CN101206244A - Combined test method and test-bed for asynchronization traction motor four-dimensional movement as well as usage thereof - Google Patents

Abstract

The invention relates to an asynchronous traction motor test method and a four-dimensional motion integrated test stand and the use of the test stand. According to the operating condition of an asynchronous traction motor during practical operation, the test mode of a four-dimensional motion mode is provided, wherein, the four-dimensional motion mode includes the following steps that: two sets of motor installation platforms capable of free four-dimensional motion (i.e. capable of motion in three-dimensional space and rotary motion) are adopted to carry out test of the asynchronous traction motor; wherein, one set is used for traction, and the other set is used for braking with the energy fed back in direct current link; two motors are respectively arranged on both platforms with one motor being an accompanying test motor and the other being a tested motor; moreover, power supply of both the accompanying test motor and the tested motor are provided by the same power source. Three-dimensional motion of the tested motor equivalent to the longitudinal, axial and vertical vibration of a motor car is carried out through the two sets of the motor installation platforms; moreover, various performance tests under the operating condition of the rotary motion generated when a wheel queue goes around a turn are carried out.

Description

Asynchronous traction motor four-dimensional movement comprehensive testing method and testing table and purposes

Technical field

The invention belongs to a kind of test method and device, is a kind of asynchronous traction motor test method and multi-function test stand specifically, is mainly used in dynamic (dynamical) test that simulation is correlated with under the fully loaded condition to traction motor.The invention still further relates to the purposes of described multi-function test stand.

Background technology

Popular in the world rolling rig, carry out compbined test and dynamic (dynamical) performance test of the electric property of system at scroll wheel with the bogie frame of simulation, because bogie will be on the fixed mount that vertically is pulled in ground, be used for the tractive force of balancing steering frame power wheel to producing.Each power wheel is to applying axial force separately in process of the test, like this can't be in axial dynamic (dynamical) test of under the fully loaded condition, being correlated with on the traction motor, in case axially associated components breaks down and need go assessment after post-installation review is out of joint, loses huge.Some key issue may relate to several parts, can't determine accurately which parts goes wrong, and such problem is difficult to assessment, has a strong impact on the evaluation of traction motor structural reliability.

With " pioneer " number asynchronous traction motor example: the time of having changed several years is on rolling rig, test all is good on the ring of Tie Keyuan, but in actual motion because complex circuit, cause motor location bearing and shaft coupling all to damage, this is because the bearing of motor on earth, or the end cap of motor, or globe joint shaft coupling, still go wrong in the bogie installation site, cause system's cisco unity malfunction, so far also take out convictive quantitative data in not, had a strong impact on the exploitation of China's high speed motor car, so cause our invention thinking.

On the rolling rig on ring the torque of traction motor can not directly measure.Can only estimate.Address this problem and to have leaned on the testing table of motor, but on popular motor experiment platform, accompany the necessary strictness of examination motor, tested motor and tachometer torquemeter point-blank, otherwise clutch itself, the axle and the bearing of motor reel and bearing, tachometer torquemeter can sustain damage.And need when four-dimensional high speed rotating, to accurately measure torque now, also must the novel testing table of exploitation.

In carrying out the patent inquiry, still find no similar open source literature, only inquire the most approaching Chinese patent name and be called " motor experiment device ", the patent No. is 00217634.3 patent documentation, but this patent adopts the step-less adjustment motor load to come test motor only by shaft coupling and the threephase asynchronous motor to be measured that links.And for considering influence to motor to be measured from a plurality of force directions that are subjected to.

In sum, existing various test unit all can not satisfy the accurate mensuration of traction motor torque rotary speed under the four-dimensional movement condition, for accurately searching the existing problem of traction motor, there is certain difficulty, therefore necessary exploitation or invent a kind of comprehensive test system, quantitative test goes out the subsystem relevant with asynchronous traction motor, goes the physical quantity of vitals in motion process in the quantitative capturing system, and these physical quantitys are the necessary data of assurance system reliably working.

