CN202599496U - Testboard used for mass, center of mass position and moment of inertia - Google Patents

Testboard used for mass, center of mass position and moment of inertia Download PDF

Info

Publication number
CN202599496U
CN202599496U CN 201220214359 CN201220214359U CN202599496U CN 202599496 U CN202599496 U CN 202599496U CN 201220214359 CN201220214359 CN 201220214359 CN 201220214359 U CN201220214359 U CN 201220214359U CN 202599496 U CN202599496 U CN 202599496U
Authority
CN
China
Prior art keywords
worktable
moment
fixed
inertia
center
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn - After Issue
Application number
CN 201220214359
Other languages
Chinese (zh)
Inventor
秦现生
谭小群
张雪峰
付轶轩
谷运龙
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Northwestern Polytechnical University
Original Assignee
Northwestern Polytechnical University
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Northwestern Polytechnical University filed Critical Northwestern Polytechnical University
Priority to CN 201220214359 priority Critical patent/CN202599496U/en
Application granted granted Critical
Publication of CN202599496U publication Critical patent/CN202599496U/en
Anticipated expiration legal-status Critical
Withdrawn - After Issue legal-status Critical Current

Links

Images

Landscapes

  • Investigating Strength Of Materials By Application Of Mechanical Stress (AREA)

Abstract

The utility model discloses a testboard used for mass, center of mass position and moment of inertia. The testboard enables measuring of mass and center of mass position of a to-be-detected product to be separated from measuring of moment of inertia of the to-be-detected product without interference with each other, and is capable of measuring the mass, the center of mass position and the moment of inertia of the product simultaneously by the same testboard. Through replacement of different positioning mechanisms and clamping mechanisms, products with different sizes and different shapes can be measured. The moment of inertia can be directly measured. A portable industrial control computer is adopted by a control system of the testboard. A weighing sensor and a torque sensor are convenient to mount and dismount, can be used for calibration independently, or can be used for calibration together with a moment of inertia device. A measurement and control system can be used for arrangement and adjustment of parameters, and calibration of the sensors. The system also has functions of fault diagnosis, safety protection, data storage and printing. The testboard of the utility model is high in measuring precision and wide in testing scope, and is simple to operate.

