Vibration exciter structure diagram

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Vibration exciter with the controlled frequency and the

The invention relates to the production of building materials and is designed to vibrasphere aerated concrete mixture Known single shaft unbalance the vibration exciter with the directional driving force which includes induction motor at both ends of the shaft which is fixed at one odinzova the eccentric weight connected by a pendulum absorber with vibrator /Mechanical equipment of the

Analysis of a Lorentz force based vibration exciter using

configuration during large amplitude vibration the structure may hit the magnet It may also happen that the natural frequency of the electro dynamic exciter is close to that of the structure In such condition it becomes difficult to control the excitation force The authors propose a linear Lorentz force based exciter configuration

Exciters Buyers GuideDayton Audio

In an exciter the mass of the motor structure remains stationary by its own inertia and vibrating energy is transferred directly to the surface by the voice coil Also the design of a bass shaker is usually limited to low frequencies because of the large mass involved while an exciter can produce the full range of sound because the moving

Exciters Buyers GuideDayton Audio

In an exciter the mass of the motor structure remains stationary by its own inertia and vibrating energy is transferred directly to the surface by the voice coil Also the design of a bass shaker is usually limited to low frequencies because of the large mass involved while an exciter can produce the full

A vibration exciter is attached to a structure as Chegg

A vibration exciter is attached to a structure as shown in the figure below The exciter contains two eccentric weights w 0 = 50 N that rotate with identical speeds but in opposite directions The eccentricity of each unbalanced weight from the rotation center is 1 cm

Interaction Between a Vibration Exciter and the Structure

interacts significantly with the structure under test and un der some circumstances exciter dynamic effects can be ac counted for in the process of improving measured data The electrodynamic vibration exciter has been intensively used in modal and vibration testing as a means to drive the SUT Sructure Under Test

Vibro exciter

However this design of the vibration exciter inherent drawbacknot enough high amplitude oscillations which is a consequence of the fact that the rotating ball in addition to the centrifugal force F C which is the main source of excited vibrations of the body vibration of the vibration exciter

Analysis of a Lorentz force based vibration exciter using

configuration during large amplitude vibration the structure may hit the magnet It may also happen that the natural frequency of the electro dynamic exciter is close to that of the structure In such condition it becomes difficult to control the excitation force The authors propose a linear Lorentz force based exciter

Shaker Vibration Testing Solutions Data Physics

Vibration testing is done to introduce a forcing function into a structure usually with the use of a vibration test shaker or vibration testing machine These induced vibrations vibration tests or shaker tests are used in the laboratory or production floor for a variety of things including qualifying products during design meeting

SOUND VIBRATION SYSTEMS SELECTION GUIDE

The exciter size allows a diversity of placement locations relative to the test structure while minimizing any unwanted interaction between the exciter and test structure MODEL NUMBER MAX FORCE lbf N pk MAX FREQUENCY Hz 2 STROKE in mm pk pk WEIGHT lb kg 2100E11 100 440 5 400 1 0 25 33 15 2060E 60 267 6 000 1 4 36 37 17

RESEARCH ON MECHANICAL STRUCTURES FOR

The two mechanical structures simplified schematic diagrams are shown in Fig 4 Model A is the cantilever beam structure in forced vibration conditions and model B is the cantilever beam structure in free vibration conditions Model A is that one side is shaking with the exciter and the other side of the piezoelectric element is fixed

Tech Note Understanding ExcitersPrinciples and

1 Tech Note Understanding ExcitersPrinciples and Applications Introduction daytonaudio Designed and Engineered In USA Typical loudspeakers have been used for nearly a century to add audio reproduction to rooms displays exhibits kiosks and many

Basics of Structural Vibration Testing and Analysis

The plot of vibration versus time provides information that helps characterize the behavior of the structure Its behavior can be characterized by measuring the maximum vibration or peak level or finding the period time between zero crossings or estimating the decay rate the amount of time for the envelope to decay to near zero

Vibration Measurement and Analysissintechnology

tached vibration exciter ISO 7626 2 Vibration and shockExperimental determination of mechanical mobilityPart 5 Measurements us ing impact excitation with an exciter which is not attached to the structure ISO 7626 5 Vibration damping Vibration damping products Definition of the me chanical properties of quilts and paving UNI 10570

On the interaction between the vibration exciter and the

In order to obtain good quality data in modal and vibration testing the experimentalist should pay attention to the interactions that occur between the structure under test SUT and the instrumentation used in the test Measurement errors can arise from a different number of possible causes including transducer mass loading effects transverse stinger stiffness and exciter SUT interactions

Vibration TestingUniversity of Rochester

sine sweep and 3 random vibration A rod or wire called a stinger is often used to connect the shaker output to the structure Often a force transducer is put between the shaker and the structure so the excitation force can be measured Structure Transducers Exciter Controller Analyzer Figure 3

Vibration exciterrussianpatents

Figure 1 shows the structural diagram of the vibration exciter Figure 2 presents the scheme of the moving ball and a chart of voltage pulses to the windings

Basics of Structural Vibration Testing and Analysis

The plot of vibration versus time provides information that helps characterize the behavior of the structure Its behavior can be characterized by measuring the maximum vibration or peak level or finding the period time between zero crossings or estimating the decay rate the amount of

