, so that stator coil 12 is powered, make stator coil 12 produce magnetic field, thereby the magnetic field magnetic attraction of magnetic field that this stator coil 12 produces and permanent magnet 22 and repulsive interaction promote rotor 2 rotations.The position of this hall sensor 15 is over against the position of magnetic stripe 22.
This magnetic stripe 22 along the circumferential direction is magnetized to most alternating N, the S utmost point.For stator coil 12, the magnetic direction of the rotor 2 in the rotation is alternately property conversion.For utilizing magnetic attraction and repulsive force to continue to promote rotor 2 rotations, the magnetic field that stator coil 12 produces also should be followed the magnetic field conversion of rotor 2 and be done alternately property variation.For making electronic coil 12 produce the magnetic field of this replacing property conversion, the sense of current that flows through stator coil 12 promptly should be done alternately property conversion, and this process is called the commutation of motor.
Please continue to consult together Fig. 3, this hall sensor 15 and this Drive and Control Circuit are finished the task of this commutation.This hall sensor 15 is the position of inductiopn rotor 2 on direction of rotation at first, and when the N utmost point that detects magnetic stripe 22 or the S utmost point arrived, this hall sensor 15 sent signal to Drive and Control Circuit, makes the sense of current of this Drive and Control Circuit conversion stator coil 12.
See also Fig. 4, hall sensor 15 is by the position of inductiopn rotor 2, and output signal is a sine voltage control signal, has the output of forward alternately and negative voltage.Under the excitation of forward voltage signal, this Drive and Control Circuit exportable flows through the electric current of a kind of direction of electronic coil 12, under the excitation of negative voltage signal, and the exportable another kind of rightabout electric current that flows through electronic coil 12 of this Drive and Control Circuit.Therefore, under the control of the voltage control signal of this hall sensor 15, this Drive and Control Circuit can realize the commutation of motor.
Though use hall sensor 15 can realize the commutation of motor, hall sensor 15 also causes restriction to the development of motor in some aspects.Position for the accurate inductiopn rotor 2 of energy, hall sensor 15 need accurately be installed and be positioned on the circuit board 14, but for complying with the compact day by day trend of electronic product, motor has to make more and more forr a short time, seeks the appropriate location installation in narrow and small motor inner space and locate this hall sensor 15 also to become more and more difficult.
In addition, for fan, circuit board 14 is arranged on the gas channel of fan especially, and it can cause negative effect to the air quantity and the blast of fan inevitably.For seeking desirable air quantity and blast, this circuit board 14 preferably can avoid being arranged on fan inside.Yet, make this circuit board 14 must be installed in fan inside because this hall sensor 15 must be arranged at the position corresponding with rotor 2.
And this hall sensor 15 has certain operating temperature range, generally can not surpass 150 degrees centigrade, therefore adopts the motor of this hall sensor 15 to use in many high temperature occasions.
In view of the restriction of above hall sensor, industry is also developed the brushless motor (induction less brush-less d.c. motor) that does not adopt hall sensor.Most representative a kind of be that (Back Electromotive Force, BEMF) signal comes the controlling and driving control circuit, thereby realizes the commutation of electric current for the back electromotive force that utilizes stator coil.As by using the chip ML4410 and the ML4411 of the exploitation of Micro Liner company, for driving, the induction less brush-less d.c. motor provides controller, motor drive circuit is operated.In addition, in No. the 4928043rd, United States Patent (USP), use a kind of phase-locked loop phase locked track back electromotive force, finish position detecting rotor.
Yet above various ways all needs to redesign new motor driving control circuit, will increase the circuit design cost of motor undoubtedly.
In view of this, the dealer expects to develop a kind of d.c. motor of induction less brush-less cheaply always.
[summary of the invention]
Technical problem to be solved by this invention is: existing induction less brush-less d.c. motor utilizes chip or utilizes phase-locked loop phase locked track back electromotive force, all make the induction less brush-less d.c. motor need redesign Drive and Control Circuit, make the motors designs cost high relatively.
For solving the problems of the technologies described above, induction less brush-less d.c. motor of the present invention comprises a stator, rotor and is used for the Drive and Control Circuit of this motor of drive controlling, this stator comprises that certain son is unshakable in one's determination and is arranged at stator coil and induction coil in this stator core, this stator coil and induction coil and this Drive and Control Circuit electrically connect, this rotor comprises a permanent magnet, when this permanent magnet rotation, the induced voltage that this induction coil generation forward and negative sense replace is also imported this induced voltage in this Drive and Control Circuit, to switch the sense of current of this stator coil.
In the motor of the present invention, because the signal of the induced voltage that induction coil produces, the function that can replace traditional Hall element fully, and do not need to redesign Drive and Control Circuit, compared to utilizing back electromotive force detecting rotor-position, the present invention can obviously reduce again the cost that circuit design produces.
[description of drawings]
Fig. 1 is a kind of profile of existing fan.
Fig. 2 is the vertical view of existing fan motor.
Fig. 3 is the drive circuit block diagram of existing fan motor.
Fig. 4 is the output signal and the stator coil electric current contrast oscillogram of existing Hall element.
Fig. 5 is the vertical view of fan motor of the present invention.
Fig. 6 is the partial enlarged drawing of Fig. 5.
Fig. 7 is the output signal and the stator coil electric current contrast oscillogram of induction coil of the present invention.
Fig. 8 is the basic framework schematic diagram of fan of the present invention.
Fig. 9 is the partial schematic diagram of the fan motor of another embodiment of the present invention.
[embodiment]
Design starting point of the present invention is to wish under the situation that does not change traditional Brushless DC motor circuit design, and a kind of device that can detect rotor-position of design in motor configuration utilizes this device to replace hall sensor in the conventional motor.For making this device can cooperate the Drive and Control Circuit of traditional Brushless DC motor, this device needs and can in time export control signal according to the running of rotor, thereby makes this Drive and Control Circuit reach the function of conversion electric current.
