CN209446068U - A kind of double quality blocks tuning-fork type angular rate gyroscope of anti high overload - Google Patents

Abstract

The utility model discloses a kind of double quality blocks tuning fork angular rate gyroscopes of anti high overload, it is designed by reasonable stop structure, limit the displacement in driven-mode direction and sensed-mode direction, prevent mechanical structure from destroying under excessive percussion, and the rigidity outside structural plane is further increased by the Curve guide impeller to mass block connection structure, increase the impact resistance outside structural plane, so that realize gyro all has certain anti high overload ability in three directions.The structure of the gyroscope increases comb teeth width, reduces comb teeth length, increases comb teeth gap and both ends are arranged symmetrically comb teeth equity optimization design, and comb teeth caused by acting on due to high overload is avoided to be broken and adhesion failure.The stop structure of the gyroscope rationally utilizes the monocrystalline silicon wafer design outside gyro mechanical structure, economical rationality, and the lithography together with mechanical structure, reduces the difficulty of processing of the micromechanical gyro with anti high overload ability.

Description

A kind of double quality blocks tuning-fork type angular rate gyroscope of anti high overload

Technical field

The utility model belongs to microelectromechanical systems and micro-inertia measuring technology, double matter of especially a kind of anti high overload Gauge block tuning-fork type angular rate gyroscope.

Background technique

Micromechanical Inertial Instruments include micromechanical gyro (MMG) and micro-mechanical accelerometer (MMA).Utilize micro-electronic machining Technique allows for micro mechanical structure and required electronic circuit to be completely integrated on a silicon wafer, to reach performance, price, body Product, weight, reliability aspects high unity.Thus, this kind of instrument have the advantages that it is a series of (it is such as small in size, light-weight, Cheap, high reliablity can be produced in enormous quantities etc.), it is all with a wide range of applications at two aspect of the army and the people.In civilian side Face is mainly used for auto industry, industrial monitoring and consumer product and robot technology, such as air bag, anti-lock braking system, yaw speed Rate sensor, tumble rate sensor, image stabilization and toy etc.；In military domain, it is mainly used for agile bomb, intelligent cannon Bullet, tactical missile, new concept weapon and independent navigation guidance system of miniplane etc..

1993, the U.S. laboratory De Leipo made a kind of novel microcomputer by being covered with silicon layer technology in glass surface Tool gyro-tuning-fork type linearly coupled gyro.The gyro is made of double quality blocks, backbar and crossbeam, and gyro is driven using linearly coupled With the mode of angular oscillation detection, angular speed that can be axial in sensitive gyroscopic plane.Due to the driving campaign and sensitivity of the gyro Movement coupling completely, limits the raising of its sensitivity.

2007, Su Yan et al. had developed double quality oscillatory type silicon microthrust test and (application number: 200710133223.5), is driving Double quality are in the linearly coupled for being parallel to substrate under the action of power, and when having angular speed input, double quality blocks are parallel to substrate The linearly coupled perpendicular to driving direction, pass through detection sensitization capacitance variation, test input angle speed.The gyro uses eight Root driving backbar and eight sensitive backbars realize separating for driven-modes and sense mode.It is missed since microelectronic technique exists Difference, will lead to two minor structures does not have good consistency, generates phenomena such as sense mode is asynchronous.

2009, Su Yan et al. had developed oscillation type silicon microthrust test (application number: 200920037290.1) again.Using torsion bar And crossbeam, gyro is turned about the Z axis, the sensitive movement of gyro is realized, realizes the mobile decoupling of driving direction and detection direction. Torsion bar reduces backbar number instead of sensitive backbar, reduces influence of the mismachining tolerance to gyro performance.But in body In silicon technology, there is sizable difficulty to the processing of vertical torsion bar.

2011, Su Yan et al. had developed the micro- angular oscillation output gyro of silicon and (application number: 201110170673.8) and rocks Formula angular rate gyroscope (application number: 201120340974.6).The two all uses Horizontal torsion rod and crossbeam, realizes the angular oscillation of gyro Output.The use of Horizontal torsion rod reduces the requirement to process.It is provided with mass block link mechanism simultaneously, increases work The difference on the frequency for making mode and interference modal increases the stability of gyro.The different place of the two is crossbeam and fixed pedestal Connection type it is different.