Description

A kind of test board that is used for quality, centroid position and moment of inertia
Technical field
The utility model relates to a kind of test board that is used for quality, centroid position and moment of inertia, belongs to Machine Design and manufacturing and testing apparatus field.
Background technology
The mass property parameter is as important physical parameter, to the important influence such as consistance of kinetic stability, operability, maneuverability and the aggregate motion of object.Present Methon for Determining Moment of Inertia generally has the three-way method, single line of rocking to rock method, physical pendulum method, falling bodies method and the metal torsion bar method of shaking.
A kind of novel power assembly moment of inertia test platform is disclosed in patent 200920210208.0.This test platform comprises to be installed flat board, lower swinging disc, wire rope, bulb coupling arrangement, goes up that wire rope steps up and length adjustment device, wire rope steps up and length adjustment device, force transducer, bearing, center disk and swing arm composition down.This test platform can be realized the test to the workpiece moment of inertia, needs testee is put on the balance but measure at every turn, for the object inconvenient operation complex-shaped, that quality is bigger; The wire rope two ends are hinged, can increase the damping in the measuring process, increase measuring error; Adopt manual time-keeping bigger, also can increase measuring error influence measuring period.
Described a kind of method for measuring rotary inertia based on minimum condition system identification theory in the patent 200910011858.7, its rotation inerttia precision is 1%, and measuring accuracy is difficult to satisfy the test request of high precision moment of inertia.
Existing rotational inertia test apparatus efficient is low, error is big, intelligent degree is not high, and adopts this class testing measurement device disposable product quality, centroid position and moment of inertia not to be measured; Along with the increase of athletic equipment production capacity with the task of detection, existing method of testing is subject to high human cost and inefficient various factors, more and more is difficult to satisfy produce and the test needs.
The utility model content
Measuring error is big in the prior art, efficient is low in order to overcome, the deficiency that measuring method is single, cost is high, and the utility model proposes a kind of test board that is used for quality, centroid position and moment of inertia.Its measuring accuracy of this test board is high, test specification is wide, easy and simple to handle; Can make the measurement of quality, the centroid position of measured workpiece not disturb mutually, separate and carry out, be implemented in same test board quality, centroid position and the moment of inertia of measuring workpieces simultaneously with the measurement of the moment of inertia of measured workpiece.
The utility model solves its technical matters, and the technical scheme that is adopted is: comprise detent mechanism, clamp system, worktable, elevating mechanism, Power Component, housing, control box, electric control gear;
Said worktable is that workpiece to be tested and fixture component provide support; Detent mechanism and clamp system are separately fixed in the chute of hollow out on the worktable; The center line of two chutes of stationary positioned mechanism is perpendicular in the worktable center with the center line of two chutes that fix to clamp mechanism; It is relative with clamp system that positioning baffle is fixed on the worktable middle part; Detent mechanism is positioned at a side of positioning baffle, and the fixed head of positioning baffle is provided with rectangular boss, and rectangular boss center is coaxial with the center line of two chutes of stationary positioned mechanism; There is conical boss at worktable bottom center place, is provided with spline in the boss groove.
Said elevating mechanism is made up of worm gear, worm screw, transmission shaft, leading screw, LOAD CELLS, weighing plate, nut, spring bearing, guide rail, transmission shaft upper end holder, transmission shaft lower end holder, and elevating mechanism is positioned at below the worktable, is installed on the housing; LOAD CELLS is fixed on the circular weighing plate, and there is the guide rail mounting hole weighing plate center screw both sides, and two guide rails pass the guide rail mounting hole and are fixedly mounted on the housing, and parallel with leading screw; Said leading screw is a hollow cylinder, and the leading screw middle part is provided with boss, on the leading screw of boss one side screw thread is arranged, and worm gear is fixed on the opposite side of leading screw convex platform, and fixed cover is installed between worm gear and the spring bearing, and spring bearing is fixed on the housing; The end that transmission shaft is provided with spline passes the leading screw central shaft hole and worktable is connected, and the other end is connected with the transmission shaft shaft coupling; The leading screw both ends are provided with internal thread, and leading screw passes nut and is connected with transmission shaft lower end holder with transmission shaft upper end holder respectively with weighing plate; Worm screw is fixed on the worm screw seat and is connected with worm gear, and the worm screw seat is installed on the housing.