With reference to the accompanying drawings, the invention will be further described in conjunction with the embodiments.
Fig. 5 is the vertical view of subelement with induction less brush-less d.c. motor of feature of the present invention.This induction less brush-less d.c. motor (calling [motor] in the following text) comprises that one has the silicon steel sheet group 30 of four polar arms 32, circle is wound with stator coil 34 on these polar arms 32, this stator coil 34 has two connector lug OUT1, OUT2, these two connector lug OUT1, OUT2 are electrically connected in the circuit board (figure does not show), utilize the circuit supply of this circuit board, this stator coil 34 can produce magnetic field.These stator coil 34 peripheries are provided with an annular magnetic stripe 40, along circumferentially being become a plurality of N utmost points and the S utmost point by alternating magnetization.The magnetic field that these stator coil 34 energisings produce and the magnetic field magnetic action of this magnetic stripe, and impel this magnetic stripe 40 rotations.This magnetic stripe 40 is used for engaging common formation one motor rotor with the object of other desire rotation, as the load carrier of electric fan, disk or CD etc.When magnetic stripe 40 is pushed, thereby this electric fan rotates thereupon and produces air-flow, and perhaps the load carrier of this disk, CD rotates thereupon and then drives disk or CD rotation.
Position for the detecting rotor, this motor is provided with an induction coil 50 on one of them polar arm 32, this induction coil 50 has two connector lug L1, L2, and these two connector lug L1, L2 are connected with the Drive and Control Circuit of circuit board, and the output control signal is controlled this Drive and Control Circuit.
Please consult Fig. 6 and Fig. 7 together, introduce the operation principle of this induction coil 50 below.
Fig. 6 is the partial enlarged drawing of motor configuration.Circle is wound with two kinds of coils on this polar arm 32, and a kind of is to be used to switch on produce the stator coil 34 in magnetic field, and another kind is this induction coil 50.
Fig. 6 shows the situation when the N utmost point arrives, and this induction coil 50 produces induced electromotive force under the effect in the magnetic field of this magnetic stripe 40:
e=N*dΦ/dt
Wherein, N represents the number of turns of induction coil 50, and d Φ/dt represents the variation rate of magnetic flux that passes induction coil 50 of magnetic stripe 40.
Therefore, when induction coil 50 number of turns are many more, magnetic stripe 40 rotating speeds are fast more, and the induced electromotive force that is produced is big more, otherwise more little.
Faradic direction in this induction coil 50 is shown in the arrow on the induction coil among the figure 50.
When the S of magnetic stripe 40 utmost point arrives, this induction coil 50 will produce the opposite induced electromotive force of a direction, induced current in the coil also on the contrary as can be seen from Figure, induction coil 50 can be according to the change in location of the N utmost point and the S utmost point of magnetic stripe 40, the forward and the negative voltage of output alternate, therefore, existing Drive and Control Circuit need not to redesign and can be used with this induction coil 50.
It may be noted that in the induced electromotive force waveform of this induction coil 50 outputs shown in the circle A part of Fig. 7, the voltage signal jumping phenomena of appearance is the magnetic line of force of magnetic stripe 40 and the coefficient result of the magnetic line of force of silicon steel sheet group 30.Specify as follows: when the N utmost point arrives, the N utmost point magnetic line of force and induction coil 50 will produce e according to Faraday's law (Faraday ' s Law) 1=N*d Φ/dt, and after the N utmost point passes through when the S utmost point arrives, will produce the voltage that stops flux change, i.e. an e according to Lenz's law (Lenz ' s Law) induction coil 50 2=-N*d Φ/dt, so when the N pole-change becomes the S utmost point or S pole-change to become the N utmost point, the induced voltage of induction coil 50:
e=e 1-e 2=(N*dΦ/dt)-(-N*dΦ/dt)=2N*dΦ/dt
From following formula as can be known, the N pole-change becomes the S utmost point or S pole-change to become the N utmost point in a flash, and the induced voltage of induction coil 50 is 2 times with saltus step.And this kind phenomenon is a transient state, so produce the voltage jump situation as the circle A part of Fig. 7.But in this motor, this induced electromotive force signal mainly is to be used as a kind of control signal to use, as long as it can export the waveform that forward and negative voltage replace, beats and also can not impact motor even this kind voltage signal occurs.
The concrete course of work of this motor is: when the N utmost point arrives, and induction coil 50 output forward voltages, Drive and Control Circuit is exported a kind of drive current that flows through stator coil 34 of direction; When the S utmost point arrives, induction coil 50 output negative voltage, Drive and Control Circuit is exported a rightabout drive current that flows through stator coil 34.In other words, when magnetic stripe 40 in rotation process, induction coil 50 can detect the position of the N utmost point and the S utmost point of magnetic stripe 40, and can be according to the direction of the change in location conversion drive current of this N utmost point and the S utmost point.
By above-mentioned introduction as can be known, this induction coil 50 can replace existing hall sensor fully, and does not need existing Drive and Control Circuit is redesigned.
Seeing also Fig. 8, is the fan structure schematic diagram of this motor of employing.This fan comprises that a fan frame 60, is positioned at stator 70 and the rotor 80 of a winding around stator 70 in the fan frame 60.Owing to need not to be provided with position detecing element such as hall sensor, the circuit board 75 that therefore is provided with the fans drive control circuit can break away from this stator 70 and is arranged at this fan frame 60 outsides.Therefore, the present invention can eliminate the negative effect of circuit board to air quantity of fan and blast fully, and the height of fan also is minimized.Even, for increasing the elasticity of motor function design, this fans drive control circuit can be integrated in other external system circuit, as when being applied to computer to dissipate heat, this fans drive control circuit can be integrated in the computer main frame panel, thereby can utilize central processing unit accurately to control the running status of fan.
In the above-mentioned execution mode, induction coil 50 is that circle is on any polar arm 32.Also induction coil 50 can be located on 32 arms of being set up 90 of two adjacent polar arms.As shown in Figure 9, still can reach above-mentioned function and advantage.
More than be to be that example is introduced motor of the present invention with the fan, be appreciated that this motor also can be used for hard disk, in the information products such as CD-ROM drive.

