CN107520039B - Suitable for rotating the roller monitoring device of grinding mill barrel - Google Patents
Suitable for rotating the roller monitoring device of grinding mill barrel Download PDFInfo
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- CN107520039B CN107520039B CN201711023093.XA CN201711023093A CN107520039B CN 107520039 B CN107520039 B CN 107520039B CN 201711023093 A CN201711023093 A CN 201711023093A CN 107520039 B CN107520039 B CN 107520039B
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- stator
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- grinding mill
- mill barrel
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C25/00—Control arrangements specially adapted for crushing or disintegrating
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Abstract
The roller monitoring device that the present invention relates to a kind of suitable for rotating grinding mill barrel, including sensor, cylindric stator is fixed with outside the sensor, arc cushion block is equipped between the front end and stator inner wall of sensor, stator is externally provided with the rotor rotated around it, the outside of the rotor is cylindrical surface and this cylindrical surface is contacted with grinding mill barrel in roller, and the linear velocity of the two is identical.The present invention can adapt in the working state monitoring principle of the ball grinder interior of revolution working condition;Ball mill working condition is predicted, to overcome the problems, such as that existing ball mill status monitoring exists.
Description
Technical field
It is one kind directly from rotation status the invention belongs to the test and analysis instrument of Mill Working state and ore grinding load
Grinding mill barrel on measure vibration signal, judge ore milling concentration height, material ball ratio and filling rate size, wear liner inside grinding machine
The test and analysis instrument of the states such as degree, in particular to a kind of roller suitable for rotating grinding mill barrel monitors
Device.
Background technique
Ore grinding be by means of the intracorporal medium of ball mill rotating cylinder (steel ball, rod iron, gravel) and ore itself impact and
Grinding and peeling effect makes ore partial size constantly become smaller, until the process that valuable mineral and gangue mineral are sufficiently dissociated.Grinding procedure
The state parameters such as the filling rate of product quality and ball grinder interior, material ball ratio, pulp density, wear liner amount, drum speed are high
Degree is related.However, due to the factors such as conventional centrifugal ore grinding principle and the design feature of ball mill, presently mainly by measuring axis
The audio signal outside the vibration signal and grinding machine of seat is held, predicts the working condition of ball mill.
Patent related with this technology, which has patent mainly, to be had: a kind of ball mill load parameter monitoring method and device (ZL
201310377730.9) a kind of measurement resistance value, measurement weight of ball mill barrel, ball milling by merging carrier compound is disclosed
Machine drum body revolving speed, according to several mathematical models established calculate separately the pack completeness of ball mill, useful load, ratio of grinding media to material it is compound
Formula technical method;It is to install weighing sensor, position sensor, rotary encoder and electrode etc. in ball mill different parts,
Weight information, location information etc. are obtained, host computer is transmitted to and carries out calculation processing, the work shape of grinding machine is predicted according to processing result
State.Because acceleration transducer and electrode follow cylinder to rotate, if grinding machine deviate normal operating conditions, then by measurement be detached from angle,
The method of contact angle obtains material lifting height and throwing drop point site in cylinder, and there is also errors, will lead to ball mill load parameter
Monitoring result is wrong.
Ball mill impact force monitoring device and impact force monitoring and ball mill speed regulating method (ZL 20,141 0308498.8)
A kind of size by the axial position registration between permanent magnet and induction coil is disclosed, predicts that medium rushes cylinder in cylinder
The method for hitting power.The patent can obtain more direct impact signal, but because monitoring device is rotated with cylinder, and obtaining discontinuous has
Signal is imitated, by comparing this block signal, predicts that the data handling procedure of Mill Working state is complicated;Due to grinding process
In, pellet material arch easy to form, and monitoring rod cross-sectional area size is limited, in the identical situation of filling rate, the every rotation of cylinder
One week, it is also different that monitoring rod is embedded in the pressure being subject to when pellet;In addition, when using this method, it need to be in the cylinder of ball mill
The monitoring device is installed in aperture on liner plate, and the wear-out life of monitoring device can also be lower than the service life of liner plate, field conduct it is feasible
Property is not high.