Said Power Component comprises servomotor, sensor shaft coupling, torque sensor, speed reduction unit, and Power Component is positioned at housing, is fixed on the falling on the L shaped back up pad of housing center pit both sides; The servomotor output shaft is connected with speed reduction unit, and speed reduction unit is connected with the sensor shaft coupling; The sensor shaft coupling is connected with the torque sensor input end, and the torque sensor output terminal is connected with the transmission shaft shaft coupling; Torque sensor is fixed on the back up pad, is positioned at speed reduction unit top; Electric cabinet is positioned at the housing inner underside.
Said electric control gear comprises drive system, signal acquiring system and control system, and the instruction of drive system receiving control system realizes topworks's action, platform and the mechanical body device motion of finishing the work; Signal acquiring system comprises LOAD CELLS acquisition module, torque sensor module and coder module, realizes calculating the measurement of desired parameters; Control system realizes the man-machine interaction of test parameters and servo controller being set data resource management through portable industrial pc, and realization is to the control of motor and the analog quantity of LOAD CELLS, torque sensor and scrambler, the collection and the processing of digital quantity.
Said LOAD CELLS is three and is uniformly distributed with and is fixed on the weighing plate.
The utility model is used for the test board of quality, centroid position and moment of inertia, and its test process may further comprise the steps:
Step 1: frock is prepared, and detent mechanism and clamp system is fixed on the worktable adjustment location relative position;
Step 2: measured workpiece is installed, and measured workpiece is installed on the stand, confirms the location completion, and measured workpiece clamps, and accomplishes measured workpiece and installs; Completion is to the support of workpiece and provide mech's clamping to hold the strong point;
Step 3: calibration sensor precision;
Step 4: quality and centroid position are measured, and system powers on, the forward rotation handwheel; Nut drives weighing plate and moves up along guide rail, makes between transmission shaft and the worktable to relatively move, and three LOAD CELLSs on the weighing plate support worktable; Three LOAD CELLSs differ 120 °, and LOAD CELLS passes to industrial computer with signal and position signalling, are that initial point O sets up coordinate system with the rotation and the centre of location of worktable; OX, OY are the worktable axis of reference
According to force balance principle, workpiece gross mass then:
m=m 1+m 2+m 3
Wherein: m 1By LOAD CELLS 1 is surveyed workpiece quality, m 2By LOAD CELLS 2 is surveyed workpiece quality,
m 3By LOAD CELLS 3 is surveyed workpiece quality;
According to principle of moment balance, OX axle and OY axle are got square respectively, then workpiece barycenter y radially c, axial barycenter x cFor: y c=(m 2H 2+ m 3H 3)/m,
x c=(m 2L 2+m 3L 3-m 1L 1)/m;
Wherein: H 2Be the distance of b point apart from the OX axle, H 3Be the distance of c point apart from the OX axle,
L 1Be the distance of a point apart from the OY axle, L 2Be the distance of b point apart from the OY axle,
L 3Be the distance of c point apart from the OY axle;
Step 5: rotation inerttia, the backward rotation handwheel separates weighing plate and worktable; Start servomotor, servomotor output constant moment, the Control work platform is by the loading spectrum motion of setting; Torque sensor is surveyed torque signal with institute and is inputed to industrial computer, according to the angle of rotation acceleration in the calculated signals some cycles of scrambler, with utilization law of rotation (J=M/P) and parallel axis theorem; In conjunction with angular acceleration; The measured value of torque sensor, and quality and the centroid position surveyed calculate the moment of inertia of workpiece when actual axle is rotated;
Step 6: printing test data and trial curve.
Adjustable according to test request servomotor output speed, motor is exported the even deceleration test angles acceleration that quickens, spares at the uniform velocity.
Beneficial effect
The utility model is used for the test board of quality, centroid position and moment of inertia.Can make the measurement of quality, the centroid position of test product not disturb mutually, separate and carry out, be implemented in same test board quality, centroid position and the moment of inertia of measurement products simultaneously with the measurement of the moment of inertia of test product.The utility model highly versatile can be realized different sizes and difform product are measured through changing different detent mechanisms and clamp system; And when product is tested, specify axle and center of rotation distance, obtain product around appointment axle moment of inertia, and can directly measure moment of inertia through input; The utility model automaticity is high, and control system is used portable industrial pc, and system hardware has opening and modular requirement; And LOAD CELLS, torque sensor convenient disassembly can independently be demarcated, or demarcate together in company with moment of inertia equipment; TT&C system possesses parameter setting and adjusting, transducer calibration, system fault diagnosis, security of system protection and data storage, printing function; Its measuring accuracy of the utility model test board is high, test specification is wide, easy and simple to handle.
