CN203908574U - Low-frequency calibration vibration bench - Google Patents

Abstract

The utility model discloses a low-frequency calibration vibration bench. The vibration bench comprises an installation seat; support seats, guide shafts, a work platform, a linear motor and a grating ruler are arranged on the installation seat; the supports are respectively fixedly arranged on the two ends of the installation seat in the width direction; at least two guide shafts are fixedly arranged between the supports in a spaced manner; at least one air bearing sleeves each of the guide shafts; the work platform is fixedly arranged on the air shaft; the linear motor is arranged between the guide shaft and is fixedly arranged on the installation seat; the linear motor is fixedly connected with the lower end face of the work platform; and the grating ruler is fixedly arranged on one side of the installation seat in the length direction. The vibration bench is advantaged by wide vibration frequency scope and large vibration displacement; harmonic distortion is small; and a better platform is provided for calibration of a low-frequency vibration acceleration sensor.

Description

A kind of low-frequency calibration shaking table

Technical field

The utility model relates to a kind of calibration vibratory equipment, and particularly a kind of low-frequency calibration vibratory equipment, belongs to mechanical environment technical field.

Background technology

In recent years, due to developing rapidly of Chinese national economy, the automaticity of various mechano-electronic products is maked rapid progress, demand to various sensors also grows with each passing day, therefore,, in order to ensure the quality of sensor, sensor is calibrated and become very necessary and urgent.The correcting device that is applicable at present low frequency sensor is also few, mainly adopt the electrodynamic vibration shaker of voice coil type linear electric motors principle composition to calibrate low frequency sensor, but this type of correcting device is owing to being subject to the impact of its principles and structure, has following shortcoming:

(1) low-frequency distortion degree is large, locates because the moving-coil of electrodynamic vibration shaker needs spring suspension device, and in the time of low frequency operation, the nonlinear characteristic of the flexible member of spring suspension device can be added in system performance, thereby causes the low-frequency distortion of vibrational system large;

(2) lower limit frequency of operation is high, and owing to being subject to the restriction of electrodynamic vibration shaker working magnetic gap and spring suspension device, vibration displacement is less than 100mm conventionally, and the displacement D of electric vibration table is determined by acceleration a and frequency f, and its relational expression is D=a/(2) ², when in the acceleration situation identical, the lower vibration displacement of vibration frequency is larger, and therefore this type of calibration shaking table is subject to the restriction of vibration displacement, and lower limit vibration frequency is higher.

Based on above two main causes, current calibration shaking table can not meet the calibration of low frequency sensor, so, urgently develop a kind of low-frequency calibration shaking table and make up the deficiency of existing calibration shaking table in the time of low-frequency calibration.

Utility model content

In order to solve the problems of the technologies described above, the purpose of this utility model is to provide a kind of low-frequency vibration table simple and reasonable for structure, and it has that vibration frequency is low, vibration displacement is large and the advantage such as harmonic distortion is little, for the calibration of low frequency sensor provides preferred platform.

To achieve these goals, technical solutions of the utility model are as follows:

A kind of low-frequency calibration shaking table, comprise a mount pad, described mount pad is provided with bearing, the axis of guide, workbench, linear electric motors, grating scale, the two ends of described mount pad be installed with one respectively along its Width described in bearing, between those bearings, at least compartment of terrain sets firmly two described axis of guides, on each described axis of guide, be arranged with air bearing described at least one, described workbench is fixedly arranged in those air bearing, described linear electric motors are between those axis of guides, and be fixedly arranged on described mount pad, and described linear electric motors are connected mutually with the lower surface of described workbench, described grating scale is fixedly arranged on a side of described mount pad length direction, parallel with described workbench direction of motion.

As one of preferred version of the present utility model, the bottom of described mount pad sets firmly a base, and one end of described base is installed with two bearing seats, and one end, bottom of described mount pad sets firmly a turning axle, and described turning axle is flexibly connected with those bearing seats.

As one of preferred version of the present utility model, on each described axis of guide, be arranged with two air bearing.

As one of preferred version of the present utility model, described bearing comprises undersetting and is fixedly arranged on the upper bracket on described undersetting.

As one of preferred version of the present utility model, on described upper bracket, between those axis of guides, set firmly symmetrically a pair of impact damper.

As one of preferred version of the present utility model, the end of the described axis of guide is fixed between described upper bracket and described undersetting.

As one of preferred version of the present utility model, described linear electric motors are fixed on described mount pad by motor cabinet.

By above technical scheme, the low-frequency calibration shaking table that the utility model provides, driving workbench to realize linear reciprocation by linear electric motors moves, wherein, air bearing coordinates the effect that can play good guidance with the axis of guide, grating scale can feed back accurately to displacement, speed, acceleration.The utility model vibration displacement is larger, and vibration frequency range is wider, and harmonic distortion is little, has realized low frequency, stable vibration, for the low-frequency calibration of sensor provides desirable platform.

Brief description of the drawings

In order to be illustrated more clearly in the utility model architectural feature and technical essential, below in conjunction with the drawings and specific embodiments, the utility model is elaborated.

Fig. 1 is the structural representation of disclosed a kind of low-frequency calibration shaking table described in the utility model embodiment;

Fig. 2 is the vertical view of disclosed a kind of low-frequency calibration shaking table described in the utility model embodiment.

