CN204013166U - Motor module and apply the stabilizer of this motor module - Google Patents

Abstract

The utility model discloses a kind of motor module, comprise the motor with hollow shaft, this motor comprises stator and the rotor being connected with this stator rotation, also comprises conducting slip ring, the first connecting line, the second connecting line, the first circuit board being fixedly connected with stator and the second circuit board interfixing with rotor; This conducting slip ring comprises the stator department being fixedly connected with stator and the rotor portions being fixedly connected with rotor, and first circuit board is connected to stator department by the first connecting line, and the second connecting plate is connected to rotor portions by the second connecting line, and the second connecting line runs through hollow shaft.The invention also discloses a kind of stabilizer of application of motor module.

Description

Motor module and apply the stabilizer of this motor module

Technical field

The utility model relates to automatically controlled automatic field, particularly relates to a kind of motor module and applies the stabilizer of this motor module.

Background technology

The general outside threading of stablize the motor module that The Cloud Terrace or shooting tripod head use too much, in a jumble, in the process of using, motor rotation easily makes outside threading mutually be wound around to make electric machine rotation precision too low, because outside threading is too much and mixed and disorderly, cause failure rate high simultaneously, and be difficult for maintenance.

Summary of the invention

Based on this, be necessary for prior art defect the motor module that when a kind of rotation is provided, its connecting line be difficult for to be wound around and apply the stabilizer of this motor module.

Its technical scheme is as follows:

A kind of motor module, comprise the motor with hollow shaft, this motor comprises stator and the rotor being connected with this stator rotation, also comprises conducting slip ring, the first connecting line, the second connecting line, the first circuit board being fixedly connected with stator and the second circuit board interfixing with rotor; This conducting slip ring comprises the stator department being fixedly connected with stator and the rotor portions being fixedly connected with rotor, and first circuit board is connected to stator department by the first connecting line, and the second connecting plate is connected to rotor portions by the second connecting line, and the second connecting line runs through hollow shaft.The motor that the technical program motor module has hollow shaft by setup and use coordinates conducting slip ring to coordinate, when making to be arranged on first circuit board that motor one side is fixed on stator and being arranged on motor opposite side and being fixed on relative rotation of second circuit board of rotor, both connecting lines can not cause the mutual winding between connecting line to affect the rotation precision of motor owing to being rotationally connected by hollow shaft, conducting slip ring.Simultaneously in the both sides of motor, first circuit board and second circuit board are set respectively, not only can power to motor, and transducer can be set on circuit board the rotation of motor is detected.Motor is three-phase alternating current brushless electric machine.

In an embodiment, this rotor portions arranges magnet steel near one end of first circuit board therein, on this first circuit board, with magnet steel corresponding position, encoder chip is set, and between this magnet steel and encoder chip, has gap; On this first circuit board and/or second circuit board, inertial sensor is set, this hollow shaft and stator or rotor fix.In the rotor portions of conducting slip ring, near one end of first circuit board, magnet steel is set, on first circuit board, with magnet steel corresponding position, encoder chip is set, between this magnet steel and encoder chip, there is gap, by magnet steel and encoder chip, get final product the rotational angle of detection rotor relative stator, between magnet steel and encoder chip, there is gap, for non-contact detection, reduce the pivoting friction of motor.Simultaneously on first circuit board and/or second circuit board, inertial sensor is set, inertial sensor also can detection rotor and the position relationship of stator.Encoder chip, inertial sensor are set and measure the position relationship of rotor and stator simultaneously, make accuracy of detection higher.

In an embodiment, on this first circuit board and/or second circuit board, be provided with main controller therein, this first connecting line, the second connecting line are bus, and this first circuit board is by bus and second circuit board communication.Bus can either be transmitted various detection signals and control signal, and can transmit the driving signal that drive motors rotates, the power line of motor is directly received on first circuit board or second circuit board, the line number of bus only has four simultaneously, between by hollow shaft and conducting slip ring, wiring is convenient succinct, and not be used in outside motor wiring.

In an embodiment, one end of described rotor portions is arranged with the adapter sleeve of inner hollow therein, and the other end is fixed with erecting bed; Adapter sleeve is sheathed in hollow shaft, and this rotor portions is mutually permanently connected by adapter sleeve and hollow shaft, and the second connecting line runs through adapter sleeve; Erecting bed and first circuit board corresponding section are provided with mounting groove, and described magnet steel is arranged in this mounting groove.It is the N utmost point that magnet steel adopts a semicircle, and second half is the coin shape magnet steel of the S utmost point.