Gasbag-type ball grinder interior ballstone monitoring device and monitoring method (ZL 201410308226.8) disclose a kind of logical
Monitoring inside air bag gas pressure is crossed to determine the device of the ball doses in grinding mill barrel.Mounting means, the load gauge of the device
The structure and patent (ZL 201410308498.8) for calculating principle and signal pickup assembly are essentially identical;Therefore, the patent is also same
There is the same problem with patent (ZL 201410308498.8) in sample.
Ball mill motion state monitoring system and method (ZL 201110099894.0) discloses a kind of using sound signal
Principle is made an uproar by the shock of ballstone and resonant tank, ballstone and ballstone, ballstone and ball mill main body inner wall in monitoring grinding mill barrel
Sound and friction noise, to determine a kind of prison of ball mill barrel internal ball material motion state (static, normal, pressure hypervelocity, hypervelocity)
Survey device.Similarly there is the same problem with patent (ZL 201410308498.8) in the patent.
Ball grinder interior physical quantity on-line monitoring system and concentration of hydraulic mixture monitoring method (ZL 2,011,100 99616.5) are public
A kind of method by measuring motor load is opened, to determine the monitoring device of pulp density and concentration monitor side in grinding mill barrel
Method.But if pulp density variation range is unobvious, the resistive torque variation of rotary measuring head is also unobvious;It such as contacts, surveys with ball material
The resistance that head is subject to will be increased suddenly;Vane type gauge head is also prone to wear;In addition, there is also with patent (ZL
201410308498.8) same problem.
From the point of view of patented technology disclosed above, from the selection of measuring point, there are three types of methods, first is that axis of the selection from separate cylinder
It holds and measures vibration signal or gravitational cue on seat;The signal that this method obtains cannot reflect the practical work in cylinder directly, comprehensively
Condition.Second is that the grating sensing monitoring device periodically acquires inner barrel with the rotation of cylinder by grating sensing monitoring device on cylinder
Useful signal;As ore grinding operating condition deviate normal condition, it is difficult to accurate judgement grinding machine working condition (such as dispersal point of ball material,
Leave point, wear liner amount etc.).Third is that being measured in grinding machine grinding process using sound transducer, cylinder except far from cylinder
It is collided between internal ball material, between ball material and liner plate and the audio signal of friction generation, this non-contact audio-frequency mensuration obtains
To be a kind of integrated signal, need to establish and solve complicated mill load characteristic model, could obtain grinding machine can really instead
Reflect the related characteristic parameter of Mill Working state.
Summary of the invention
It is an object of the invention to overcome the deficiencies in the prior art, adapt to the needs of reality, provide a kind of suitable for rotation
The roller monitoring device of grinding mill barrel.
In order to achieve the object of the present invention, the technical solution adopted by the present invention are as follows:
A kind of roller monitoring device suitable for rotating grinding mill barrel, including sensor, the sensor are fixed with outside
Cylindric stator is equipped with arc cushion block between the front end and stator inner wall of sensor, stator is externally provided with the rotor rotated around it,
The outside of the rotor is cylindrical surface and this cylindrical surface is contacted with grinding mill barrel in roller, and the linear velocity of the two is identical.
One end of the stator is equipped with subsider, and chimeric with the matching grafting of the step of Step Shaft by subsider, described
Step outer shaft sleeve is externally provided with locking nut equipped with the stator supporter with its clearance fit, the stator supporter.
The Step Shaft is divided into three sections, and middle part is big step, and both ends are respectively the support peace for being used to install stator supporter
Dress section and the linkage section of mechanism is clasped for installing sensor, the end face of the linkage section sets that there are two each other in 180 ° of angles
Groove, two grooves carry out that grafting is chimeric, and the stator supporter passes through spring and connecting rod company with one end that two are clasped arm
It connects.
The both ends of the sensor are respectively supported between the inner wall of stator, and sensor be externally provided with Y shape clasp mechanism,
The mechanism that clasps is two arms of clasping surrounded together, and the arm of clasping includes three sections, and both ends are flat plate section, and centre is circle
Segmental arc and two arc section directions are opposite, two are clasped after arm is combined, and divergent ends are connect with the inside of Step Shaft respectively, in
Portion is semicircular cylinder section, and the other end is formed the linkage section mutually to fit, held tightly sensor using fastener.