2016, Yang Haibo et al. have developed the double quality linearly coupleds output gyros of micromechanics (application number: application number: 201610878920.2).By the design of quality connection structure and truss structure, realizes driven-mode and sensed-mode is the First-order modal and second-order mode, all common drivings of raising are in the same direction, detect the frequency of the interference modals such as in the same direction and Z-direction mode Rate, stability is stronger, improves the antivibration kinetic force of gyro.

Summary of the invention

The purpose of this utility model is to provide a kind of double quality blocks tuning fork angular rate gyroscopes of anti high overload, pass through conjunction The stop structure of reason designs, and limits the displacement in driven-mode direction and sensed-mode direction, prevents mechanical structure from rushing in excessive The effect of hitting is lower to be destroyed, and further increases the rigidity outside structural plane by the Curve guide impeller to mass block connection structure, Increase the impact resistance outside structural plane, so that realize gyro all has certain anti high overload ability in three directions. The structure of the gyroscope increases comb teeth width, reduces comb teeth length, increases comb teeth gap and both ends are arranged symmetrically Comb teeth equity optimization design avoids comb teeth fracture and adhesion failure caused by acting on due to high overload.The stop of the gyroscope The structurally reasonable monocrystalline silicon wafer design using outside gyro mechanical structure, economical rationality, and etching adds together with mechanical structure Work reduces the difficulty of processing of the micromechanical gyro with anti high overload ability.

Realize the technical solution of the utility model aim are as follows: a kind of double quality blocks tuning fork angular speed top of anti high overload Spiral shell instrument, including upper layer Vacuum Package cover board, lower layer's silicon substrate and middle layer monocrystalline silicon piece, it is mechanical that middle layer monocrystalline silicon piece is equipped with gyro Structure and stop structure, the gyro mechanical structure include that mass block bindiny mechanism, two minor structures, two truss and level are straight The combined mechanism of beam, two U-shaped beam combination beams, eight the first U-shaped beams and four straight beams, described two minor structures are symmetrically distributed in The two sides of the combined mechanism of mass block bindiny mechanism and two truss and horizontal straight beam, mass block bindiny mechanism and two truss with The combined mechanism of horizontal straight beam is linearly distributed, and mass block bindiny mechanism is located at the combined mechanism of two truss and horizontal straight beam Between, the first U-shaped beam is arranged along the long side of minor structure, and is located at the both ends of long side, and the combined mechanism of truss and horizontal straight beam is logical It crosses the first U-shaped beam to connect with minor structure, U-shaped beam combination beam is arranged along the long side of minor structure, and is located remotely from mass block connection machine The centre of two the first U-shaped beams of structure side；Straight beam is arranged along minor structure width direction, for connecting the first of minor structure two sides U-shaped beam.

Micromechanical gyro stop structure includes two detection framework stop structures, four outside driving beam stop structures, four A detection beam stop structure and four mass block bindiny mechanism stop structures；Two detection framework stop structures are symmetricly set on two The outside of a minor structure, and it is located at the outside central location of minor structure, four outside driving beam stop structures are arranged in two On four first U-shaped beams of side position, four detection beam stop structures are symmetrically arranged at two truss and horizontal straight beam On combined mechanism, and it is located at close to the side of mass block bindiny mechanism, four mass block bindiny mechanism stop structures are arranged in matter The two sides of the length direction of gauge block bindiny mechanism.

The utility model compared with prior art, remarkable advantage are as follows: (1) pass through stop structure design, limitation driving mould The displacement in state direction and sensed-mode direction prevents mechanical structure from destroying under excessive percussion, and passes through matter The design of gauge block connection structure further increases the rigidity of structure of Z-direction, increases the impact resistance of Z-direction, to realize gyro All there is certain anti high overload ability in three directions.

(2) comb teeth capacitance structure is optimized, increases comb teeth width, reduced comb teeth length, increase comb teeth Between gap and reasonable Arrangement comb teeth etc. avoid comb teeth caused by acting on due to high overload from being broken and adhesion failure.