In an embodiment, motor module also comprises the first fixed support and the second fixed support therein, and described first circuit board is fixed on stator by the first support, and described second circuit board interfixes by the second support and rotor.

The technical program also provides a kind of stabilizing arrangement, comprise the first rotating part and the second rotating part being rotationally connected with this first rotating part, also comprise above-mentioned motor module, this first rotating part and stator are fixedly connected, and this second rotating part and described rotor are fixedly connected.

Another kind of motor module is also provided, has comprised the motor with hollow shaft, this motor comprises stator and the rotor being connected with this stator rotation.Motor module also comprises conducting slip ring, the first connecting line, the second connecting line, the circuit board being fixedly connected with stator; This conducting slip ring comprises the stator department being fixedly connected with stator and the rotor portions being fixedly connected with rotor, and circuit board is connected to stator department by the first connecting line, and the second connecting line being connected with rotor portions runs through hollow shaft, and this hollow shaft and rotor are fixedly connected; This rotor portions arranges magnet steel near one end of circuit board, on this circuit board, with magnet steel corresponding position, encoder chip is set, and between this magnet steel and encoder chip, has gap.This motor module adopts the technical scheme of hollow shaft and conducting slip ring, make to run through the electric device that the second connecting line of hollow shaft connects and relatively rotate with the circuit board that the first connecting line is connected, because it has outside threading, do not have the situation appearance that connecting line is wound around mutually simultaneously.The external electric device that magnet steel is connected the second connecting line with encoder simultaneously and the relative position of circuit board carry out non-contact detection.

In an embodiment, be also provided with main controller and the inertial sensor being connected with this main controller on this circuit board therein, described encoder chip is electrically connected to this main controller.The external electric device that inertial sensor also can connect the second connecting line and the relative position of circuit board detect, and while inertial sensor and encoder chip all return to main controller by its detection signal and process.

Stabilizing arrangement comprises the motor module described in the first bending member, the second bending member, fixture, control base and three groups, and motor module comprises the motor with hollow shaft, and this motor comprises stator and the rotor being connected with this stator rotation.Motor module also comprises conducting slip ring, the first connecting line, the second connecting line, the circuit board being fixedly connected with stator; This conducting slip ring comprises the stator department being fixedly connected with stator and the rotor portions being fixedly connected with rotor, and circuit board is connected to stator department by the first connecting line, and the second connecting line being connected with rotor portions runs through hollow shaft, and this hollow shaft and rotor are fixedly connected; This rotor portions arranges magnet steel near one end of circuit board, on this circuit board, with magnet steel corresponding position, encoder chip is set, and between this magnet steel and encoder chip, has gap.The stator of first motor module is connected with the rotor of second motor module by bending member, the stator of second motor module is connected with the rotor of the 3rd motor module by the second bending member, the stator of the 3rd motor module is fixedly connected with controlling base, and this fixture is connected with the rotor of the first motor module; The supplying cell that is provided with circuit board and is electrically connected to this circuit board in this control base, the geomagnetic sensor that is provided with main controller on this circuit board and is electrically connected to this main controller, is provided with the inertial sensor being electrically connected to the main controller of first motor module on this fixture; Between the main controller of the main controller of the main controller of the main controller of this first motor module, second motor module, the 3rd motor module and control base, by bus communication, supplying cell is powered to first motor module, second motor module and the 3rd motor module by bus.The circuit board of first motor module is connected to the circuit board of second motor module by bus, the circuit board of second motor module is connected to the circuit board of the 3rd motor module by bus, the circuit board of the 3rd motor module is connected to the circuit board of controlling base by bus.

This stabilizing arrangement is three-axis stabilization device, and wherein first motor module is pitching motor group, and second motor module is roll group of motors, and the 3rd motor module is course group of motors.Be arranged on the supplying cell of controlling on base and be connected to the 3rd circuit board on motor module by bus, circuit board on the 3rd motor module is connected to second circuit board on motor module by bus, and the circuit board on second motor module is connected with the circuit board on first motor module by bus.Between the main controller of the main controller of the main controller of the main controller of first motor module, second motor module, the 3rd motor module and control base, by bus, carry out parallel communication.The encoder chip of each motor module detects the positional information of the rotor of this motor and stator, is transferred to the main controller of this motor simultaneously; The information of the inertial sensor of the main controller capture setting of the first motor module on fixture, and be transferred in bus.The bus that connects each motor module is rotationally connected by hollow shaft, conducting slip ring, not only wiring is succinct, and the technical scheme that combines of this hollow shaft, conducting slip ring and bus, can adopt multiple sensors to detect and make control precision higher its state.