Description of reference numerals: 1-base, 2-mount pad, 3-bearing, 31-undersetting, 32-upper bracket, the 4-axis of guide, 5-air bearing, 6-workbench, 7-linear electric motors, 8-grating scale, 9-impact damper, 10-bearing seat, 11-turning axle, 12-motor cabinet.

Embodiment

Below in conjunction with the accompanying drawing in the present embodiment, the technical scheme in embodiment is carried out specifically, described clearly and completely.

Shown in Fig. 1-2, a kind of low-frequency calibration shaking table, comprise a base 1 and be fixed on the mount pad 2 on base 1, the two ends of mount pad 2 are installed with respectively a bearing 3 along its Width, symmetrical between two bearings 3, compartment of terrain sets firmly a pair of axis of guide 4, on each axis of guide 4, be arranged with two air bearing 5, four air bearing 5 altogether, air bearing 5 selects square structure so that assembling, workbench 6 is fixedly arranged in four air bearing 5, and each angle of workbench 6 and an air bearing 5 are fixedly connected, to ensure the stationarity of workbench 6.On mount pad 2, between a pair of axis of guide 4, be installed with linear electric motors 7, linear electric motors 7 are fixedly connected with the lower end of workbench 6, and grating scale 8 is fixed on a side of the length direction of mount pad 2.

Wherein, bearing 3 comprises undersetting 31 and is fixedly arranged on the upper bracket 32 on undersetting 31.On upper bracket 32, between two axis of guides, set firmly symmetrically a pair of impact damper 9, in the time that linear electric motors 7 drive workbench 6 to move left and right, impact damper 9 can prevent the effect of buffering.The end of the axis of guide 4 is fixed between upper bracket 32 and undersetting 31, is so convenient to assembly and disassembly.One end of base 1 is installed with two bearing seats 10, between two bearing seats 10, install a turning axle 11, and turning axle 11 is fixedly connected with one end, bottom of mount pad 2, mount pad 2 can be along turning axle 11 90-degree rotations, therefore mount pad 2 can be located on base 1 horizontal or vertically.Linear electric motors 7 are fixed on mount pad 2 by motor cabinet 12.

This shaking table adopts linear electric motors 7 to drive workbench 6 straight reciprocating motions, linear electric motors can directly be converted to rectilinear motion mechanical energy by electric energy, difference output by control program can realize different speed, does not need the intermediate conversion links of conventional ADS driving system, and mechanical efficiency is high.Principal feature is: do not need shaft coupling, the variator etc. of traditional kinematic train, so it is simple in structure, lightweight, volume is little; Positioning precision is high; Reaction velocity is fast, highly sensitive, and servo-actuated property is good; Safe and reliable, the life-span is long; Contactless, thus without friction, noiseless, non-maintaining; Mover is non-steel construction, means and has no attraction and noiseless power generation between track and thrust coil, and inertia is little; Grating scale 8 can be to the displacement of workbench 6, speed, acceleration feedback, and it has, and sensing range is large, fast response time, feature that accuracy of detection is high, and repetitive positioning accuracy is up to 0.05 μ m; Air bearing is called again air-bearing, to utilize gas (normally air, but be likely also other gas) as the sliding bearing of lubricant, it has the features such as glutinousness is little, high temperature resistant, pollution-free, thereby can be for high speed machines, instrument and radioactivity device.

By technique scheme, vibration displacement of the present utility model is larger, and vibration frequency range is wider, and harmonic distortion is little, has realized low frequency, stable vibration, for the calibration of sensor provides desirable platform.

Above-mentioned embodiment; be only explanation technical conceive of the present utility model and architectural feature; object is to allow the stakeholder who is familiar with technique implement according to this; but above said content does not limit protection domain of the present utility model; any equivalence that every foundation Spirit Essence of the present utility model is done changes or modifies, within all should falling into protection domain of the present utility model.

Claims (7)

1. a low-frequency calibration shaking table, comprise a mount pad, it is characterized in that, described mount pad is provided with bearing, the axis of guide, workbench, linear electric motors, grating scale, the two ends of described mount pad be installed with one respectively along its Width described in bearing, between those bearings, at least compartment of terrain sets firmly two described axis of guides, on each described axis of guide, be arranged with at least one air bearing, described workbench is fixedly arranged in those air bearing, described linear electric motors are between those axis of guides, and be fixedly arranged on described mount pad, and described linear electric motors are connected mutually with the lower surface of described workbench, described grating scale is fixedly arranged on a side of described mount pad length direction, parallel with described workbench direction of motion.

2. a kind of low-frequency calibration shaking table according to claim 1, it is characterized in that, the bottom of described mount pad sets firmly a base, and one end of described base is installed with two bearing seats, one end, bottom of described mount pad sets firmly a turning axle, and described turning axle is flexibly connected with those bearing seats.

3. a kind of low-frequency calibration shaking table according to claim 1, is characterized in that, is arranged with two air bearing on each described axis of guide.

4. a kind of low-frequency calibration shaking table according to claim 1, is characterized in that, described bearing comprises undersetting and is fixedly arranged on the upper bracket on described undersetting.

5. a kind of low-frequency calibration shaking table according to claim 4, is characterized in that, sets firmly symmetrically a pair of impact damper on described upper bracket between those axis of guides.

6. a kind of low-frequency calibration shaking table according to claim 4, is characterized in that, the end of the described axis of guide is fixed between described upper bracket and described undersetting.

7. a kind of low-frequency calibration shaking table according to claim 1, is characterized in that, described linear electric motors are fixed on described mount pad by motor cabinet.