(3) stop structure is rationally to be designed using the silicon wafer outside gyro mechanical structure, economical rationality, and with machinery Structure lithography together, reduces the difficulty of processing of the micromechanical gyro with anti high overload ability.

Detailed description of the invention

Fig. 1 is the overall structure diagram of the utility model double quality blocks tuning-fork type angular rate gyroscope.

Fig. 2 is the mass block bindiny mechanism knot of the utility model the utility model double quality blocks tuning-fork type angular rate gyroscope Structure schematic diagram.

Fig. 3 is the detection framework stop structure of the utility model the utility model double quality blocks tuning-fork type angular rate gyroscope Schematic diagram.

Fig. 4 is the outside driving beam stop knot of the utility model the utility model double quality blocks tuning-fork type angular rate gyroscope Structure schematic diagram.

Fig. 5 is that the detection beam stop structure of the utility model the utility model double quality blocks tuning-fork type angular rate gyroscope shows It is intended to.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawing.

The utility model anti high overload double quality blocks tuning-fork type angular rate gyroscope, for measuring the quilt for having high overload environment Survey the angular speed of object Z-direction.It includes upper layer Vacuum Package cover board, lower layer's silicon substrate and middle layer monocrystalline silicon piece, middle layer monocrystalline Silicon wafer is equipped with gyro mechanical structure and fixed stop structure.The utility model uses wafer-grade vacuum encapsulation process, upper layer Vacuum Package cover board, middle layer monocrystalline silicon piece and lower layer's silicon substrate are silicon materials, between upper layer Vacuum Package cover board, lower layer's silicon substrate Closed vacuum cavity is formd, middle layer monocrystalline silicon piece is arranged in the vacuum cavity, and gyroscope mechanical structure is made vacantly to exist On lower layer's silicon substrate, upper layer Vacuum Package cover board arranges signal lead and bond area.Gyroscope mechanical structure not will receive The pollution of dust granule and the influence of external mechanical power, improve the performance of gyroscope.

In conjunction with Fig. 1, the gyro mechanical structure includes mass block bindiny mechanism 2, two minor structure 1, two truss and water 4, eight the first U-shaped beams 6 of combined mechanism 3, two U-shaped beam combination beams of straight beam and four straight beams 12, described two minor structures 1 It is symmetrically distributed in the two sides of the combined mechanism 3 of mass block bindiny mechanism 2 and two truss and horizontal straight beam, mass block bindiny mechanism 2 and the combined mechanism 3 of two truss and horizontal straight beam be linearly distributed, and mass block bindiny mechanism 2 is located at two truss and water Between the combined mechanism 3 of straight beam, the first U-shaped beam 6 is arranged along the long side of minor structure 1, and is located at the both ends of long side, truss and water The combined mechanism 3 of straight beam is connect by the first U-shaped beam 6 with minor structure 1, and U-shaped beam combination beam 4 is arranged along the long side of minor structure 1, And it is located remotely from the centre of two the first U-shaped beams 6 of 2 side of mass block bindiny mechanism；Straight beam 12 is along 1 width direction of minor structure Setting, the first U-shaped beam 6 for connecting 1 two sides of minor structure.

Two U-shaped 6 opening directions of beam positioned at 1 the same side of minor structure are opposite.

In conjunction with Fig. 1, micromechanical gyro stop structure includes that two detection framework stop structures, 13, four outside driving beams are stopped 14, four detection beam stop structures 15 of mark structure and four mass block bindiny mechanism stop structures 16；Two detection framework stops Structure 13 is symmetricly set on the outside of two minor structures 1, and is located at the outside central location of minor structure 1, four outside driving beams Stop structure 14 is arranged on four the first U type beams 6 of two side positions, and four detection beam stop structures 15 are respectively symmetrically It is arranged on the combined mechanism 3 of two truss and horizontal straight beam, and is located at close to the side of mass block bindiny mechanism 2, four matter Gauge block bindiny mechanism stop structure 16 is arranged in the two sides of the length direction of mass block bindiny mechanism 2.