A stabilizing arrangement, comprises the first bending member, the second bending member, controls base and three groups of motor modules.Motor module comprises the motor with hollow shaft, and this motor comprises stator and the rotor being connected with this stator rotation.Motor module also comprises conducting slip ring, the first connecting line, the second connecting line, the circuit board being fixedly connected with stator; This conducting slip ring comprises the stator department being fixedly connected with stator and the rotor portions being fixedly connected with rotor, and circuit board is connected to stator department by the first connecting line, and the second connecting line being connected with rotor portions runs through hollow shaft, and this hollow shaft and rotor are fixedly connected; This rotor portions arranges magnet steel near one end of circuit board, on this circuit board, with magnet steel corresponding position, encoder chip is set, and between this magnet steel and encoder chip, has gap.On this circuit board, be also provided with main controller and the inertial sensor being connected with this main controller, described encoder chip is electrically connected to this main controller.The rotor of first motor module is connected with the stator of second motor module by the first bending member, the rotor of second motor module is connected with the stator of the 3rd motor module by the second bending member, and the rotor of the 3rd motor module is fixedly connected with control base; The supplying cell that is provided with circuit board and is electrically connected to this circuit board in this control base, is provided with main controller on this circuit board; Between the main controller of the main controller of the main controller of the main controller of this first motor module, second motor module, the 3rd motor module and control base, by bus, carry out communication, supplying cell is powered to first motor module, second motor module and the 3rd motor module by bus.The circuit board of first motor module is connected to the circuit board of second motor module by bus, the circuit board of second motor module is connected to the circuit board of the 3rd motor module by bus, the circuit board of the 3rd motor module is connected to the circuit board of controlling base by bus.

Accompanying drawing explanation

Fig. 1 is the structural representation of stabilizing arrangement described in the utility model embodiment mono-;

Fig. 2 is the structural representation of motor module described in the utility model embodiment mono-;

Fig. 3 is the structural representation of motor module described in the utility model embodiment tri-;

Fig. 4 is the structural representation of stabilizing arrangement described in the utility model embodiment tetra-;

Description of reference numerals:

10, motor module, 110, stator, 120, rotor, 121, hollow shaft, 130, stator department, 140, rotor portions, 141, magnet steel, 142, adapter sleeve, 143, erecting bed, 150, first circuit board, 151, encoder chip, 152, the first fixed support 160, second circuit board, 161, the second fixed support, 170, circuit board, 20, the first rotating part, 30, the second rotating part, 410, the first bending member, 420 second bending members, 510, pitching motor group, 520, roll group of motors, 530, course group of motors, 540, control base, 60, fixture.

Embodiment

Below in conjunction with accompanying drawing, the utility model embodiment is described in detail.

Embodiment mono-

Please consider and examine Fig. 1.The present embodiment one provides a kind of stabilizing arrangement, comprise the first rotating part 20 and the second rotating part 30 being rotationally connected with this first rotating part 20, also comprise motor module 10, this first rotating part 20 is fixedly connected with the stator 110 of motor module 10, and this second rotating part 30 is fixedly connected with the rotor 120 of motor module 10.In the present embodiment one, motor used is three-phase brushless alternating current machine.

Please consider and examine Fig. 2.This motor module 10 comprises the motor with hollow shaft 121, and this motor comprises stator 110 and the rotor 120 being rotationally connected with this stator 110.Motor module 10 also comprises conducting slip ring, the first connecting line, the second connecting line, the first circuit board 150 being fixedly connected with stator 110 and the second circuit board 160 interfixing with rotor 120.In the present embodiment one, conducting slip ring is arranged on the outside of motor, the place, one end of motor.This conducting slip ring comprises the stator department 130 being fixedly connected with stator 110 and the rotor portions 140 being fixedly connected with rotor 120, first circuit board 150 is connected to stator department 130 by the first connecting line, the second connecting plate is connected to rotor portions 140, the second connecting lines by the second connecting line and runs through hollow shaft 121.The motor that the motor module 10 of the present embodiment one has hollow shaft 121 by setup and use coordinates conducting slip ring to coordinate, when making to be arranged on first circuit board 150 that motor one side is fixed on stator 110 and being arranged on motor opposite side and being fixed on the relative rotation of second circuit board 160 of rotor 120, both connecting lines can not cause the mutual winding between connecting line to affect the rotation precision of motor owing to being rotationally connected by hollow shaft 121, conducting slip ring.Simultaneously in the both sides of motor, first circuit board 150 and second circuit board 160 are set respectively, not only can power to motor, and transducer can be set on circuit board the rotation of motor is detected.First circuit board 150 and second circuit board 160 are all can externally connected with display screen etc. external electric, realize without being wound around and being rotationally connected.

