CN203874979U - Double-moving-coil servo ultra-low frequency rotary vibrating table - Google Patents

Abstract

The utility model relates to a double-moving-coil servo ultra-low frequency rotary vibrating table which comprises a bottom plate and a shell. The bottom plate is provided with a rotary table, a drive system and a feedback system. The rotary table comprises a vertical shaft, the section, below a precise bearing, of the vertical shaft is fixedly connected with one end of a spring piece, and the other end of the spring piece is connected with a round rotary table surface through a spring connector. The drive system comprises a signal source, a drive coil and a magnetic circuit. The feedback system comprises a feedback amplifier, a feedback coil and magnetic circuits, the feedback coil and the drive coil are symmetrical about the vertical shaft, the magnetic circuit of the feedback system and the magnetic circuit of the drive system are symmetric about the vertical shaft, each magnetic circuit comprises a permanent magnet and an inverted-T-shaped magnetic yoke, and gaps between two side arms of each magnetic yoke and the left side face and the right side face of the corresponding permanent magnet form magnetic seams. The double-moving-coil servo ultra-low frequency rotary vibrating table is simple in structure, reasonable in design, high in calibration precision and low in calibration cost, a low frequency lower limit is small, and calibration of various rotary signal measurement instruments can be achieved.

Description

Two moving-coil servo-type ultralow frequency rotational vibrations platforms

Technical field

The utility model relates to a kind of rotational vibrations platform, particularly relates to a kind of pair of moving-coil servo-type ultralow frequency rotational vibrations platform.

Background technology

At present, the angular oscillation shake table that existing employing torque motor drives both at home and abroad, measuring principle generally adopts laser interferance method primary calibration, and its frequency range is 5-500Hz, but expensive, the minimum measuring frequency of shake table is higher.The bearing capacity of angle vibration table is generally less than 10kg in addition, and the quality of the turn signal measuring instrument of measurement earthquake low frequency or ultralow frequency component is much larger than 10kg, also there is the problems such as calibration accuracy is poor, low bearing capacity, calibration expense height for earthquake rotation measuring instrument calibration in angle vibration table at present simultaneously, is therefore badly in need of the parameters such as a kind of cheapness, ultra-low frequency rotational vibrations platform calibration earthquake rotation measuring instrumental sensitivity, frequency response.

Summary of the invention

The purpose of this utility model is to overcome the weak point existing in above-mentioned technology, provides a kind of simple in structure, reasonable in design, and calibration accuracy is high, bearing capacity is large, calibration expense is low, and ultralow frequency can realize the two moving-coil servo-type ultralow frequency rotational vibrations platforms to all kinds of turn signal Calibration of measuring instruments.

In order to achieve the above object, the technical solution adopted in the utility model is: comprise base plate, shell, described base plate is provided with turntable, drive system and reponse system, described turntable comprises vertical shaft, vertical shaft lower end is arranged on base plate, vertical shaft upper end is connected with circular Table top able to be rotated by precision bearing, the shaft part that vertical shaft is positioned at precision bearing below is fixedly connected with spring leaf one end, the spring leaf other end is connected with circular Table top able to be rotated by spring connector, described drive system comprises signal source, drive coil, magnetic circuit, drive coil upper end is arranged on the edge of circular Table top able to be rotated bottom surface by drive coil connector, mid portion is arranged in magnetic circuit, the magnetic circuit of drive system is by driving magnetic circuit connector to be arranged on base plate, reponse system comprises feedback amplifier, feedback coil, magnetic circuit, feedback coil and drive coil are installed about vertical shaft is symmetrical, upper end is arranged on the edge of circular Table top able to be rotated bottom surface by feedback coil connector, mid portion is arranged in magnetic circuit, the magnetic circuit of reponse system is arranged on base plate by feedback magnetic circuit connector, and install about vertical shaft is symmetrical with the magnetic circuit of drive system, described magnetic circuit comprises the yoke of permanent magnet and concave shape, permanent magnet is positioned at the centre of yoke two side arms, bottom surface is fixedly connected with the bottom of yoke, front end face is concordant with yoke open top end, two sides, left and right are for take the arc surface that vertical shaft is axle center, the two side arms inner side of yoke is also provided with take the arc surface that vertical shaft is axle center, the curvature of each arc surface reduces successively to the direction away from vertical shaft, space between two sides of the two side arms of yoke and permanent magnet left and right forms magnetic gap, drive coil is placed in the magnetic gap of drive system magnetic circuit, feedback coil is placed in the magnetic gap of reponse system magnetic circuit, drive coil passes through power amplifier successively, adder is communicated with signal source, signal source is used for providing sine voltage signal, feedback coil is communicated with adder by feedback amplifier, also be connected with follower with integrator respectively, follower output angle vibration velocity signal, integrator output angle vibration displacement signal.