The outer side opposite with stator supporter is equipped with of the stator is equipped with end cap, and sealing is equipped between end cap and stator casing
Washer, the outer end for clasping arm is through end cap and outside passes through locking nut and locks.By the elasticity of adjusting lock nut,
Sensor can be clamped and sensor axially position in the stator by clasping arm.
Adjustable seats, resilient cushion are successively arranged between the bottom of the sensor and the inner wall of stator;The adjustable seats
Including pedestal, support rod and adjusting nut, the pedestal is supported in the inner wall of stator, adjusting nut be located at the top of support rod and
It is supported in the bottom of sensor.
Faying face between the stator and rotor is round table surface, is therebetween clearance fit, in the outer of the stator
End cap is equipped with adjusting nut, locking nut positioned at rotor side, and the radial oiling of several perforations is equipped on the side wall of stator
Hole.
The outside that the roller monitoring device is arranged in abscission zone in grinding mill barrel, leaves area and lifting zone.
The beneficial effects of the present invention are:
1. can adapt in the working state monitoring principle of the ball grinder interior of revolution working condition;Predict ball mill work
State, to overcome the problems, such as that existing ball mill status monitoring exists.
2. using pure rolling formula monitoring device, true, overall vibration signal is obtained on rotary barrel, makes effectively to monitor mill
Machine working condition and prediction ore grinding load are possibly realized;
3. can avoid being annihilated and being distorted for effective vibration signal using the fixed point monitoring outside ball mill, improving ore grinding
The accuracy of load prediction results;
4. can according to need arrangement different monitoring points, can satisfy grinding machine status monitoring and load monitoring flexibility and
Diversity;Fourth is that this monitoring device is installed outside ball mill, do not need to destroy ball mill barrel and lining plate structure.
Detailed description of the invention
Fig. 1 is the structural schematic diagram for the roller monitoring device that the present invention is suitable for rotating grinding mill barrel;
Fig. 2 is the right view of Step Shaft 103 in Fig. 1;
Fig. 3 is Step Shaft 103 and the attachment structure schematic diagram for clasping arm 1151,1152 one end;
Fig. 4 is Step Shaft 103 and the overall structure diagram clasping arm 1151,1152 and connect;
Fig. 5 is the thin portion structural schematic diagram of oil filler point and oil film;
Fig. 6 is the overall structure diagram for the contact detecting and analysing system that the present invention is suitable for rotating grinding mill barrel;
In figure, 1 is roller monitoring device, and 101 be locking nut, and 102 be stator supporter, and 103 be Step Shaft, and 1031 are
Support construction section, 1032 be big step, and 1033 be linkage section, and 1034,1035 be groove, and 104 be arc cushion block, and 105 be sensing
Device, 106 be stator, and 1061 be oil filler point, and 107 be adjusting nut, and 108 be locking nut, and 109 be locking nut, and 110 be end
Lid, 111 be seal washer, and 112 be rotor, and 113 be adjustable seats, and 114 be resilient cushion, and 115 be clasping organ, and 1151,1152 are
Arm is clasped, 1153 be bolt fastener, and 116 be seal washer, and 117 be spring, and 118 be connecting rod, and 119 be oil film, and 2 be grinding machine
Cylinder, 3 be data processing equipment, and 4 be AT89C51 single-chip microcontroller, and 5 be power spectral analyzer, and 6 are characterized identifier, and 7 join for grinding machine
Number adjuster, 8 be record/display device.
Specific embodiment
Present invention will be further explained below with reference to the attached drawings and examples:
Embodiment: referring to Fig. 1 --- Fig. 6.
The roller monitoring device that the invention discloses a kind of suitable for rotating grinding mill barrel, including sensor 105, it is described
It is fixed with cylindric stator 106 outside sensor 105, is equipped with arc cushion block between 106 inner wall of front end and stator of sensor 105
104, stator 106 is externally provided with the rotor 112 rotated around it, and the outside of the rotor 112 is cylindrical surface and this cylindrical surface and grinding machine
Cylinder 2 is contacted in roller, and the linear velocity of the two is identical.