The rotor portions 140 of conducting slip ring arranges magnet steel 141 near one end of first circuit board 150, on this first circuit board 150, with magnet steel 141 corresponding positions, encoder chip 151 is set, and between this magnet steel 141 and encoder chip 151, has gap.In the present embodiment one, encoder chip 151 can adopt the encoder of hall principle, preferably adopts TMR principle transducer to guarantee higher precision.On this first circuit board 150 and/or second circuit board 160, inertial sensor is set, this hollow shaft 121 fixes with stator 110 or rotor 120, inertial sensor both can be arranged on first circuit board 150, also can be arranged on second circuit board 160 or on first circuit board 150 and second circuit board 160 also arrange simultaneously can, can determine according to actual use scenes.Equally, hollow shaft 121 and stator 110 or rotor 120 fixingly also can determine according to actual use scenes.On this first circuit board 150 and/or second circuit board 160, be provided with main controller, this first connecting line, the second connecting line are bus, and this first circuit board 150 is by bus and second circuit board 160 communications.Bus can either be transmitted various detection signals and control signal, and can transmit the driving signal that drive motors rotates, the power line of motor is directly received on first circuit board 150 or second circuit board 160, the line number of bus only has four simultaneously, between by hollow shaft 121 and conducting slip ring, wiring is convenient succinct, and not be used in outside motor wiring.What main controller adopted is the matured product stm32 single-chip microcomputer with specific function, and the realization of its specific function can be applied to the existing software being loaded with in stm32 single-chip microcomputer.

In the rotor portions 140 of conducting slip ring, near one end of first circuit board 150, magnet steel 141 is set, on first circuit board 150, with magnet steel 141 corresponding positions, encoder chip 151 is set, between this magnet steel 141 and encoder chip 151, there is gap, by magnet steel 141 and encoder chip 151, get final product the rotational angle of detection rotor 120 relative stator 110, between magnet steel 141 and encoder chip 151, there is gap, for non-contact detection, reduce the pivoting friction of motor.Simultaneously on first circuit board 150 and/or second circuit board 160, inertial sensor is set, inertial sensor also can detection rotor 120 and the position relationship of stator 110.Encoder chip 151, inertial sensor are set and measure the position relationship of rotor 120 and stator 110 simultaneously, make accuracy of detection higher.

One end of rotor portions 140 is arranged with the adapter sleeve 142 of inner hollow, and the other end is fixed with erecting bed 143; Adapter sleeve 142 is sheathed in hollow shaft 121, and this rotor portions 140 is mutually permanently connected by adapter sleeve 142 and hollow shaft 121, and the second connecting line runs through adapter sleeve 142; Erecting bed 143 is provided with mounting groove with first circuit board 150 corresponding sections, and described magnet steel 141 is arranged in this mounting groove.It is the N utmost point that magnet steel 141 adopts a semicircle, and another semicircle is the coin shape magnet steel of the S utmost point.Motor module 10 also comprises the first fixed support 152 and the second fixed support 161, and described first circuit board 150 is fixed on stator 110 by the first fixed support 152, and described second circuit board 160 interfixes with rotor 120 by the second fixed support 161.

Between the first circuit board 150 of the present embodiment one motor module 10 and second circuit board 160, by bus, conducting slip ring and hollow shaft 121, realize and being rotationally connected, encoder chip 151 and inertial sensor are set simultaneously the position of stator 110 and rotor 120 is detected, and transfer back on the main controller of first circuit board 150 and second circuit board 160.Main controller is according to encoder chip 151 and the stator 110 of inertial sensor passback and the positional information of rotor 120, only need to can realize at first circuit board 150 when the axis of hollow shaft 121 is done the rotation of any speed and acceleration by pid control algorithm well known to those skilled in the art and conventional driving method, second circuit board 160 can remain steadily, the installations such as camera are connected on second circuit board 160 can be stablized, the image quality of non-jitter.When the axis of hollow shaft 121 is done the rotation of any speed and acceleration, it is steady that first circuit board 150 can remain again or at second circuit board 160.