Claims (10)

1. induction less brush-less d.c. motor, the Drive and Control Circuit that it comprises a stator, rotor and is used for this motor of drive controlling, this stator comprises that certain son is unshakable in one's determination and is arranged at stator coil in this stator core, this stator coil and this Drive and Control Circuit electrically connect, this rotor comprises a permanent magnet, it is characterized in that: this stator is further established an induction coil in this stator core, and this induction coil and this Drive and Control Circuit electrically connect.
2. induction less brush-less d.c. motor as claimed in claim 1 is characterized in that: this stator core has several polar arms, and this stator coil circle is around on the described polar arm, and this induction coil circle is around on wherein any polar arm.
3. induction less brush-less d.c. motor as claimed in claim 1, it is characterized in that: this stator core has several and is used to enclose polar arm around stator coil, this stator core further is provided with another arm between two adjacent polar arms, this induction coil circle is around on this another arm.
4. as the wherein any described induction less brush-less d.c. motor of claim 1 to 3, it is characterized in that: this Drive and Control Circuit is arranged on the circuit board, and this circuit board is positioned at this induction less brush-less d.c. motor outside.
5. fan, comprise a stator and a rotor, this stator comprises a stator coil that generates an electromagnetic field when energising, this stator coil and a fans drive control circuit electrically connect, this rotor comprises that a permanent magnet and that is used to produce permanent-magnetic field carries the impeller of this permanent magnet, the impeller that promotes this rotor rotates thereby this electromagnetic field and this permanent-magnetic field interact, it is characterized in that: this stator further comprises an induction coil that electrically connects with described fans drive control circuit, when this fan running, this induction coil produces induced voltage, as the commutation control signal of stator coil electric current.
6. fan as claimed in claim 5 is characterized in that: this fan drive circuit is arranged on the circuit board, and this circuit board spatially separates setting with this stator.
7. fan as claimed in claim 6 is characterized in that: this fan drive circuit is integrated in the fan external system circuit.
8. fan as claimed in claim 7 is characterized in that: this external system circuit is a computer main frame panel circuit.
9. as the wherein any described fan of claim 5 to 8, it is characterized in that: this stator core has several and is used to enclose polar arm around stator coil, and this induction coil circle is around on wherein any polar arm.
10. as the wherein any described fan of claim 5 to 8, it is characterized in that: this stator core has several and is used to enclose polar arm around stator coil, this stator core further is provided with another arm between two adjacent polar arms, this induction coil circle is around on this another arm.
CNB2005100332065A 2005-02-04 2005-02-04 Induction less brush-less DC motor and fan with same Expired - Fee Related CN100499323C (en)