Description of drawings
Below in conjunction with accompanying drawing and embodiment a kind of test board that is used for quality, centroid position and moment of inertia of the utility model is done further explain.
Fig. 1 is the LOAD CELLS installation site synoptic diagram of the utility model.
Fig. 2 is the test board synoptic diagram of the utility model.
Fig. 3 is the detent mechanism synoptic diagram of the utility model.
Fig. 4 is the detent mechanism vertical view of the utility model.
Fig. 5 is the positioning baffle position view of the utility model.
Fig. 6 is the elevating mechanism synoptic diagram of the utility model.
Fig. 7 is the test board control synoptic diagram of the utility model.
Fig. 8 is the workflow diagram of the utility model.
Among the figure:
1. housing 2. servomotors 3. decelerators 4. sensor shaft couplings 5. torque sensors 6. power transmission shafts 7. elevating mechanisms 8. weighing plates 9. LOAD CELLSs 10. workbench 11. clamp mechanism 12. positioning baffles 13. detent mechanisms 14. leading screws 15. guide rails 16. power transmission shaft lower end holders 17. bottom end bearings 18. worm gears 19. nuts 20. power transmission shafts upper ends holder 21. splines 22. upper end bearings 23. worm screws 24. electric cabinets 25. bolts 26. primary nuts 27. spring shims 28. spring bearings
Embodiment
Present embodiment is a kind of test board that is used for quality, centroid position and moment of inertia; Be used for the test of product quality, centroid position and moment of inertia, it comprises detent mechanism, clamp system, worktable, elevating mechanism, Power Component, housing, control box, electric control gear.
The utility model is used for the test board of quality, centroid position and moment of inertia, and like Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5 and shown in Figure 6, worktable 10 provides support for workpiece to be tested and fixture component; Detent mechanism 13 is fastened in the chute of hollow out on the worktable 10 through bolt 25 and primary nut 26 and spring shim 27 respectively with clamp system 11; The center line of two chutes of stationary positioned mechanism 13 is perpendicular in the center of worktable 10 with the center line of two chutes that fix to clamp mechanism 11; It is relative with clamp system 11 that positioning baffle 12 is fixed on worktable 10 middle parts; Chute through hollow out on the worktable 10 is regulated its relative position, adapts to the measured workpiece of different size.Detent mechanism 13 is positioned at a side of positioning baffle 12, and the fixed head of positioning baffle 12 is provided with rectangular boss, and rectangular boss center is coaxial with the center line of two chutes of stationary positioned mechanism 13; There is conical boss at worktable 10 bottom center place, is provided with spline in the boss groove.
Elevating mechanism is made up of worm gear 18, worm screw 23, transmission shaft 6, leading screw 14, LOAD CELLS 9, weighing plate 8, nut 19, spring bearing 28, guide rail 15, transmission shaft lower end holder 16, transmission shaft upper end holder 20.Elevating mechanism is positioned at worktable 10 bottoms, is installed in above the housing 1; LOAD CELLS 9 is fixed on the circular weighing plate 8, and there is the guide rail mounting hole weighing plate 8 center screw both sides, and two identical guide rails 15 pass the guide rail mounting hole and are fixedly mounted on the housing 1, and parallel with leading screw 14, and weighing plate 8 moves up and down along guide rail 15; Leading screw 14 is a hollow cylinder, and the leading screw middle part is provided with boss, on the leading screw 14 of boss one side screw thread is arranged, and leading screw passes nut 19 and weighing plate 8 fixed installations; Worm gear 18 is fixed on leading screw 14 convex platform opposite sides, and fixed cover is installed between worm gear 18 and the spring bearing 28, and spring bearing 28 is fixed in the housing center pit; Central shaft hole and worktable 10 that the end that transmission shaft 6 is provided with spline passes leading screw 14 are connected, and the other end is connected with the shaft coupling of housing internally-powered assembly; Leading screw 14 both ends are provided with internal thread, are connected with transmission shaft lower end holder 16 with transmission shaft upper end holder 20 respectively; Drive worm gear 18 through worm screw 23 and rotate, drive nut and weighing plate and move up and down; Leading screw 14 and worm gear 18 are connected through flat key, and worm screw 23 is fixed on the worm screw seat and cooperates with worm gear 18, and the worm screw seat is fixed in the upper surface of housing 1.