Embodiment bis-

The present embodiment two is with embodiment mono-difference, and conducting slip ring is arranged on the inside of hollow shaft 121, and stator department 130 and the hollow shaft 121 of conducting slip ring interfix, and rotor portions 140 and the hollow shaft 121 of conducting slip ring are rotationally connected.

Embodiment tri-

The present embodiment three is with embodiment mono-difference, and please consider and examine Fig. 3, this motor module 10 only has a circuit board 170, and this circuit board 170 is arranged on a side of motor stator 110.Motor module 10 also comprises conducting slip ring, the first connecting line, the second connecting line, the circuit board 170 being fixedly connected with stator 110; This conducting slip ring comprises the stator department 130 being fixedly connected with stator 110 and the rotor portions 140 being fixedly connected with rotor 120, circuit board 170 is connected to stator department 130 by the first connecting line, the second connecting line being connected with rotor portions 140 runs through hollow shaft 121, and this hollow shaft 121 is fixedly connected with rotor 120; This rotor portions 140 arranges magnet steel 141 near one end of circuit board 170, on this circuit board 170, with magnet steel 141 corresponding positions, encoder chip 151 is set, and between this magnet steel 141 and encoder chip 151, has gap.This motor module 10 adopts the technical scheme of hollow shaft 121 and conducting slip ring, make to run through the circuit board 170 that electric device that the second connecting line of hollow shaft 121 connects is connected with the first connecting line and relatively rotate, because it has outside threading, do not have the situation appearance that connecting line is wound around mutually simultaneously.The external electric device that magnet steel 141 is connected the second connecting line with encoder simultaneously and the relative position of circuit board 170 carry out non-contact detection.Encoder chip 151 can adopt the encoder of hall principle, preferably adopts TMR principle transducer to guarantee higher precision.

One end of rotor portions 140 is arranged with the adapter sleeve 142 of inner hollow, and the other end is fixed with erecting bed 143; Adapter sleeve 142 is sheathed in hollow shaft 121, and this rotor portions 140 is mutually permanently connected by adapter sleeve 142 and hollow shaft 121, and the second connecting line runs through adapter sleeve 142; Erecting bed 143 is provided with mounting groove with first circuit board 150 corresponding sections, and described magnet steel 141 is arranged in this mounting groove.It is the N utmost point that magnet steel 141 adopts a semicircle, and another semicircle is the coin shape magnet steel of the S utmost point.Circuit board can fix by fixed support and stator.

On this circuit board 170, be also provided with main controller and the inertial sensor being connected with this main controller, described encoder chip 151 is electrically connected to this main controller.The external electric device that inertial sensor also can connect the second connecting line and the relative position of circuit board 170 detect, and while inertial sensor and encoder chip 151 all return to main controller by its detection signal and process.What main controller adopted is the matured product stm32 single-chip microcomputer with specific function, and the realization of its specific function can be applied to the existing software being loaded with in stm32 single-chip microcomputer.

The present embodiment three motor modules 10 are realized and being rotationally connected by bus, conducting slip ring and hollow shaft 121, encoder chip 151 and inertial sensor are set simultaneously the position of stator 110 and rotor 120 is detected, and transfer back on the main controller of circuit board 170.Main controller is according to encoder chip 151 and the stator 110 of inertial sensor passback and the positional information of rotor 120, only need to can realize at rotor 120 when the axis of hollow shaft 121 is done the rotation of any speed and acceleration by pid control algorithm well known to those skilled in the art and conventional driving method, stator 110 can remain steadily, the installations such as camera is connected to stator 110 can be stablized, the image quality of non-jitter.When the axis of hollow shaft 121 is done the rotation of any speed and acceleration, it is steady that rotor 120 can remain again or at stator 110.

Again or, in the present embodiment three, conducting slip ring is arranged on the inside of hollow shaft 121, the stator department of conducting slip ring 130 interfixes with hollow shaft 121, rotor portions 140 and the hollow shaft 121 of conducting slip ring are rotationally connected.

Embodiment tetra-

Please consider and examine Fig. 4 and Fig. 3, stabilizing arrangement comprises the first bending member 410, the second bending member 420, fixture 60, control the motor module 10 described in base 540 and three groups.In each motor module 10 in the present embodiment four, there is no integrated inertial sensor, but use the inertial sensor being arranged on the fixture 60 that apparatus for making a video recording is installed.