Summary of the invention

The objective of the invention is to deficiency at existing test unit, propose the quantitative test of a kind of energy and go out the subsystem relevant, remove the asynchronous traction motor multi-dimensional movement test method and the multi-function test stand of the physical quantity of vitals in motion process in the quantitative capturing system with asynchronous traction motor.

Another object of the present invention is to propose the above-mentioned purposes that can finish the multi-function test stand of multi-dimensional movement.

According to the technology implementation scheme that purpose of the present invention proposed be: according to the working condition of asynchronous traction motor at actual motion, propose a kind of test method of four-dimensional movement mode, described four-dimensional movement mode is: the motor mounting platform that adopts two covers can freely carry out the four-dimensional movement that three dimensions adds rotary motion is tested asynchronous traction motor; A wherein cover traction, a cover braking, its energy feeds back in DC link.Two motors is installed respectively on these two platforms, and another is tested motor to one of two motors in order to accompany the examination motor, accompanies examination motor and tested motor to power by same power supply.The motor mounting platform that can freely carry out the four-dimensional movement that three dimensions adds rotary motion by two covers is equivalent to motor-car vertically, axially and the three-dimensional motion of vertical vibration to tested motor, and the various performance tests under the operating mode that rotatablely moves of wheel team generation when turning.

The testing table that the method according to this invention proposed is a kind of four-dimensional movement asynchronous traction motor multi-function test stand, comprises tested motor, test platform, connector and signal detection system.It is characterized in that: test platform is two can be finished and be equivalent to motor-car vertically, axially and the three-dimensional motion of vertical vibration, and can also finish the motor platform that rotatablely moves that is equivalent to take turns team's generation when turning, a motor is respectively arranged on two motor platform, one for accompanying the examination motor, one is tested motor, accompany examination motor and tested motor to be connected together by two connectors, signal detection system is installed between two connectors.On two motor platform, be equipped with four oil cylinders or cylinder, comprising the oil cylinder of the oil cylinder of the oil cylinder of a directions X or cylinder, a Y direction or cylinder, a Z direction or cylinder and rotary oil cylinder or cylinder.Every dimension motion of each platform all is to go independent execution by corresponding hydraulic jack or cylinder, wherein the oil cylinder of the oil cylinder of directions X or cylinder and Y direction or cylinder are installed in the platform next door in the radial direction, and rotary oil cylinder or cylinder are installed in the following tangential direction of motor cabinet.

The platform support of two motor platform is divided into four layers, and last layer is the 4th layer, is the Z layer of skew up and down that produces the Z direction.The oil cylinder of Z direction or cylinder are installed in the center of each platform, and the 4th layer of platform withstood with spherical joint in the upper end.The lower end with spherical joint be fixed on motor cabinet below.The 3rd layer of rotation platform for the platform generation is rotated, rotary oil cylinder or cylinder are on the tangential direction on rotation platform next door, and rotary oil cylinder or cylinder one end and rotation platform link together, and the other end is fixed on X on platform; Second layer platform is for producing both X layers of motor axial dipole field of directions X, and the oil cylinder of directions X or cylinder one end are installed in X on platform, and the other end is fixed on the ground of the outer directions X of testing table; The platform of bottom is for producing the platform of Y direction skew, bottom divides two-layer, following one deck fixes on the ground, the upper platform that moves along the Y direction adopts the structure of surface bearing to slide on lower floor's platform, it is outer in the radial direction that oil cylinder or cylinder are installed in the bottom, one end is installed in Y on platform, and the other end is fixed on the ground of the outer Y direction of testing table.

In testing table, there is a cover to be used to control the Hydraulic Station or the air compression station of hydraulic jack or cylinder; Also have a cover to be used for the sensor of the amplitude position of quantitative controlled motion; Electronic relay module in the testing table goes to carry out frequency control or programmed control by computing machine; Also be provided with the tachometer torquemeter that is used to measure torque, rotating speed and axial force.Two platforms can be controlled by computing machine separately in real time, and also program is controlled in accordance with regulations.Tested motor and accompany the examination motor can be directly installed on the platform, also can be installed on the platform indirectly by framework.Between two motor tachometer torquemeter is installed, its height is by its erecting frame adjustment.The rotating shaft of motor and tachometer torquemeter is coupled by the globe joint shaft coupling.The traction of motor and retarding torque are transmitted by the globe joint shaft coupling, and torque, rotating speed and axial force are measured by tachometer torquemeter.The first-harmonic of the voltage of motor, electric current and power, harmonic wave and real effective are measured by the alternating-current actuating system tester.

