CN2551972Y - Displacement measuring sensor - Google Patents

Abstract

This is a displacement measuring sensor that belongs to the displacement high-precision measuring device. The device adopts the traveling wave magnetic field to establish the sport frame and the alternative-current in the coil winding forms the traveling wave magnetic field. The coil winding is the scale and the sport elements of the inner traveling wave magnetic field is the movable ruler. The conductor which is respectively fixed to the scale and the movable ruler consists of an alignment head conductor and a movable feeler pin conductor. The conductorial lead-out of the two feeler pins is connected to the input terminal of the signal wave-shaping amplifying circuit. The sensor solves the problems of the high price of the prior art, complicated structure and poor interference resistance and the sensor has the advantages of high anti-interference capability, small size, simplified structure, low cost and easy production.

Description

Displacement measurement sensor

Technical field

The utility model belongs to the device of displacement precision measurement, is specifically related to a kind of displacement measurement sensor that is used to measure straight-line displacement and angular displacement.

Technical background

It is the most basic, prevailing measurement that displacement (straight-line displacement or angular displacement) is measured.In order to take into account Measurement Resolution and range, many displacement transducers have adopted the grid formula structure of accurate groove on matrix, as grating, magnetic grid etc., its pulse signal that sends in motion process are carried out accumulated counts, promptly realize displacement measurement.The highdensity groove of high precision causes a lot of problems, and on the one hand groove is close more, just easy pollution the more.Seal protection no matter how, under the bad working environments of production scene, its small dust greasy dirt aqueous vapor all may be polluted grid line, makes it counting loss.On the other hand, groove can not be ad infinitum close, and existing density far can not satisfy the requirement of resolution.Therefore be forced to generally adopt electronic features branch mailbox, system architecture complexity.Add high-precision groove technology, make cost high.In sum, the shortcoming that exists of existing grid formula displacement transducer is: price height, complex structure, interference resistance are poor.

Summary of the invention

The purpose of this utility model is to provide a kind of sensor of novel Displacement Measurement at above-mentioned the deficiencies in the prior art, need not accurate groove, thereby price is low, simple in structure, interference resistance is strong.

The technical solution of the utility model is: adopt travelling-magnetic-field to set up the uniform motion coordinate system.Travelling-magnetic-field is the principle of work according to alternating current generator, passes in coil winding that alternating current produces.The structure of this survey sensor be will be wound with coil winding shell as scale, the gap location between arbitrary adjacent windings winding is adorned a lead as location survey head conductor, the two ends of location survey head conductor are as the output terminal of periodic raw electrical signal; Moving chi with respect to the scale motion is set in travelling-magnetic-field in addition, adorns a conductor as moving gauge head conductor on moving chi, the two ends of moving gauge head conductor are as the output terminal of periodicity raw electrical signal, and said structure promptly constitutes the survey sensor part.

Said structure can be two kinds of forms, and a kind of is the angle displacement measurement sensor, and the coil winding on its scale is to be evenly distributed in the circular shell by circumference, and moving chi is a rotor or rotating shaft.Another kind is the straight-line displacement survey sensor, and its scale is to launch to constitute by straight line simultaneously with above-mentioned housing with by the equally distributed coil winding of circumference, and moving chi is with respect to scale moving linearly slide rule in travelling-magnetic-field.

Output terminal on the sensor location survey head conductor is connected with the input end of signal amplification shaping circuit with output terminal on the moving gauge head conductor, and the output terminal of this circuit is connected with input end than circuitry phase.When the travelling-magnetic-field of continuous persistent movement through out-of-date, because of making on two gauge heads, the magnetic force line cutting effect induces electric signal respectively, by amplification and rectification circuit above-mentioned two paths of signals is shaped to for ease of carrying out the waveform of phase bit comparison, by recording the phase differential of two paths of signals than circuitry phase, thus position poor of having reflected scale and moving chi.

The utility model has the advantages that antijamming capability is strong, measuring accuracy is high, volume is little, simple in structure, be easy to the commercialization exploitation.

Description of drawings

Fig. 1 is the vertical view of angle displacement measurement sensor;

Fig. 2 is the planimetric map after the scale coil winding of angle displacement measurement sensor is launched;

Fig. 3 is the moving chi of angle displacement measurement sensor and the front view after the assembling of moving gauge head conductor;

Fig. 4 is the moving chi of angle displacement measurement sensor and the vertical view after the assembling of moving gauge head conductor;

Fig. 5 is the vertical view of straight-line displacement survey sensor

Fig. 6 is the planimetric map after the scale coil winding of straight-line displacement survey sensor is launched;

Fig. 7 is the moving chi of straight-line displacement survey sensor and the front view after the assembling of moving gauge head conductor;

Fig. 8 is the moving chi of straight-line displacement survey sensor and the vertical view after the assembling of moving gauge head conductor;

Fig. 9 is than phase signals oscillogram.