Vibro exciter

However this design of the vibration exciter inherent drawbacknot enough high amplitude oscillations which is a consequence of the fact that the rotating ball in addition to the centrifugal force F C which is the main source of excited vibrations of the body vibration of the vibration exciter acts oppositely directed magnetic force of

The Invisible Speaker PUI Audio eXciters

Before mounting an exciter measure the overall surface to each nearest edge Divide each dimension into thirds The ideal mounting location is where 1/3 of one dimension intersects with 1/3 of another dimension illustrated in Diagram 3 This reduces standing waves that can dominate the output of the exciter

Vibration Testing br0227

an exciter control an accelerometer or force transducer and a conditioning amplifier The exciter is selected primarily according to the force or acceleration required but other parameters may be important such as Its abiUty to take up side loads the transverse vibration

Study on the vibration performances for a high temperature

Given the cylindrical structure of the base package we introduced between the latter and the exciter a thin plan concave layer of ceramic material to make the probe completely immobile and stable on the exciter To withstand accelerating movements the whole set is well bonded with heat resistant adhesive 3 2 Signal demodulation method

AN INTRODUCTION TO FREQUENCY RESPONSE

During resonant vibration the response displacement may increase until the structure experiences buckling yielding fatigue or some other failure mechanism The failure of the Cypress Viaduct in the 1989 Loma Prieta Earthquake is example of failure due to resonant excitation Resonant vibration caused 50 of the 124 spans of the Viaduct to

Design Guide for Floor VibrationsArcelorMittal

5 Design Procedure and Diagrams 21 Figure 3 Application of diagrams The diagram is used by entering the modal mass on the x axis and the corresponding frequency on the y axis The OS RMS value and the acceptance class can be read off at the intersection of extensions at both entry points Frequency of the floor Hz Modal Mass of the floor kg

2 Generator Basics IEEE

Exciter Stator Is a field that induces voltage in the exciter rotor Typically powered by the regulator Typically has random wound coils in a laminated steel core Various configurations Wound cores in a frameWound cores with no frameCombined with the PMG in one frame Mounted on an end bracket

Vibration TestingUniversity of Rochester

sine sweep and 3 random vibration A rod or wire called a stinger is often used to connect the shaker output to the structure Often a force transducer is put between the shaker and the structure so the excitation force can be measured Structure Transducers Exciter

Structural Vibration Analysis Pump Bearign Housing

Structure vibration analysis was performed for vertical pump in accordance with API 610 HI 9 6 8 2014 This Vertical pump is driven by induction motor with 3100 kW capacity and 425 rpm at full load This analysis computes finite element analysis for structure vibration assessment

Basics of Structural Vibration Testing and Analysis

The plot of vibration versus time provides information that helps characterize the behavior of the structure Its behavior can be characterized by measuring the maximum vibration or peak level or finding the period time between zero crossings or estimating the

DESIGN AND TESTING OF UNBALANCED MASS

exciter like nut bolt spring structure selection of motor etc Pluta J 6 and Je Hoon Kim 7 gives idea of design and experimentation of bi axial exciter of mechanical vibrations as well as electromagnetic vibration exciter for the Rapping of an Electrostatic Precipitator After survey we

GENERATOR

The generator s exciter consists of a stationary field and a rotating armature The stationary field exciter stator is designed to be the primary source of the generator s residual magnetism This residual magnetism allows the exciter rotor armature to produce AC voltage even when the exciter

PPTVibration Exciter PowerPoint presentation free to

Vibration sensors market recorded annual revenue of 2844 6 million in 2017 and is estimated to grow at a CAGR of 5 6 during the forecast period Global Vibration sensors market recorded annual revenue of 2844 6 million in 2017 and is estimated to grow at a CAGR of 5 6 during the forecast period Vibration sensors are witnessing prolific demand from industry verticals

Design Guide for Floor VibrationsArcelorMittal

5 Design Procedure and Diagrams 21 Figure 3 Application of diagrams The diagram is used by entering the modal mass on the x axis and the corresponding frequency on the y axis The OS RMS value and the acceptance class can be read off at the intersection of extensions at both entry points Frequency of the floor Hz Modal Mass of the floor kg

IS 1999 Vibration and ShockExperimental

by the application of the vibration exciter are dealt with in 6 4 5 2 Grounded measurements The support of the test structure shall be representative of its support in typical applications unless it has been specified otherwise A description of the support should be included in the test report

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vibration motor to the both ends of the casings as shown in Figure 1 Fig 1 Structural diagram of the present long span vibration motor Although the span of the vibration exciter is enlarged the force conditions of the vibration motor have no improvement Meanwhile the casings simultaneously bear the bending load and the lateral load

1563 Experimental investigation of high temperature

Fig 2 Schematic diagram of thermal vibration test setup for wing structure In this test it is demanded to acquire the vibration signals of the composite wing structure in extreme thermal environments up to 1100 C so an extension configuration consisting of a

Vibration Exciter

The possible performance charts for vibration measurements with different payloads are exemplified in the following diagram Description The vibration exciter SE 10 with a flexural guidance system is a high tech product that is a reliable tool for vibration testing in research and development as well as for daily use in calibration laboratories