The utility model has the advantages that:

1. simple in structure, reasonable in design, manufacture difficulty is low;

2. vertical shaft is connected with circular Table top able to be rotated by precision bearing, accurate positioning;

3. vibrator work low frequency performance is good, can be low to moderate 0.01Hz, and calibration accuracy is high.

Accompanying drawing explanation

Fig. 1 is the utility model structural representation;

Fig. 2 is shell figure of the present utility model;

Fig. 3 is complete section profile of the present utility model;

Fig. 4 is magnetic structure figure of the present utility model;

Fig. 5 is electrical equipment functional-block diagram of the present utility model;

Fig. 6 is mechanical model figure of the present utility model.

The specific embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model is described in further detail.

From Fig. 1-Fig. 6, the utility model comprises base plate 2, shell 11, described base plate 2 is provided with turntable, drive system and reponse system, described turntable comprises vertical shaft 16, vertical shaft 16 lower ends are arranged on base plate 2, vertical shaft 16 upper ends are connected with circular Table top able to be rotated 17 by precision bearing 15, the shaft part that vertical shaft 16 is positioned at precision bearing 15 belows is fixedly connected with spring leaf 14 one end, spring leaf 14 other ends are connected with circular Table top able to be rotated 17 by spring connector 13, described drive system comprises signal source 26, drive coil 19, magnetic circuit 20, drive coil 19 upper ends are arranged on the edge of circular Table top able to be rotated 17 bottom surfaces by drive coil connector 18, mid portion is arranged in magnetic circuit 20, the magnetic circuit 20 of drive system is by driving magnetic circuit connector 23 to be arranged on base plate 2, reponse system comprises feedback amplifier 29, feedback coil 9, magnetic circuit 20, feedback coil 9 is installed about vertical shaft 16 is symmetrical with drive coil 19, upper end is arranged on the edge of circular Table top able to be rotated 17 bottom surfaces by feedback coil connector 10, mid portion is arranged in magnetic circuit 20, the magnetic circuit 20 of reponse system is arranged on base plate 2 by feedback magnetic circuit connector 6, and install about vertical shaft 16 is symmetrical with the magnetic circuit 20 of drive system, described magnetic circuit 20 comprises the yoke 7 of permanent magnet 8 and concave shape, permanent magnet 8 is positioned at the centre of yoke 7 two side arms, bottom surface is fixedly connected with the bottom of yoke 7, front end face is concordant with yoke 7 open top ends, two sides, left and right are for take the arc surface that vertical shaft 16 is axle center, the two side arms inner side of yoke 7 is also provided with take the arc surface that vertical shaft 16 is axle center, the curvature of each arc surface reduces successively to the direction away from vertical shaft 16, space between the two side arms of yoke 7 and side, two of 8 left and right of permanent magnet forms magnetic gap 21, drive coil 19 is placed in the magnetic gap 21 of drive system magnetic circuit 20, feedback coil 9 is placed in the magnetic gap 21 of reponse system magnetic circuit 20, drive coil 19 is successively by power amplifier 28, adder 27 is communicated with signal source 26, signal source 26 is for providing sine voltage signal, feedback coil 9 is communicated with adder 27 by feedback amplifier 29, also be connected with follower 30 with integrator 31 respectively, follower 30 output angle vibration velocity signals, integrator 31 output angle vibration displacement signals.

Described drive coil 19 is connected by go between spring 24, drive coil binding post 25 and socket 5 of drive coil, and feedback coil 9 is connected by go between spring 4, feedback coil binding post 3 and socket 5 of feedback coil.

Described base plate 2 is circular, is fixedly mounted on concentric cup dolly 1.

Described shell 11 is cylindrical shape, and turntable, drive system and reponse system are arranged in shell 11 inside, and shell 11 lateral walls are provided with two handles that are arranged symmetrically with 22.