Motor module 10 comprises the motor with hollow shaft 121, and this motor comprises stator 110 and the rotor 120 being rotationally connected with this stator 110.Motor module 10 also comprises conducting slip ring, the first connecting line, the second connecting line, the circuit board 170 being fixedly connected with stator 110; This conducting slip ring comprises the stator department 130 being fixedly connected with stator 110 and the rotor portions 140 being fixedly connected with rotor 120, circuit board 170 is connected to stator department 130 by the first connecting line, the second connecting line being connected with rotor portions 140 runs through hollow shaft 121, and this hollow shaft 121 is fixedly connected with rotor 120; This rotor portions 140 arranges magnet steel 141 near one end of circuit board 170, on this circuit board 170, with magnet steel 141 corresponding positions, encoder chip 151 is set, and between this magnet steel 141 and encoder chip 151, has gap.Encoder chip 151 can adopt the encoder of hall principle, preferably adopts TMR principle transducer to guarantee higher precision.

One end of rotor portions 140 is arranged with the adapter sleeve 142 of inner hollow, and the other end is fixed with erecting bed 143; Adapter sleeve 142 is sheathed in hollow shaft 121, and this rotor portions 140 is mutually permanently connected by adapter sleeve 142 and hollow shaft 121, and the second connecting line runs through adapter sleeve 142; Erecting bed 143 is provided with mounting groove with first circuit board 150 corresponding sections, and described magnet steel 141 is arranged in this mounting groove.It is the N utmost point that magnet steel 141 adopts a semicircle, and another semicircle is the coin shape magnet steel of the S utmost point.Circuit board can fix by fixed support and stator.

The stator 110 of first motor module 10 is connected with the rotor 120 of second motor module 10 by the first bending member 410, the stator 110 of second motor module 10 is connected with the rotor 120 of the 3rd motor module 10 by the second bending member 420, the stator 110 of the 3rd motor module 10 is fixedly connected with controlling base 540, and this fixture 60 is connected with the rotor 120 of the first motor module 10; The supplying cell that is provided with circuit board and is electrically connected to this circuit board in this control base 540, the geomagnetic sensor that is provided with main controller on this circuit board and is electrically connected to this main controller, is provided with the inertial sensor being electrically connected to the main controller of first motor module 10 on this fixture 60; The main controller of the main controller of the main controller of this first motor module 10, second motor module 10, the 3rd motor module 10 and controlling between the main controller of base 540 by bus communication, supplying cell by bus to first motor module 10, second motor module 10 and the 3rd motor module 10 power supplies.What main controller adopted is the matured product stm32 single-chip microcomputer with specific function, and the realization of its specific function can be applied to the existing software being loaded with in stm32 single-chip microcomputer.

This stabilizing arrangement is three-axis stabilization device, and wherein first motor module 10 is that 510, the second motor modules of pitching motor group 10 are that 520, the three motor modules 10 of roll group of motors are course group of motors 530.Be arranged on the supplying cell of controlling on base 540 and be connected to the 3rd circuit board on motor module 10 by bus, circuit board on the 3rd motor module 10 is connected to second circuit board on motor module 10 by bus, and the circuit board on second motor module 10 is connected with the circuit board on first motor module 10 by bus.Between the main controller of the main controller of the main controller of the main controller of first motor module 10, second motor module 10, the 3rd motor module 10 and control base 540, by bus, carry out parallel communication.The rotor 120 of 151 pairs of these motors of encoder chip and the positional information of stator 110 of each motor module 10 detect, and are transferred to the main controller of this motor simultaneously; The information of the inertial sensor of the main controller capture setting of the first motor module 10 on fixture 60, and be transferred in bus.The bus that connects each motor module 10 is rotationally connected by hollow shaft 121, conducting slip ring, not only wiring is succinct, and the technical scheme that combines of this hollow shaft 121, conducting slip ring and bus, can adopt multiple sensors to detect and make control precision higher its state.

In the present embodiment four, conducting slip ring also can be arranged on the inside of hollow shaft 121, and stator department 130 and the hollow shaft 121 of conducting slip ring interfix, and rotor portions 140 and the hollow shaft 121 of conducting slip ring are rotationally connected.

Embodiment five

Please refer to Fig. 3 and Fig. 4, stabilizing arrangement comprises the first bending member 410, the second bending member 420, controls base 540 and three groups of motor modules 10.In the present embodiment five, every group of motor module 10 is all integrated inertial sensor, single group motor module 10 can complete the precise and stable control of these motor module 10 place axles.