Use principle of the invention is referring to Fig. 6:
The present invention is suitable for belonging to grinding machine condition monitoring system, is one kind by directly acquiring grinding mill barrel vibration signal,
The on-line measurement system predicted grinding machine working state monitoring and ore grinding feature is moved ginseng by the rolling of grinding mill barrel 2
Number is transferred to roller monitoring device 1, enables directly to contact with the grinding mill barrel of rotation 2 in given position, in ball mill
The vibration signal in portion is sequentially delivered to sensor 105 from monitoring device 1 by cylinder 2, so that realization is real-time, continuously monitors ball
Vibration signal is carried out preceding storing through data processing equipment 3 by the working condition inside grinding machine, the sensor 105 in monitoring device 1
Greatly, it after A/D conversion, digital filtering, is sent into AT89C51 single-chip microcontroller 4 and carries out data processing;Data processed result is output to power
Spectrum analysis instrument 5 can be obtained the vibration signal power of each measuring point with the situation of change of frequency, extract grinding machine time domain/frequency domain accordingly
Vibration characteristic signals;This feature signal is compared with standard feature signal, judges the working condition and prediction grinding machine of grinding machine
Workload;It when working condition and predicts that the workload of grinding machine and setting value coincide, keeps the running parameter and mill of grinding machine
Miner's skill parameter constant;When the workload of working condition and prediction grinding machine deviates setting value, then by 7 opposite grinding of parameter adjuster
Machine running parameter is adjusted;Recorder/display 8 stores grinding machine working status parameter and load parameter, counts remittance
Summation is shown.
One end of the stator 106 is equipped with subsider, and it is embedding by subsider with the step of Step Shaft 103 to match grafting
It closes, the place of being fitted into is equipped with seal washer 116, and the stator supporter 102 with its clearance fit is set with outside the Step Shaft 103, described
Stator supporter 102 is externally provided with locking nut 101.
It is three sections that the Step Shaft 103, which divides, and middle part is big step 1032, and both ends are respectively to be used to install stator supporter
102 support construction section 1031 and the linkage section 1033 that mechanism is clasped for installing sensor, the end face of the linkage section 1033
If described two grooves 1034,1035 clasp arm with described two there are two the groove 1034,1035 for being each other in 180 ° of angles
1151,1152 one end progress grafting is chimeric, and the stator supporter 102 is connect by spring 117 with connecting rod 118.Connecting rod
In the groove of 118 one end insertion stator supporter 102 lower section, due to the effect of spring 117 so that stator supporter 102 with connect
The distance of bar 118 is adjustable.Connecting rod 118 is for being fixed on the supplementary structures such as other brackets, so that rotor and grinding mill barrel
It rotates relatively stable and continuous.
The both ends of the sensor 105 are respectively supported between the inner wall of stator 106, and sensor 105 is externally provided with Y shape
Clasp mechanism 115, it is described clasp mechanism 115 be two surround together clasp arm 1151,1152, the arm of clasping includes three
Section, both ends are flat plate section, and centre is arc section and two arc section directions are opposite, and two are clasped after arm is combined, divergent ends
It is connect respectively with the inside of Step Shaft, middle part is semicircular cylinder section, and the other end forms the linkage section mutually to fit, is using fastener
Bolt 1153 holds sensor 105 tightly.
The outer side opposite with stator supporter 102 is equipped with of stator 106 is equipped with end cap 110, end cap 110 and stator 106
Seal washer 111 is equipped between shell, the outer end for clasping arm is through end cap 110 and the external locking nut 109 that passes through is locked.
It, can arm clamps sensor 105 and sensor 105 exists by clasping by the elasticity of adjusting lock nut 109
Axially position in stator 106.
Adjustable seats 113, resilient cushion 114 are successively arranged between the bottom of the sensor 105 and the inner wall of stator 106;
The adjustable seats 113 include pedestal, support rod and adjusting nut, and the pedestal is supported in the inner wall of stator 106, adjusting nut
Positioned at support rod top and be supported in the bottom of sensor 105.The adjusting nut on the adjustable seats top is rotated, can make to pass
Sensor 105 moves up and down, to be adjacent to or unclamp with the inner wall of stator 106.