Described spring leaf 14 is arc, and spring connector 13 lower end side are connected by screw 12 with spring leaf 14.

The ultra-low frequency rotational vibrations platform of a kind of pair of moving-coil servo-type of the present utility model, comprises in the space that the base plate 2 that is seated on base 1 and circular housing 11 form turntable, symmetrical drive system of installing and reponse system, spring system is housed.Turntable comprises that base plate 2, vertical shaft 16, center inlay the circular Table top able to be rotated 17 of precision bearing 15, spring system and the drive coil 19 being connected with table top and feedback coil 9.The lower end of vertical shaft 16 is connected with turntable base plate 2, base plate 2 is arranged on concentrically ringed base 1, the circular Table top able to be rotated 17 of inlaying precision bearing 15 is equipped with on the top of vertical shaft 16, the outer ring of bearing 15 is embedded in circular Table top able to be rotated 17 center, the inner ring of bearing 15 is embedded in the upper end of vertical shaft 16, and circular Table top able to be rotated 17 rotates around the upper end of vertical shaft 16.The edge symmetry of circular Table top able to be rotated 17 bottom surfaces is equipped with drive coil connector 18 and feedback coil connector 10, the object that drive coil connector 18 and feedback coil connector 10 are arranged in circular Table top able to be rotated 17 edges is exactly that guarantee effect power is when identical, moment is large, and sensitivity is good.Spring system comprises spring connector 13, spring leaf 14, for the fixing screw 12 of spring leaf 14, the upper surface of spring connector 13 is connected with the bottom surface of circular Table top able to be rotated 17, the side of spring connector 13 lower ends is connected by screw 12 with one end of spring leaf 14, the other end of spring leaf 14 is connected with vertical shaft 16, the same screw 12 that adopts is fixedly connected with, the width of spring leaf 14 is vertical direction, axially identical with vertical shaft 16, so spring system can be turntable provides certain torsional rigidity.

The utility model drive system comprises signal source 26, power amplifier 28, drive coil 19, drive coil connector 18, magnetic circuit 20, drives magnetic circuit connector 23.The upper surface of drive coil connector 18 is connected with the edge of circular Table top able to be rotated 17 bottom surfaces, and drive coil connector 18 lower surfaces are connected with the upper surface of drive coil 19.Drive coil 19 mid portions are arranged in magnetic circuit 20.Reponse system comprises feedback coil 9, feedback coil connector 10, magnetic circuit 20, feedback magnetic circuit connector 6, feedback amplifier 27.The upper surface of feedback coil connector 10 is connected with the edge of circular Table top able to be rotated 17 bottom surfaces, and the lower surface of feedback coil connector 10 is connected with the upper surface of feedback coil 9, and feedback coil 9 mid portions are arranged in magnetic circuit 20.Feedback coil 9 is installed about vertical shaft 16 is symmetrical with drive coil 19.

Magnetic circuit 20 as shown in Figure 4, the yoke 7 that comprises permanent magnet 8 and concave shape, permanent magnet 8 is positioned at the centre of yoke 7 two side arms, bottom surface is fixedly connected with the bottom of yoke 7, front end face is concordant with yoke 7 open top ends, two sides, left and right are for take the arc surface that vertical shaft 16 is axle center, the two side arms inner side of yoke 7 is also provided with take the arc surface that vertical shaft 16 is axle center, each arc surface all be take vertical shaft 16 as axle center, the horizontal cross-section that is each arc surface is to take the donut that vertical shaft 16 is the center of circle, the curvature of each arc surface reduces successively to the direction away from vertical shaft 16 simultaneously, the difference of the curvature of each arc surface makes to have space between the two side arms of yoke 7 and side, two of 8 left and right of permanent magnet, this space has just formed the magnetic gap 21 of magnetic circuit 20, the horizontal cross-section in magnetic gap 21 is curve arc, vertical cross-section is rectangle.Drive coil 19 mid portions are arranged in magnetic circuit 20, and drive coil 19 is placed in the magnetic gap 21 of drive system magnetic circuit 20, to can bear electromagnetic force, produces motion; Feedback coil 9 mid portions are arranged in magnetic circuit 20, and feedback coil 9 mid portions are placed in the magnetic gap 21 of reponse system magnetic circuit 20, to can produce the signal of telecommunication by cutting magnetic line.