Accompany examination motor and tested motor also can power by the variable-frequency power sources of vector controlled by torque control of conversion power supply, one cover traction, a cover braking, its energy feed back in DC link, traction and braking energy balance on DC link of test usefulness have been offset, only need import the loss that two motors and two cover inverters are provided during test, so can economize on electricity more than 90%.

Asynchronous traction motor can be finished (starting characteristic, permanent merit are boosted, permanent merit constant voltage, permanent merit are boosted, 5 sections of natural characteristic the carry out attribute testing) all test subjects by the IEC1377 standard code fully.Can accurately measure torque, rotating speed, voltage (first-harmonic and harmonic wave), electric current (first-harmonic and harmonic wave), power (first-harmonic and harmonic wave) in test.

The present invention has the purposes than broad, not only can be used for carrying out the asynchronous traction motor compbined test, also can carry out the structural member of the outer motor of standard code, globe joint shaft coupling, kinematic train and comprise power supply and the research of control system, reliability, permanance and durability test.

Along with developing rapidly of China Express Railway, urban track traffic and subway, the demand of the track traffic of power decentralized is increasing, the connected mode of globe joint shaft coupling is extremely general, the alignment bearing of motor is subjected to serious challenge, and the connected mode of this theoretically globe joint shaft coupling does not produce axial force to motor.But in fact the bearing of this class motor of home and abroad all has damage.Japan adopts this structure very general, but the accident of 6311 alignment bearings damage also happens occasionally, the external motor alignment bearing of Guangzhou Underground and Hong Kong subway happens occasionally too, so the test compbined test of this four-dimensional movement of mixing the globe joint shaft coupling is not only to the alignment bearing of motor, in addition all useful to the test examination of other structural member.

Description of drawings

Fig. 1 is the structural drawing of one embodiment of the invention;

Fig. 2 is the structure vertical view of the embodiment of the invention;

Fig. 3 is the structure side view of the embodiment of the invention.

Among the figure: 1, tested motor; 2, tested motor test platform; 3, globe joint shaft coupling; 4, signal detection system; 5, accompany the examination motor test platform; 6, accompany the examination motor; 7, the oil cylinder of directions X or cylinder; 8, the oil cylinder of Z direction or cylinder; 9, the oil cylinder of Y direction or cylinder; 10, rotary oil cylinder or cylinder; 11, the platform of Y direction skew; 12, the middle layer of directions X skew; 13, rotating layer; 14, platform top layer.

Embodiment

Accompanying drawing has provided one embodiment of the present of invention, and the invention will be further described below in conjunction with accompanying drawing.

From accompanying drawing as can be seen, the present invention is a kind of multi-function test stand of asynchronous traction motor multi-dimensional movement, it is according to the working condition of asynchronous traction motor at actual motion, the test method of a kind of four-dimensional movement mode that proposes, described four-dimensional movement mode is: the motor mounting platform that adopts two covers can freely carry out the four-dimensional movement that three dimensions adds rotary motion is tested asynchronous traction motor; A wherein cover traction, a cover braking, its energy feeds back in DC link.Two motors is installed respectively on these two platforms, and another is tested motor to one of two motors in order to accompany the examination motor, accompanies examination motor and tested motor to power by same power supply.The motor mounting platform that can freely carry out the four-dimensional movement that three dimensions adds rotary motion by two covers is equivalent to motor-car vertically, axially and the three-dimensional motion of vertical vibration to tested motor, and the various performance tests under the operating mode that rotatablely moves of wheel team generation when turning.