Motor module 10 comprises the motor with hollow shaft 121, and this motor comprises stator 110 and the rotor 120 being rotationally connected with this stator 110.Motor module 10 also comprises conducting slip ring, the first connecting line, the second connecting line, the circuit board 170 being fixedly connected with stator 110; This conducting slip ring comprises the stator department 130 being fixedly connected with stator 110 and the rotor portions 140 being fixedly connected with rotor 120, circuit board 170 is connected to stator department 130 by the first connecting line, the second connecting line being connected with rotor portions 140 runs through hollow shaft 121, and this hollow shaft 121 is fixedly connected with rotor 120; One end of 120 close circuit boards 170 of this rotor arranges magnet steel 141, on this circuit board 170, with magnet steel 141 corresponding positions, encoder chip 151 is set, and between this magnet steel 141 and encoder chip 151, has gap.On this circuit board 170, be also provided with main controller and the inertial sensor being connected with this main controller, described encoder chip 151 is electrically connected to this main controller.Encoder chip 151 can adopt the encoder of hall principle, preferably adopts TMR principle transducer to guarantee higher precision.What main controller adopted is the matured product stm32 single-chip microcomputer with specific function, and the realization of its specific function can be applied to the existing software being loaded with in stm32 single-chip microcomputer.

One end of rotor portions 140 is arranged with the adapter sleeve 142 of inner hollow, and the other end is fixed with erecting bed 143; Adapter sleeve 142 is sheathed in hollow shaft 121, and this rotor portions 140 is mutually permanently connected by adapter sleeve 142 and hollow shaft 121, and the second connecting line runs through adapter sleeve 142; Erecting bed 143 is provided with mounting groove with first circuit board 150 corresponding sections, and described magnet steel 141 is arranged in this mounting groove.It is the N utmost point that magnet steel 141 adopts a semicircle, and another semicircle is the coin shape magnet steel of the S utmost point.Circuit board can fix by fixed support and stator.

The rotor 120 of first motor module 10 is connected with the stator 110 of second motor module 10 by the first bending member 410, the rotor 120 of second motor module 10 is connected with the stator 110 of the 3rd motor module 10 by the second bending member 420, and the rotor 120 of the 3rd motor module 10 is fixedly connected with control base 540; The supplying cell that is provided with circuit board and is electrically connected to this circuit board in this control base 540, is provided with main controller on this circuit board; The main controller of the main controller of the main controller of this first motor module 10, second motor module 10, the 3rd motor module 10 and control between the main controller of base 540 and carry out communication by bus, supplying cell by bus to first motor module 10, second motor module 10 and the 3rd motor module 10 power supplies.

This stabilizing arrangement is three-axis stabilization device, and wherein first motor module 10 is that 510, the second motor modules of pitching motor group 10 are that 520, the three motor modules 10 of roll group of motors are course group of motors 530.Be arranged on the supplying cell of controlling on base 540 and be connected to the 3rd circuit board on motor module 10 by bus, circuit board on the 3rd motor module 10 is connected to second circuit board on motor module 10 by bus, and the circuit board on second motor module 10 is connected with the circuit board on first motor module 10 by bus.Between the main controller of the main controller of the main controller of the main controller of first motor module 10, second motor module 10, the 3rd motor module 10 and control base 540, by bus, carry out parallel communication.The rotor 120 of 151 pairs of these motors of encoder chip and the positional information of stator 110 of each motor module 10 detect, and are transferred to the main controller of this motor simultaneously.The main controller capture setting of each motor module 10 is in the information of its inertial sensor, and is transferred in bus.The bus that connects each motor module 10 is rotationally connected by hollow shaft 121, conducting slip ring, not only wiring is succinct, and the technical scheme that combines of this hollow shaft 121, conducting slip ring and bus, can adopt multiple sensors its state is detected and adopt multiple single chip microcomputer to pass through bus parallel Communication Control, make control precision higher.

In the present embodiment five, conducting slip ring also can be arranged on the inside of hollow shaft 121, and stator department 130 and the hollow shaft 121 of conducting slip ring interfix, and rotor portions 140 and the hollow shaft 121 of conducting slip ring are rotationally connected.

The above embodiment has only expressed several execution mode of the present utility model, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to utility model patent scope.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection range of the present utility model.