The magnetic circuit 20 of drive system is by driving magnetic circuit connector 23 to be arranged on base plate 2, and the magnetic circuit 20 of reponse system is arranged on base plate 2 by feedback magnetic circuit connector 6, and installs about vertical shaft 16 is symmetrical with the magnetic circuit 20 of drive system.Because feedback coil 9 and drive coil 19 are also installed about vertical shaft 16 is symmetrical, therefore the mechanical mechanism of drive system and the mechanical mechanism of reponse system are also about vertical shaft 16 symmetries, so arrange and be convenient to static and dynamic equilibrium adjustment, meet static and dynamic equilibrium, improve system accuracy.

Drive coil 19 is communicated with signal source 26 by power amplifier 28, adder 27 successively, signal source 26 is for providing sine voltage signal, feedback coil 9 is communicated with adder 27 by feedback amplifier 29, also be connected with follower 30 with integrator 31 respectively, follower 30 output angle vibration velocity signals, integrator 31 output angle vibration displacement signals.Connection for the ease of electric system, two terminals of feedback coil 9 are connected by go between spring 4, feedback coil binding post 3 and socket 5 of feedback coil, and two terminals of drive coil 19 are connected by go between spring 24, drive coil binding post 25 and socket 5 of drive coil.The signal source of socket 5 shake tables is connected with after-treatment system.

Shake table of the present utility model, signal source 26 output sine voltage signal u _i, after adder 27, power amplifier 28, inputing to drive coil 19, drive coil 19 moves in magnetic gap 21, drives circular Table top able to be rotated 17 to do angular oscillation.Feedback coil 9 motion in the magnetic gap of feedback magnetic circuit being synchronized with the movement with drive coil 19 produces induced electromotive force e _s, induced electromotive force e _safter feedback amplifier 29, adder 27, power amplifier 28, input to drive coil 19, produce damping force, by adjusting the multiplication factor K of feedback amplifier 29, can greatly improve the damping ratio of rotational vibrations platform system, thereby expand the low frequency characteristic of rotational vibrations platform.While feedback coil induced electromotive force e _salso input to follower 30 sum-product intergrators 31, respectively output and angular oscillation speed the voltage being directly proportional with angular oscillation displacement θ and V _θ, as shown in Figure 5.

As shown in Figure 6, the differential equation of rotational vibrations platform is the mechanical model of rotational vibrations platform:

$K_1\stackrel{\·\·}{\mathrm{\θ}}+(c+c_m)\stackrel{\·}{\mathrm{\θ}}+\mathrm{k\θ}=T_m---\left(1\right)$

In formula: the angular displacement of θ rotational vibrations platform, the angular speed of rotational vibrations platform; the angular acceleration of rotational vibrations platform; R is the radius of circular Table top able to be rotated 17, and k is the torsional rigidity of rotational vibrations platform; rotary inertia for rotational vibrations platform; M is rotating part quality, and c is air damping force coefficient; for electronic damping force coefficient; G ₁for the electronic constant of feedback coil, G ₂for the electronic constant of drive coil, T _mfor driving moment,, the loop resistance that R is power amplifier.Because rotational vibrations platform is in low frequency and ultralow frequency range work, coil inductance impact can be ignored.

When ignoring air damping impact, equation (1) is

$K_1\stackrel{\·\·}{\mathrm{\θ}}+c_m\stackrel{\·}{\mathrm{\θ}}+\mathrm{k\θ}=T_m---\left(2\right)$

The solution of equation is

$\mathrm{\θ}=\frac{T_m/K_1}{s^2+2D{\mathrm{\ω}}_{0}s+{\mathrm{\ω}}_0^2}---\left(3\right)$

The damping ratio that can try to achieve rotational vibrations platform is

$D=\frac{G_1{G}_{2}K}{2K_1{\mathrm{\ω}}_{0}R}---\left(4\right)$

From equation (4), can find out, when the mechanical parameter of rotational vibrations platform,, after the number of turn of coil determines, only need to improve the multiplication factor K of feedback amplifier, can increase damping ratio.