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Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102072183A (en) * 2008-03-06 2011-05-25 德尔塔T公司 Fan control system with sensor
US8672649B2 (en) 2007-10-10 2014-03-18 Delta T Corporation Ceiling fan system with brushless motor
CN103684134A (en) * 2012-09-13 2014-03-26 上海海拉电子有限公司 Position sensor for brushless direct current motor
CN107112875A (en) * 2014-10-30 2017-08-29 西门子瑞士有限公司 The purposes of actuator and the d.c. motor with brushless two-phase d.c. motor
CN107947488A (en) * 2016-10-12 2018-04-20 建准电机工业股份有限公司 Motor, steering control method thereof and fan with motor
CN110380663A (en) * 2019-07-12 2019-10-25 郑宏峰 The method for carrying out length control using ac adjustable speed motor feedback winding
CN110535318A (en) * 2019-09-10 2019-12-03 刘和生 One kind stirring water installations and non-carbonate stirs water motor with mute
CN112751433A (en) * 2019-10-30 2021-05-04 达世株式会社 Brushless DC motor system and driving device
CN114151371A (en) * 2022-01-07 2022-03-08 肇庆晟辉电子科技有限公司 Direct-current brushless fan running at low temperature of minus 50 DEG C

Cited By (15)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US11268528B2 (en) 2007-10-10 2022-03-08 Delta T, Llc Ceiling fan system with brushless motor
US8672649B2 (en) 2007-10-10 2014-03-18 Delta T Corporation Ceiling fan system with brushless motor
CN102072183B (en) * 2008-03-06 2014-09-03 德尔塔T公司 Fan control system with sensor
CN102072183A (en) * 2008-03-06 2011-05-25 德尔塔T公司 Fan control system with sensor
CN103684134A (en) * 2012-09-13 2014-03-26 上海海拉电子有限公司 Position sensor for brushless direct current motor
CN103684134B (en) * 2012-09-13 2016-03-30 上海海拉电子有限公司 A kind of position transducer for brshless DC motor
CN107112875A (en) * 2014-10-30 2017-08-29 西门子瑞士有限公司 The purposes of actuator and the d.c. motor with brushless two-phase d.c. motor
CN107112875B (en) * 2014-10-30 2019-05-28 西门子瑞士有限公司 The purposes of actuator and the d.c. motor with brushless two-phase d.c. motor
CN107947488A (en) * 2016-10-12 2018-04-20 建准电机工业股份有限公司 Motor, steering control method thereof and fan with motor
CN107947488B (en) * 2016-10-12 2020-05-01 建准电机工业股份有限公司 Motor, steering control method thereof and fan with motor
CN110380663A (en) * 2019-07-12 2019-10-25 郑宏峰 The method for carrying out length control using ac adjustable speed motor feedback winding
CN110535318A (en) * 2019-09-10 2019-12-03 刘和生 One kind stirring water installations and non-carbonate stirs water motor with mute
CN112751433A (en) * 2019-10-30 2021-05-04 达世株式会社 Brushless DC motor system and driving device
CN112751433B (en) * 2019-10-30 2024-04-16 达世株式会社 Brushless DC motor system and driving device
CN114151371A (en) * 2022-01-07 2022-03-08 肇庆晟辉电子科技有限公司 Direct-current brushless fan running at low temperature of minus 50 DEG C

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Assignee: Shenzhen Yue PengCheng Motor Co., Ltd.

Assignor: Fuzhun Precision Industry (Shenzhen) Co., Ltd. |Foxconn Technology Limited by Share Ltd

Contract record no.: 2010990000531

Denomination of invention: Induction less brush-less DC. motor and fan with same

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