In conjunction with Fig. 2, the mass block bindiny mechanism 2 includes 6 U-shaped beams 202 of straight beam 201 and 4 second, horizontal straight beam The both ends of 201b pass through two the second U-shaped beams 202 for being oppositely arranged of being open respectively and connect with minor structure 1, four straight beam 201a's One end is connected with the midpoint horizontal straight beam 201b jointly, with horizontal straight beam 201b it is at 45 °, 135 °, 225 ° and 315 ° of angles arrange, The other end of four straight beam 201a is anchored with upper layer Vacuum Package cover board and lower layer's silicon substrate.Four mass block bindiny mechanisms stop Mark structure 16 is arranged in the two sides of horizontal straight beam 201b length direction.

The open end of described two the second U-shaped beams 202 being oppositely arranged that are open is connected.

In conjunction with Fig. 3, the detection framework stop structure 13 include fixed anchor point and fixed anchor point outer one enclose it is multiple etc. Semi-circular structure away from arrangement.It is the admissible driving maximum displacement designed in the gap of driving direction and mechanical structure, The gap of detection direction and mechanical structure is the admissible detection maximum displacement of design.Specific size is according to structure interval and right The given gyro anti high overload acceleration amplitude answered is determined.

In conjunction with Fig. 4, four outsides driving beam stop structure 14 includes the on-mechanical structure silicon being connected with fixed anchor point The semi-circular structure of the stretching structure of disk position and the multiple equidistant arrangements for stretching out structure outer, equally it is in driving side It is to set in the gap of detection direction and mechanical structure with the gap of mechanical structure to the admissible driving maximum displacement for being design The admissible detection maximum displacement of meter.Specific size is according to structure interval and corresponding given gyro anti high overload acceleration width Value is determined.

In conjunction with Fig. 5, four detections beam stop structure 15 includes the on-mechanical structure silicon wafer being connected with fixed anchor point The semi-circular structure of the stretching structure of position and the multiple equidistant arrangements for stretching out structure outer, it is same its driving direction with The gap of mechanical structure is the admissible driving maximum displacement of design, is design in the gap of detection direction and mechanical structure Admissible detection maximum displacement.Specific size according to structure interval and corresponding given gyro anti high overload acceleration amplitude into Row determines.

Mass block bindiny mechanism stop structure 16 includes stretching for the on-mechanical structure silicon wafer position being connected with fixed anchor point Structure and the semi-circular structure of the multiple equidistant arrangements for stretching out structure outer out, in detection direction and horizontal straight beam 201b Gap be design admissible detection maximum displacement.Specific size exceeds according to structure interval and corresponding given gyro are anti- Acceleration amplitude is carried to be determined.

The minor structure 1 (disclosing in patent 201610878920.2) includes detection mass block 5, upper driving support frame Frame 7a, lower driving braced frame 7b, fixed driving electrodes, fixed driving detecting electrode, fixed test electrode, driving comb, drive Dynamic detection comb and movable comb teeth, the upper driving braced frame 7a are located at the top of detection mass block 5, lower driving braced frame 7b is located at the lower section of detection mass block 5, and upper driving braced frame 7a is identical with lower driving braced frame 7b structure and about detection The center line of mass block 5 is symmetrical, and detection mass block 5 passes through the 4th U-shaped beam 10a and the 5th U-shaped beam 10b and upper driving braced frame 7a is fixedly connected with, and detection mass block 5 is solid with lower driving braced frame 7b phase by the 6th U-shaped beam 10c and the 7th U-shaped beam 10d simultaneously Even, it is connected between upper driving braced frame 7a and lower driving braced frame 7b by attachment beam 11, the attachment beam 11 is located at inspection The outside of mass metering block 5.

Driving electrodes 8a is fixed in setting 3 identical first inside upper driving braced frame 7a and 3 identical second solid Surely detecting electrode 8b, described 3 first fixed driving electrodes 8a and the 3 second fixed driving interval detecting electrode 8b rows are driven Column, each first fixed driving electrodes 8a are all connected with corresponding driving comb, and each second fixed driving detecting electrode 8b connects Connect corresponding driving detection comb.

The identical third of setting 3 fixes driving electrodes 8c inside lower driving braced frame 7b and 4 the identical 4th solid Surely detecting electrode 8d, the fixed driving electrodes 8c of 3 thirds and 3 the 4th fixed driving interval detecting electrode 8d rows are driven Column, the fixed driving electrodes 8c of each third are all connected with corresponding driving comb, and each 4th fixed driving detecting electrode 8d connects Connect corresponding driving detection comb.