As shown in Figure 2, Power Component comprises servomotor 2, sensor shaft coupling 4, torque sensor 5, speed reduction unit 3, and Power Component is positioned at housing 1, is fixed on the falling on the L shaped back up pad of housing 1 center pit both sides; Servomotor 2 output shafts are connected with speed reduction unit 3, and speed reduction unit 3 is connected with sensor shaft coupling 4; Sensor shaft coupling 4 is connected with torque sensor 5 input ends, and torque sensor 5 output terminals are connected with shaft coupling, and the transmission shaft shaft coupling is fixedly connected with transmission shaft 6; Servomotor 2 drives transmission shaft 6 and rotates, and drives worktable 10 and rotates; Torque sensor 5 is fixed on housing 1 interior plate, is positioned at speed reduction unit 3 tops; Electric cabinet 23 is positioned at housing 1 inner underside, is used to protect CCU, substitutes external electrical control cubicles so that dismounting and transportation; Servomotor 2 provides constant moment of torsion, and power passes to worktable 10 along driving-chain, worktable 10 is moved along the design load spectrum, thereby measure calculating.
Consult Fig. 7, Fig. 8, the electric control gear of quality, centroid position and moment of inertia test board comprises compositions such as drive system, signal acquiring system and control system.Drive system adopts AC servo motor; Signal acquiring system is mainly accomplished the collection of LOAD CELLS, torque sensor and code device signal and processing; The control system utilization system management software is accomplished control of servomotor moment of torsion and sensor signal data and is handled and calculate.Drive system realizes topworks's action, finish the work platform and mechanical body mechanism kinematic function through accepting the control system instruction; Signal acquiring system comprises LOAD CELLS acquisition module, torque sensor module and coder module, realizes calculating the measurement of desired parameters; Control system realizes data resource management through portable industrial pc; The man-machine interaction of test parameters and servo controller is set, and realizes the control of motor and the collection and the real-time task processing of analog quantitys such as LOAD CELLS, torque sensor and scrambler, digital quantity.
In the present embodiment, test product quality, centroid position and moment of inertia test detailed process are following: its test process may further comprise the steps:
Step 1: frock is prepared, and detent mechanism 13 and clamp system 11 is fixed on the worktable 10 relative position of adjustment location;
Step 2: measured workpiece is installed, and measured workpiece is installed on the worktable 10, confirms the location completion, and measured workpiece clamps, and accomplishes measured workpiece and installs; Completion is to the support of workpiece and provide mech's clamping to hold the strong point;
Step 3: calibration sensor precision;
Step 4: quality and centroid position are measured, and system powers on, the forward rotation handwheel; Nut 19 drives weighing plate 8 and moves up along guide rail 15, makes between transmission shaft 6 and the worktable 10 to relatively move, and three fixing on the weighing plate 8 LOAD CELLSs 9 support worktable; Three LOAD CELLSs differ 120 °, and LOAD CELLS 9 passes to industrial computer with signal and position signalling, are that initial point O sets up coordinate system with the rotation and the centre of location of worktable; OX, OY are the worktable axis of reference, and the contact point of LOAD CELLS and worktable is respectively a, b, c, and oxyz is the coordinate axis of workpiece; The OX axle of worktable overlaps with the ox axle of workpiece, referring to Fig. 1
According to force balance principle, workpiece gross mass then:
m=m 1+m 2+m 3
Wherein: m 1By LOAD CELLS 1 is surveyed workpiece quality, m 2By LOAD CELLS 2 is surveyed workpiece quality,
m 3By LOAD CELLS 3 is surveyed workpiece quality;
According to principle of moment balance, OX axle and OY axle are got square respectively, then workpiece radially barycenter y planar c, workpiece axial barycenter x planar cFor:
y c=(m 2H 2+m 3H 3)/m,
x c=(m 2L 2+m 3L 3-m 1L 1)/m;
Wherein: H 2Be the distance of b point apart from the OX axle, H 3Be the distance of c point apart from the OX axle,
L 1Be the distance of a point apart from the OY axle, L 2Be the distance of b point apart from the OY axle,
L 3Be the distance of c point apart from the OY axle;
Step 5: rotation inerttia, the backward rotation handwheel was opened weighing plate 8 and worktable in 10 minutes; Start servomotor 2, servomotor 2 output constant moment, Control work platform 10 is by the loading spectrum motion of setting; Torque sensor 5 is surveyed torque signal with institute and is inputed to industrial computer, according to the angle of rotation acceleration in the calculated signals some cycles of scrambler, with utilization law of rotation (J=M/P) and parallel axis theorem; In conjunction with angular acceleration; The measured value of torque sensor, and quality and the centroid position surveyed calculate the moment of inertia of workpiece when actual axle is rotated.
Step 6: printing test data and trial curve.