Claims (10)

1. a motor module, comprise the motor with hollow shaft, this motor comprises stator and the rotor being connected with this stator rotation, it is characterized in that, also comprise conducting slip ring, the first connecting line, the second connecting line, the first circuit board being fixedly connected with stator and the second circuit board interfixing with rotor; This conducting slip ring comprises the stator department being fixedly connected with stator and the rotor portions being fixedly connected with rotor, and first circuit board is connected to stator department by the first connecting line, and the second connecting plate is connected to rotor portions by the second connecting line, and the second connecting line runs through hollow shaft.

2. motor module according to claim 1, is characterized in that, this rotor portions arranges magnet steel near one end of first circuit board, on this first circuit board, with magnet steel corresponding position, encoder chip is set, and between this magnet steel and encoder chip, has gap; On this first circuit board and/or second circuit board, inertial sensor is set, this hollow shaft and stator or rotor fix.

3. motor module according to claim 2, is characterized in that, on this first circuit board and/or second circuit board, is provided with main controller, and this first connecting line, the second connecting line are bus, and this first circuit board is by bus and second circuit board communication.

4. motor module according to claim 3, is characterized in that, one end of described rotor portions is arranged with the adapter sleeve of inner hollow, and the other end is fixed with erecting bed; Adapter sleeve is sheathed in hollow shaft, and this rotor portions is mutually permanently connected by adapter sleeve and hollow shaft, and the second connecting line runs through adapter sleeve; Erecting bed and first circuit board corresponding section are provided with mounting groove, and described magnet steel is arranged in this mounting groove.

5. motor module according to claim 4, is characterized in that, also comprises the first fixed support and the second fixed support, and described first circuit board is fixed on stator by the first support, and described second circuit board interfixes by the second support and rotor.

6. a stabilizing arrangement, comprise the first rotating part and the second rotating part being rotationally connected with this first rotating part, it is characterized in that, also comprise the motor module as described in claim 1 to 5 any one, this first rotating part and stator are fixedly connected, and this second rotating part and described rotor are fixedly connected.

7. a motor module, comprises the motor with hollow shaft, and this motor comprises stator and the rotor being connected with this stator rotation, it is characterized in that, also comprises conducting slip ring, the first connecting line, the second connecting line, the circuit board being fixedly connected with stator; This conducting slip ring comprises the stator department being fixedly connected with stator and the rotor portions being fixedly connected with rotor, and circuit board is connected to stator department by the first connecting line, and the second connecting line being connected with rotor portions runs through hollow shaft, and this hollow shaft and rotor are fixedly connected; This rotor portions arranges magnet steel near one end of circuit board, on this circuit board, with magnet steel corresponding position, encoder chip is set, and between this magnet steel and encoder chip, has gap.

8. motor module as claimed in claim 7, is characterized in that, is also provided with main controller and the inertial sensor being connected with this main controller on this circuit board, and described encoder chip is electrically connected to this main controller.

9. a stabilizing arrangement, it is characterized in that, comprise the first bending member, the second bending member, fixture, control base and three groups of motor modules as claimed in claim 7, the stator of first motor module is connected with the rotor of second motor module by bending member, the stator of second motor module is connected with the rotor of the 3rd motor module by the second bending member, the stator of the 3rd motor module is fixedly connected with controlling base, and this fixture is connected with the rotor of first motor module; The supplying cell that is provided with circuit board and is electrically connected to this circuit board in this control base, the geomagnetic sensor that is provided with main controller on this circuit board and is electrically connected to this main controller, is provided with the inertial sensor being electrically connected to the main controller of first motor module on this fixture; Between the main controller of the main controller of the main controller of the main controller of this first motor module, second motor module, the 3rd motor module and control base, by bus communication, supplying cell is powered to first motor module, second motor module and the 3rd motor module by bus.

10. a stabilizing arrangement, it is characterized in that, comprise the first bending member, the second bending member, control base and three groups of motor modules as claimed in claim 8, the rotor of first motor module is connected with the stator of second motor module by the first bending member, the rotor of second motor module is connected with the stator of the 3rd motor module by the second bending member, and the rotor of the 3rd motor module is fixedly connected with control base; The supplying cell that is provided with circuit board and is electrically connected to this circuit board in this control base, the geomagnetic sensor that is provided with main controller on this circuit board and is electrically connected to this main controller; Between the main controller of the main controller of the main controller of the main controller of this first motor module, second motor module, the 3rd motor module and control base, by bus, carry out communication, supplying cell is powered to first motor module, second motor module and the 3rd motor module by bus.