According to the testing table that said method proposed is a kind of four-dimensional movement asynchronous traction motor multi-function test stand, comprise tested motor 1, can finish that to be equivalent to motor-car vertical for one, axially and the three-dimensional motion of vertical vibration, and can also finish the tested motor test platform 2 that rotatablely moves that is equivalent to take turns team's generation when turning, globe joint shaft coupling 3, signal detection system 4, can finish that to be equivalent to motor-car vertical for one, axially and the three-dimensional motion of vertical vibration, and can also finish be equivalent to take turns team produces when turning rotatablely move accompany examination motor test platform 5 and accompany and try motor 6.At tested motor test platform 2 and accompany the power of examination motor test platform 5 all to have the decapacitation of being provided with to finish to be equivalent to motor-car vertically, axially and outside the three-dimensional motion of vertical vibration, can also finish four oil cylinders or the cylinder that are equivalent to take turns to rotatablely moving of when turning, producing, the every dimension motion of each platform all is to be gone to carry out by corresponding hydraulic jack or cylinder, comprising the oil cylinder of the oil cylinder of the oil cylinder of a directions X or cylinder 7, a Y direction or cylinder 9, a Z direction or cylinder 8 and rotary oil cylinder or cylinder 10.Wherein the oil cylinder of Z direction or cylinder 8 are installed in the center of each platform, be positioned at motor cabinet below, the oil cylinder 9 of Y direction and the oil cylinder of directions X or cylinder 7 are installed in the platform next door in the radial direction, and rotary oil cylinder or cylinder 9 are installed in the following tangential direction of motor cabinet.Whole platform support is divided into four layers, and platform top layer 14 moves for being used to make platform produce the Z direction.The 3rd layer of rotating layer 13 for rotation, rotary oil cylinder or cylinder 10 link together to platform 12 with rotating layer 13 and X on the tangential direction on rotating layer 13 next doors; The second layer of platform is to be used to make platform to produce the middle layer 12 of directions X skew, and the oil cylinder 7 of directions X is installed in middle layer 12 in the radial direction outward, and an end is installed in X on platform, and the other end is fixed on the ground of the outer directions X of testing table; The bottom of platform is to be used to make platform to produce the platform 11 of Y direction skew, the platform of Y direction skew 11 minutes is two-layer, following one deck fixes on the ground, the upper platform that moves along the Y direction adopts the structure of surface bearing to slide on lower floor's platform, it is outer in the radial direction that Y direction oil cylinder or cylinder 7 are installed in the bottom, one end is installed in the upper strata of Y to platform 11, and the other end is fixed on the ground of the outer Y direction of testing table.

Can increase if desired four-dimensional platform be placed in tested motor test platform 2 and accompany the examination motor test platform 5 between.The gear case of big pinion wheel and wheel be contained in the tachometer torquemeter of torque carry out more complicated dynamic test and anti-test and the mechanical endurance test of shaking on this platform.

In testing table or outside have a cover to be used to control the Hydraulic Station or the air compression station of hydraulic jack or cylinder; Also have a cover to be used for the sensor of the amplitude position of quantitative controlled motion; Electronic relay module in the testing table goes to carry out frequency and amplitude control or programmed control by computing machine; Also be useful on the tachometer torquemeter of measuring torque, rotating speed and axial force.Two platforms can carry out real-time accurate control by computing machine separately, and also program is controlled in accordance with regulations.Tested motor and accompany the examination motor can be directly installed on the platform, the framework of fixed form that also can be by similar bogie is installed on the platform indirectly.Between two motor tachometer torquemeter is installed, its height is by its erecting frame adjustment.The rotating shaft of motor and tachometer torquemeter is coupled by the globe joint shaft coupling.The traction of motor and retarding torque are transmitted by the globe joint shaft coupling, and torque, rotating speed and axial force are measured by tachometer torquemeter.The first-harmonic of the voltage of motor, electric current and power, harmonic wave and real effective are measured by the alternating-current actuating system tester.

Accompany examination motor and tested motor by two cover power supply power supplies, one cover traction, a cover braking, its energy feed back in DC link, main traction and braking energy balance on DC link has been offset, the input power supply only need provide the loss of two motors and two cover inverters during test, so can economize on electricity more than 90%.