Claims (2)

1. a test board that is used for quality, centroid position and moment of inertia is characterized in that: comprise detent mechanism, clamp system, worktable, elevating mechanism, Power Component, housing, control box, electric control gear;
Said worktable is that workpiece to be tested and fixture component provide support; Detent mechanism and clamp system are separately fixed in the chute of hollow out on the worktable; The center line of two chutes of stationary positioned mechanism is perpendicular in the worktable center with the center line of two chutes that fix to clamp mechanism; It is relative with clamp system that positioning baffle is fixed on the worktable middle part; Detent mechanism is positioned at a side of positioning baffle, and the fixed head of positioning baffle is provided with rectangular boss, and rectangular boss center is coaxial with the center line of two chutes of stationary positioned mechanism; There is conical boss at worktable bottom center place, is provided with spline in the boss groove;
Said elevating mechanism is made up of worm gear, worm screw, transmission shaft, leading screw, LOAD CELLS, weighing plate, nut, spring bearing, guide rail, transmission shaft upper end holder, transmission shaft lower end holder, and elevating mechanism is positioned at below the worktable, is installed on the housing; LOAD CELLS is fixed on the circular weighing plate, and there is the guide rail mounting hole weighing plate center screw both sides, and two guide rails pass the guide rail mounting hole and are fixedly mounted on the housing, and parallel with leading screw; Said leading screw is a hollow cylinder, and the leading screw middle part is provided with boss, on the leading screw of boss one side screw thread is arranged, and worm gear is fixed on the opposite side of leading screw convex platform, and fixed cover is installed between worm gear and the spring bearing, and spring bearing is fixed on the housing; The end that transmission shaft is provided with spline passes the leading screw central shaft hole and worktable is connected, and the other end is connected with the transmission shaft shaft coupling; The leading screw both ends are provided with internal thread, and leading screw passes nut and is connected with transmission shaft lower end holder with transmission shaft upper end holder respectively with weighing plate; Worm screw is fixed on the worm screw seat and is connected with worm gear, and the worm screw seat is installed on the housing;
Said Power Component comprises servomotor, sensor shaft coupling, torque sensor, speed reduction unit, and Power Component is positioned at housing, is fixed on the falling on the L shaped back up pad of housing center pit both sides; The servomotor output shaft is connected with speed reduction unit, and speed reduction unit is connected with the sensor shaft coupling; The sensor shaft coupling is connected with the torque sensor input end, and the torque sensor output terminal is connected with the transmission shaft shaft coupling; Torque sensor is fixed on the back up pad, is positioned at speed reduction unit top; Electric cabinet is positioned at the housing inner underside;
Said electric control gear comprises drive system, signal acquiring system and control system, and the instruction of drive system receiving control system realizes topworks's action, platform and the mechanical body device motion of finishing the work; Signal acquiring system comprises LOAD CELLS acquisition module, torque sensor module and coder module, realizes calculating the measurement of desired parameters; Control system realizes the man-machine interaction of test parameters and servo controller being set data resource management through portable industrial pc, and realization is to the control of motor and the analog quantity of LOAD CELLS, torque sensor and scrambler, the collection and the processing of digital quantity.
2. a kind of test board that is used for quality, centroid position and moment of inertia according to claim 1 is characterized in that: said LOAD CELLS is three and is uniformly distributed with and is fixed on the weighing plate.
CN 201220214359 2012-05-14 2012-05-14 Testboard used for mass, center of mass position and moment of inertia Withdrawn - After Issue CN202599496U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201220214359 CN202599496U (en) 2012-05-14 2012-05-14 Testboard used for mass, center of mass position and moment of inertia