Faying face between the stator 106 and rotor 112 is round table surface, is therebetween clearance fit, described fixed
The outer end of son 106 is set with the adjusting nut 107 positioned at 112 side of rotor, locking nut 108, opens on the side wall of stator 106
Several radial oil filler points 1061 out, enable lubricating oil periodically by the 1061 hole oiling of radial direction oil filler point to stator 106 and turn
Between the contact surface of son 112, and make the oil film 119 between stator 106 and rotor 112 that there is certain rigidity by pressurizer
The adjusting nut 107, locking nut 108 screw on the external screw thread of 16 right end of stator simultaneously;Stator 106 and turn
Son 112 uses circular cone combining form, and there are certain gap between rotor 112 and location nut 107, which is to guarantee stator
The minimum fit gap of relative motion is generated between 106 and 112 circular cone faying face of rotor;After determining the minimum fit gap,
Locking nut 108 is tightened on to the right side of adjusting nut 107.
The outside that the roller monitoring device 1 is arranged in abscission zone in grinding mill barrel 2, leaves area and lifting zone.
After the roller monitoring device that the present invention is suitable for rotating grinding mill barrel forms test macro described in Fig. 6, survey
Method for testing the following steps are included:
The first step measures related parameter: measurement grinding machine running parameter, Grinding Parameterss, material dynamic characterisitic parameter, mark
Determine steel ball-liner plate, steel ball-steel ball, material-liner plate, material-steel ball, the coefficient of friction between material-material;
Second step determines best measuring point: real using the experiment of EDEM, ADAMS computer coupled simulation ore grinding and live ore grinding
Test the method combined, respectively in abscission zone, leave area and lifting zone and choose several best measuring points, exist for installing roller
Line monitoring device 1;
Third step establishes feature database in conjunction with ore grinding experiment: successively changing filling rate, material ball ratio, pulp density, pellet respectively
The parameter values such as hoisting depth, wear liner amount, the monitoring device 1 of the point position determined by second step obtain grinding mill barrel
In underload, normal duty, the corresponding vibration signal of overload working condition, and extracted respectively by the flow chart of data processing of Fig. 6
Corresponding time domain/frequency domain vibration characteristic signals establishes filling rate, material ball ratio, pulp density, pellet hoisting depth and liner plate accordingly
The standard feature library of abrasion loss;
4th step, ore grinding state feature identification:, can be from cylinder according to second step, third step in practical grinding process
Upper acquisition grinding machine is in the corresponding characteristic signal of a certain specific actual working state parameter, by the actual characteristic signal and standard feature
Signal is compared, that is, can determine whether the working condition and load condition of grinding machine.
The above description is only an embodiment of the present invention, is not intended to limit the scope of the invention, all to utilize this hair
Equivalents made by bright specification and accompanying drawing content are applied directly or indirectly in relevant technical field, are similarly included in
In scope of patent protection of the invention.
Claims (6)
1. a kind of roller monitoring device suitable for rotating grinding mill barrel, it is characterised in that: described including sensor (105)
It is fixed with cylindric stator (106) outside sensor (105), is equipped between the front end and stator (106) inner wall of sensor (105)
Arc cushion block (104), stator (106) are externally provided with the rotor (112) rotated around it, and the outside of the rotor (112) is cylindrical surface
And this cylindrical surface is contacted with grinding mill barrel (2) in roller, the linear velocity of the two is identical;One end of the stator (106) is equipped with
Subsider, and it is chimeric by the step of subsider and Step Shaft (103) to match grafting, the Step Shaft (103) be set with outside and
The stator supporter (102) of its clearance fit, the stator supporter (102) are externally provided with locking nut (101);The Step Shaft
(103) it is divided into three sections, middle part is big step (1032), and both ends are respectively the support installation for being used to install stator supporter (102)
Section (1031) and the linkage section (1033) of mechanism is clasped for installing sensor, there are two the end face of the linkage section (1033) is set
It is each other in the groove (1034,1035) of 180 ° of angles, two grooves (1034,1035) clasp arm (1151,1152) with two
One end carry out that grafting is chimeric, and the stator supporter (102) is connect by spring (117) with connecting rod (118).