Asynchronous traction motor can be finished (starting characteristic of design, permanent merit are boosted, permanent merit constant voltage, permanent merit are boosted, 5 sections of natural characteristic the carry out attribute testing) all test subjects by the IEC1377 standard code fully.Can accurately measure torque, rotating speed, voltage (first-harmonic and harmonic wave), electric current (first-harmonic and harmonic wave), power (first-harmonic and harmonic wave) in test.

The present invention has the purposes than broad, not only can be used for carrying out the asynchronous traction motor compbined test, also can carry out the structural member of the outer motor of standard code, globe joint shaft coupling and the research, reliability, permanance and the durability test that comprise power supply and control system thereof.

Claims (9)

1. asynchronous traction motor four-dimensional movement comprehensive testing method, it is characterized in that: according to the working condition of asynchronous traction motor at actual motion, propose a kind of test method of four-dimensional movement mode, described four-dimensional movement mode is: the motor mounting platform that adopts two covers can freely carry out the four-dimensional movement that three dimensions adds rotary motion is tested asynchronous traction motor; A wherein cover traction, a cover braking, its energy feeds back in DC link; Two motors is installed respectively on these two platforms, and another is tested motor to one of two motors in order to accompany the examination motor, accompanies examination motor and tested motor to power by same power supply; The motor mounting platform that can freely carry out the four-dimensional movement that three dimensions adds rotary motion by two covers is equivalent to motor-car vertically, axially and the three-dimensional motion of vertical vibration to tested motor, and the various performance tests under the operating mode that rotatablely moves of wheel team generation when turning.

2. realize that right 1 requires the four-dimensional movement multi-function test stand of described asynchronous traction motor test method for one kind, comprise and accompany the examination motor, two test platforms, shaft coupling and signal detection system, it is characterized in that: on two platforms, be provided with decapacitation and finish that to be equivalent to motor-car vertical, axially and outside the three-dimensional motion of vertical vibration, can also finish four oil cylinders or the cylinder that are equivalent to take turns to rotatablely moving of when turning, producing, comprising the oil cylinder or the cylinder of a directions X, the oil cylinder of a Y direction or cylinder, the oil cylinder of a Z direction or cylinder and rotary oil cylinder or cylinder.

3. according to right 2 described four-dimensional movement multi-function test stands, it is characterized in that: the oil cylinder of the oil cylinder of directions X and Y direction is installed in the platform next door in the radial direction, and rotary oil cylinder is installed in the following tangential direction of motor cabinet.

4. according to right 2 described four-dimensional movement multi-function test stands, it is characterized in that: in testing table, have a cover to be used to control the Hydraulic Station or the air compression station of hydraulic jack or cylinder; Also have a cover to be used for the sensor of the amplitude position of quantitative controlled motion; Electronic relay module in the testing table goes to carry out frequency and amplitude control or programmed control by computing machine; Also be provided with the tachometer torquemeter that is used to measure torque, rotating speed and axial force.

5. according to right 2 described four-dimensional movement multi-function test stands, it is characterized in that: tested motor and accompany the examination motor to be directly installed on the platform or the framework of the fixed form by similar bogie is installed on the platform indirectly.

6. according to right 2 described four-dimensional movement multi-function test stands, it is characterized in that: between two motor tachometer torquemeter is installed, its height is by its erecting frame adjustment.

7. according to right 2 described four-dimensional movement multi-function test stands, it is characterized in that: the rotating shaft of motor and tachometer torquemeter is coupled by the globe joint shaft coupling; The traction of motor and retarding torque are transmitted by the globe joint shaft coupling, and torque, rotating speed and axial force are measured by tachometer torquemeter; The first-harmonic of the voltage of motor, electric current and power, harmonic wave and real effective are measured by the alternating-current actuating system tester.

8. purposes as right 2 described four-dimensional movement multi-function test stands, it is characterized in that: described four-dimensional movement multi-function test stand is used to carry out the dynamic test of asynchronous traction motor mechanical vibration.

9. as the purposes of right 6 described four-dimensional movement multi-function test stands, it is characterized in that: described four-dimensional movement multi-function test stand is used for carrying out research, reliability, permanance and the durability test that structural member, globe joint shaft coupling, the transfer gear train of the outer motor of standard code are unified and comprised power supply and control system thereof.

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