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 201220214359 CN202599496U (en) 2012-05-14 2012-05-14 Testboard used for mass, center of mass position and moment of inertia

Publications (1)

Publication Number Publication Date
CN202599496U true CN202599496U (en) 2012-12-12

Family

ID=47317025

Family Applications (1)

Application Number Title Priority Date Filing Date
CN 201220214359 Withdrawn - After Issue CN202599496U (en) 2012-05-14 2012-05-14 Testboard used for mass, center of mass position and moment of inertia

Country Status (1)

Country Link
CN (1) CN202599496U (en)

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102692264A (en) * 2012-05-14 2012-09-26 西北工业大学 Test bench and test method for mass, position of center of mass and rotational inertia
CN104075847A (en) * 2013-03-26 2014-10-01 苏州工业园区聚博精密设备有限公司 Portable dynamic balance tester and dynamic balance test method by using same
CN104743334A (en) * 2013-12-27 2015-07-01 楚天科技股份有限公司 Automatic feed/discharge protecting device and automatic feed/discharge system of freeze dryer
CN104760711A (en) * 2014-12-04 2015-07-08 上海卫星装备研究所 Satellite solar battery array simulation driving device
CN105067094A (en) * 2015-09-09 2015-11-18 长春工业大学 Torque type fan-shaped paper pulp grinding mass and centroid detection device
CN105136393A (en) * 2015-09-09 2015-12-09 长春工业大学 Sector paper pulp abrasive disc measuring and pairing equipment
CN105157919A (en) * 2015-09-24 2015-12-16 长春理工大学 Device for measuring rotation inertia of three torsion bars
CN105651362A (en) * 2016-02-24 2016-06-08 核工业理化工程研究院 Measuring device for reduced mass of large-damping dynamic damper
CN105784080A (en) * 2016-02-24 2016-07-20 核工业理化工程研究院 Large-damping power damper reduced mass measurement method
CN106066244A (en) * 2016-08-04 2016-11-02 程伟 A kind of large inertia torsional flexibility load simulating device
CN106153100A (en) * 2015-03-31 2016-11-23 孔丹群 Swinging quality center of mass tester
CN107255509A (en) * 2017-07-10 2017-10-17 青岛格莱瑞智能控制技术有限公司 A kind of mass property measuring system of four-point method
CN110906862A (en) * 2019-12-02 2020-03-24 哈尔滨工业大学 Geometric morphology and quality characteristic integrated measuring device for large-scale high-speed rotation equipment