2. the roller monitoring device according to claim 1 for being suitable for rotating grinding mill barrel, it is characterised in that: the biography
The both ends of sensor (105) are respectively supported between the inner wall of stator (106), and sensor (105) be externally provided with Y shape clasp mechanism
(115), it is described clasp mechanism (115) and be two surround clasping arm (1151,1152) together, the arm of clasping includes three
Section, both ends are flat plate section, and centre is arc section and two arc section directions are opposite, and two are clasped after arm is combined, divergent ends
It is connect respectively with the inside of Step Shaft, middle part is semicircular cylinder section, and the other end forms the linkage section mutually to fit, will using fastener
Sensor (105) is held tightly.
3. the roller monitoring device according to claim 2 for being suitable for rotating grinding mill barrel, it is characterised in that: described fixed
Sub (106) are equipped with end cap (110) with equipped with stator supporter (102) opposite side outside, end cap (110) and stator (106) shell
Between be equipped with seal washer (111), the outer end for clasping arm is through end cap (110) and external is locked by locking nut (109)
Tightly, by the elasticity of adjusting lock nut (109), sensor (105) can be clamped and is sensed by clasping arm
Axially position of the device (105) in stator (106).
4. the roller monitoring device according to claim 3 for being suitable for rotating grinding mill barrel, it is characterised in that: the biography
Adjustable seats (113), resilient cushion (114) are successively arranged between the bottom of sensor (105) and the inner wall of stator (106);It is described can
Adjusting support (113) includes pedestal, support rod and adjusting nut, and the pedestal is supported in the inner wall of stator (106), adjusting nut position
In support rod top and be supported in the bottoms of sensor (105).
5. the roller monitoring device according to claim 1 for being suitable for rotating grinding mill barrel, it is characterised in that: described fixed
Faying face between sub (106) and rotor (112) is round table surface, is therebetween clearance fit, in the outer of the stator (106)
End cap is equipped with adjusting nut (107), locking nut (108) positioned at rotor (112) side, sets on the side wall of stator (106)
There is the radial oil filler point (1061) of several perforations.
6. the roller monitoring device according to claim 1 for being suitable for rotating grinding mill barrel, it is characterised in that: the rolling
The outside that dynamic formula monitoring device (1) is arranged in grinding mill barrel (2) abscission zone, leaves area and lifting zone.
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CN110433926B (en) * | 2019-07-18 | 2020-12-01 | 北京科技大学 | System and method for detecting running state of ore mill based on intelligent material |
CN115121334B (en) * | 2022-07-04 | 2023-04-14 | 广东技术师范大学 | Grinding device for continuously monitoring abrasion allowance of grinding medium |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1142604A (en) * | 1995-08-02 | 1997-02-12 | 株式会社生方制作所 | Seismosensitive element and method of making the same |
CN2543051Y (en) * | 2002-04-21 | 2003-04-02 | 赵联春 | Vibration-sensing rod for bearing vibration measurement |
CN204177476U (en) * | 2014-09-18 | 2015-02-25 | 万源市勇泰机械设备有限公司 | A kind of vibration monitor |
CN106716091A (en) * | 2014-09-15 | 2017-05-24 | 赛峰电子与防务公司 | Inductive rotation sensor with improved accuracy |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP4908111B2 (en) * | 2006-08-29 | 2012-04-04 | 有限会社高橋製作所 | Vibration sensing device |
-
2017
- 2017-10-27 CN CN201711023093.XA patent/CN107520039B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1142604A (en) * | 1995-08-02 | 1997-02-12 | 株式会社生方制作所 | Seismosensitive element and method of making the same |
CN2543051Y (en) * | 2002-04-21 | 2003-04-02 | 赵联春 | Vibration-sensing rod for bearing vibration measurement |
CN106716091A (en) * | 2014-09-15 | 2017-05-24 | 赛峰电子与防务公司 | Inductive rotation sensor with improved accuracy |
CN204177476U (en) * | 2014-09-18 | 2015-02-25 | 万源市勇泰机械设备有限公司 | A kind of vibration monitor |
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