The natural frequency of vibration of rotational vibrations platform is

${\mathrm{\ω}}_0=\sqrt{\frac{k}{K_1}}---\left(5\right)$

The low-frequency minimum of rotational vibrations platform is

${\mathrm{\ω}}_L=\frac{{\mathrm{\ω}}_0}{2D}---\left(6\right)$

From equation (6), can find out, damping ratio is larger, and the low-frequency minimum of rotational vibrations platform is lower.Therefore can by adjusting damping ratio, obtain the limit low frequency of 0.01Hz, improve calibration accuracy high.

The utility model reasonable in design, simple, calibration accuracy is high, and calibration expense is low, and low-frequency minimum is little, can realize all kinds of turn signal Calibration of measuring instruments.

Claims (5)

1. a two moving-coil servo-type ultralow frequency rotational vibrations platform, comprise base plate (2), shell (11), it is characterized in that: described base plate (2) is provided with turntable, drive system and reponse system, described turntable comprises vertical shaft (16), vertical shaft (16) lower end is arranged on base plate (2), vertical shaft (16) upper end is connected with circular Table top able to be rotated (17) by precision bearing (15), the shaft part that vertical shaft (16) is positioned at precision bearing (15) below is fixedly connected with spring leaf (14) one end, spring leaf (14) other end is connected with circular Table top able to be rotated (17) by spring connector (13), described drive system comprises signal source (26), drive coil (19), magnetic circuit (20), drive coil (19) upper end is arranged on the edge of circular Table top able to be rotated (17) bottom surface by drive coil connector (18), mid portion is arranged in magnetic circuit (20), the magnetic circuit of drive system (20) is by driving magnetic circuit connector (23) to be arranged on base plate (2), reponse system comprises feedback amplifier (29), feedback coil (9), magnetic circuit (20), feedback coil (9) is installed about vertical shaft (16) is symmetrical with drive coil (19), upper end is arranged on the edge of circular Table top able to be rotated (17) bottom surface by feedback coil connector (10), mid portion is arranged in magnetic circuit (20), the magnetic circuit of reponse system (20) is arranged on base plate (2) by feedback magnetic circuit connector (6), and install about vertical shaft (16) is symmetrical with the magnetic circuit (20) of drive system, described magnetic circuit (20) comprises the yoke (7) of permanent magnet (8) and concave shape, permanent magnet (8) is positioned at the centre of yoke (7) two side arms, bottom surface is fixedly connected with the bottom of yoke (7), front end face is concordant with yoke (7) open top end, two sides, left and right are to take the arc surface that vertical shaft (16) is axle center, the two side arms inner side of yoke (7) is also provided with take the arc surface that vertical shaft (16) is axle center, the curvature of each arc surface reduces successively to the direction away from vertical shaft (16), space between two sides of the two side arms of yoke (7) and permanent magnet (8) left and right forms magnetic gap (21), drive coil (19) is placed in the magnetic gap (21) of drive system magnetic circuit (20), feedback coil (9) is placed in the magnetic gap (21) of reponse system magnetic circuit (20), drive coil (19) is successively by power amplifier (28), adder (27) is communicated with signal source (26), signal source (26) is for providing sine voltage signal, feedback coil (9) is communicated with adder (27) by feedback amplifier (29), also be connected with follower (30) with integrator (31) respectively, follower (30) output angle vibration velocity signal, integrator (31) output angle vibration displacement signal.

2. according to claim 1 pair of moving-coil servo-type ultralow frequency rotational vibrations platform, it is characterized in that: described drive coil (19) is connected by go between spring (24), drive coil binding post (25) and socket (5) of drive coil, feedback coil (9) is connected by go between spring (4), feedback coil binding post (3) and socket (5) of feedback coil.

3. according to claim 1 pair of moving-coil servo-type ultralow frequency rotational vibrations platform, is characterized in that: described base plate (2), for circular, is fixedly mounted on concentric cup dolly (1).

4. according to claim 1 pair of moving-coil servo-type ultralow frequency rotational vibrations platform, it is characterized in that: described shell (11) is cylindrical shape, turntable, drive system and reponse system are arranged in shell (11) inside, and shell (11) lateral wall is provided with two handles that are arranged symmetrically with (22).

5. according to claim 1 pair of moving-coil servo-type ultralow frequency rotational vibrations platform, is characterized in that: described spring leaf (14) is arc, and spring connector (13) lower end side is connected by screw (12) with spring leaf (14).