Cited By (19)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102692264B (en) * 2012-05-14 2014-02-05 西北工业大学 Test bench and test method for mass, position of center of mass and rotational inertia
CN102692264A (en) * 2012-05-14 2012-09-26 西北工业大学 Test bench and test method for mass, position of center of mass and rotational inertia
CN104075847B (en) * 2013-03-26 2017-02-08 苏州工业园区聚博精密设备有限公司 Portable dynamic balance tester and dynamic balance test method by using same
CN104075847A (en) * 2013-03-26 2014-10-01 苏州工业园区聚博精密设备有限公司 Portable dynamic balance tester and dynamic balance test method by using same
CN104743334A (en) * 2013-12-27 2015-07-01 楚天科技股份有限公司 Automatic feed/discharge protecting device and automatic feed/discharge system of freeze dryer
CN104743334B (en) * 2013-12-27 2017-09-15 楚天科技股份有限公司 The protection device and discharging system of freeze dryer automatic feed/discharge
CN104760711A (en) * 2014-12-04 2015-07-08 上海卫星装备研究所 Satellite solar battery array simulation driving device
CN106153100A (en) * 2015-03-31 2016-11-23 孔丹群 Swinging quality center of mass tester
CN106153100B (en) * 2015-03-31 2020-05-26 南京乾利合科技有限责任公司 Rotary mass and mass center tester
CN105136393A (en) * 2015-09-09 2015-12-09 长春工业大学 Sector paper pulp abrasive disc measuring and pairing equipment
CN105067094A (en) * 2015-09-09 2015-11-18 长春工业大学 Torque type fan-shaped paper pulp grinding mass and centroid detection device
CN105136393B (en) * 2015-09-09 2017-12-26 长春工业大学 A kind of fan-shaped paper pulp grinding measurement paired device
CN105157919A (en) * 2015-09-24 2015-12-16 长春理工大学 Device for measuring rotation inertia of three torsion bars
CN105157919B (en) * 2015-09-24 2017-10-03 长春理工大学 Three torsion bar rotation inerttia devices
CN105651362A (en) * 2016-02-24 2016-06-08 核工业理化工程研究院 Measuring device for reduced mass of large-damping dynamic damper
CN105784080A (en) * 2016-02-24 2016-07-20 核工业理化工程研究院 Large-damping power damper reduced mass measurement method
CN106066244A (en) * 2016-08-04 2016-11-02 程伟 A kind of large inertia torsional flexibility load simulating device
CN107255509A (en) * 2017-07-10 2017-10-17 青岛格莱瑞智能控制技术有限公司 A kind of mass property measuring system of four-point method
CN110906862A (en) * 2019-12-02 2020-03-24 哈尔滨工业大学 Geometric morphology and quality characteristic integrated measuring device for large-scale high-speed rotation equipment

Similar Documents

Publication Publication Date Title
CN202599496U (en) Testboard used for mass, center of mass position and moment of inertia
CN102692264B (en) Test bench and test method for mass, position of center of mass and rotational inertia
CN106525412A (en) Overall performance detection platform for rotary table part and detection method thereof
CN206593851U (en) RV decelerator dynamic and static state performance test systems
CN102426097B (en) Dynamic loading device for high-speed motorized spindle
CN106769021A (en) A kind of industrial robot power unit reliability test bench
CN103033363A (en) Integrated parameter test device of speed reducer
CN105043791B (en) A kind of pneumatic gripping testing stand
CN207139722U (en) Vertical rotary workbench
CN112577666B (en) Verification and calibration method for torque wrench calibrator
CN104677647B (en) Brake performance tester calibrating device
CN111721697A (en) General measuring device for key friction coefficients of bolt applicable to torque method and corner method
CN106338325B (en) A kind of skin Nano satellite quality, mass center and rotary inertia integrated measurer
CN208443578U (en) Robot retarder angle displacement measuring device
CN109489964A (en) Based on to the electro spindle reliability test bench automatic centring device for dragging load
CN110186673B (en) Experimental device for measuring mechanical properties of plastic gear planetary reducer
CN103353392B (en) A kind of Automated condtrol torsional bending testing machine
CN202158921U (en) Test board for self-locking moment of airplane wheel nut
CN106289771B (en) A kind of measuring device of harmonic gear reducer engagement torsion stiffness
CN103148925A (en) Portable high-precision electronic price computing scale certification device
CN107271183A (en) A kind of industrial robot reductor torsional rigidity test of vehicular platform
CN106247934A (en) A kind of pose measuring apparatus based on 6 SPS parallel institutions
CN109916622A (en) A kind of RV speed reducer testing stand and its connecting tooling
CN107538442A (en) Vertical rotary workbench
CN205826824U (en) A kind of motor moment charger

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
AV01 Patent right actively abandoned

Granted publication date: 20121212

Effective date of abandoning: 20140205

RGAV Abandon patent right to avoid regrant