In Fig. 1 to Fig. 9:

The alternating voltage of 1-1-angular displacement scale U-input coil winding

1-2-angular displacement coil winding M-travelling-magnetic-field

1-3-angular displacement iron-core coil Ω-steady rotation speed

Chi ω-any rotational speed is moved in 1-4-angular displacement

θ-the angular displacement of gauge head conductor Δ is moved in 1-5-angular displacement

1-6-angular displacement location survey head conductor V-linear uniform motion speed

P ₅-moving gauge head square-wave signal Δ L-straight-line displacement

P ₆The signal phase difference of-location survey head square-wave signal Δ T-represent with time quantum

T-time T-signal period

2-1-straight-line displacement scale 2-2-straight-line displacement coil winding

Chi is moved in 2-3-straight-line displacement iron-core coil 2-4-straight-line displacement

Gauge head conductor 2-6-straight-line displacement location survey head conductor is moved in 2-5-straight-line displacement

Embodiment:

Embodiment 1

Referring to Fig. 1,2,3,4 and Fig. 9, structure for the angle displacement measurement sensor, this sensor be a same angular displacement magnetic bobbin core 1-3 with alternating current generator go up angular displacement coil winding 1-2 by circumference uniform distribution in circular housing as angular displacement scale 1-1, with the rotor of alternating current generator or add rotating shaft in addition and move chi 1-4 as angular displacement.Gap location between arbitrary adjacent windings of angular displacement scale 1-1 is fixed an angular displacement location survey head conductor 1-6, and the two ends of this conductor are connected with the input end of signal transformation circuit by insulated conductor as the output terminal of location survey head.Fix the moving gauge head conductor 1-5 of an angular displacement on the moving chi 1-4 of angular displacement, the two ends of this conductor are connected with the input end of signal amplification shaping circuit by insulated conductor as the output terminal of moving gauge head.When angular displacement coil winding 1-2 passes to alternating current, will in angular displacement scale 1-1 internal clearance, produce rotary traveling wave magnetic field M, its steady rotation speed is Ω, this speed depends on ac frequency.Whenever rotary traveling wave magnetic field during through the moving gauge head conductor 1-5 of angular displacement location survey head conductor 1-6 and angular displacement, because of the magnetic line of force is cut, according to the right-hand rule, two leads will produce electric potential signal respectively, with this as moving gauge head periodicity original signal A ₅With location survey head periodicity original signal A ₆Again this two-way original signal amplification and waveform arrangement are moving gauge head square-wave signal P ₅With location survey head square-wave signal P ₆Because angular displacement location survey head conductor 1-6 keeps motionless in angular displacement scale 1-1, so the maintenance of location survey head square-wave signal phase place is motionless; And the moving gauge head conductor 1-5 of angular displacement rotates with any rotational speed ω and any direction with the moving chi 1-4 of angular displacement, and moving gauge head square-wave signal period T is corresponding with 360 ° of circumference in space.Now represent the phase differential of two paths of signals with mistiming Δ T, then angular displacement is

Embodiment 2

Fig. 5,6,7,8 and Fig. 9 is straight-line displacement survey sensor structure, and the principle of work of straight-line displacement survey sensor and embodiment 1 are identical.Different is, the shell of alternating current generator with press straight-line displacement coil winding 2-2 on the equally distributed straight-line displacement iron-core coil of the circumference 2-3 and press straight line simultaneously and launch to constitute straight-line displacement scale 2-1, the gap location between arbitrary adjacent straight displacement of the lines coil winding 2-2 of straight-line displacement scale 2-1 is fixed a straight-line displacement location survey head conductor 2-6; The moving chi 2-4 of straight-line displacement is the slide rule of moving linearly in the travelling-magnetic-field that passes to alternating current at straight-line displacement coil winding 2-2 and produce, fix a moving gauge head conductor 2-5 of the straight-line displacement with the moving chi 2-4 moving linearly of straight-line displacement on the moving chi body, the movement velocity of travelling-magnetic-field M represents that with V the arbitrary line travelling speed of the moving chi 2-4 of straight-line displacement is represented with v.When one group of line chart distance L of the every motion of travelling-magnetic-field M, then repeat the moving gauge head conductor 2-5 of cutting straight line displacement location survey head conductor 2-6 and straight-line displacement once, the square-wave signal period T that obtains thus is corresponding with space length L, represents the phase differential of two paths of signals with time quantum Δ T, and then straight-line displacement is $\mathrm{\ΔL}=\mathrm{V\ΔT}=\frac{L}{T}\mathrm{\ΔT}.$

Claims (3)

1. displacement measurement sensor, comprise scale and moving chi, it is characterized in that scale is the housing that contains coil winding, coil winding passes to alternating current and produces travelling-magnetic-field, gap location between arbitrary adjacent coil winding is adorned a conductor as location survey head conductor, and these conductor two ends are the periodically output terminal of raw electrical signal of location survey head; Be provided with the moving chi with respect to the scale motion in travelling-magnetic-field, a conductor be housed as moving gauge head conductor on the moving chi, these conductor two ends are the periodically output terminal of raw electrical signal of moving gauge head.

2. displacement measurement sensor according to claim 1, the coil winding that it is characterized in that scale are to be evenly distributed in the circular shell by circumference, and moving chi is a rotor or rotating shaft.

3. displacement measurement sensor according to claim 1 is characterized in that scale is launch to constitute by straight line simultaneously with housing with by the equally distributed coil winding of circumference, and moving chi is with respect to the slide rule of scale moving linearly in travelling-magnetic-field.

Images