Driving comb includes fixed anchor point and the comb teeth for being arranged in fixed anchor point both ends, and the comb teeth is along fixed anchor point length Directional spreding；

Driving detection comb includes fixed anchor point and the comb teeth for being arranged in fixed anchor point both ends, and the comb teeth is along fixed anchor point Length direction distribution.

Detect the inside upper three fixed test electrode 9a of setting symmetrical above and below and three lower fixed test electrodes of mass block 5 9b, detects the inside of mass block 5 setting activity comb teeth simultaneously, upper fixed test electrode 9a and lower fixed test electrode 9b respectively with Mass block 5 connect movable comb teeth row at difference detection capacitor.

Comb teeth in the detection capacitor includes fixed anchor point and the comb teeth for being arranged in fixed anchor point both ends, the comb teeth edge The distribution of fixed anchor point length direction.

The double quality blocks tuning-fork type angular rate gyroscope of the utility model, using unilateral electrostatic drive, the work of capacitance detecting Make mode.Apply band direct current on the fixed driving electrodes 8a of each up and down 3 pair first of minor structure 1 and the fixed driving electrodes 8c of third The alternating voltage of biasing generates the electrostatic force of alternation, realizes the unilateral electrostatic drive of gyroscope, electrostatic drive power F_dAre as follows:

In formula, n is the movable comb number of teeth of resonator, and ε is dielectric constant, and h is the thickness of structure, and d is comb teeth spacing, U_dFor The DC offset voltage of driving voltage, U_aFor alternating voltage, ω_dFor the angular frequency of alternating voltage, t is the time.Second fixed drive Moving electrode 8b, the 4th fixed driving electrodes 8d realize the electrostatic drive detection of gyroscope.

180 are differed with the electrostatic drive power acted in another minor structure 1 in the electrostatic drive power of a minor structure 1 Degree.Therefore the entire bascule of two minor structures 1 makees opposite simple harmonic quantity line vibration along drive shaft under the action of electrostatic drive power It is dynamic.When the frequency of driving alternating voltage is consistent with the intrinsic frequency of gyroscope driven-mode, linearly coupled displacement x are as follows:

In formula, F_d0For electrostatic drive power amplitude, k_xFor the elastic stiffness of X-direction, Q_xFor the quality factor of driven-mode.Line Vibration velocity V are as follows:

When gyro has the extraneous input angle speed ω around z-axis_zWhen, according to the right-hand rule, quality is detected by detection axis side To Corioli's acceleration a_cEffect, size are as follows:

In formula,The dextrorotation angle between input angle speed and linearly coupled speed.

If detection quality is m_s, then the Corioli inertial force F in detection quality is acted on_cAre as follows:

The direction of Corioli inertial force is contrary with Corioli's acceleration, therefore, it is used to act on Ge Shi in two minor structures 1 Property power it is contrary, formed moment loading on gyroscope structure so that two minor structures 1 are centered on the geometric center of gyro Make angular oscillation around sensitive axes.In this way, the gap between movable sensitive comb teeth and fixed sensitive comb teeth is made to shake by certain simple harmonic quantity Dynamic rule changes, and capacitive differential signal can get output voltage signal after electronic circuit is handled.Output voltage signal is two The sum of 1 output voltage signal of minor structure, and the size of output voltage signal is proportional to the size of input angle speed.Pass through phase discriminator Compare the phase relation of output voltage signal and pumping signal, then can distinguish the direction of input angle speed.

The utility model is in utility model patent (application number: on the basis of 201610878920.2), by reasonable Stop structure design, limits the displacement in driven-mode direction and sensed-mode direction, prevents mechanical structure from making in excessive impact It is destroyed with lower, and the rigidity outside structural plane is further increased by the Curve guide impeller to mass block connection structure, increased Impact resistance outside structural plane, so that realize gyro all has certain anti high overload ability in three directions.This reality Comb teeth width is increased with the micro-mechanical gyro structure that new patent is proposed, comb teeth length is reduced, increases comb teeth gap And both ends are arranged symmetrically comb teeth equity optimization design, avoid comb teeth fracture and adhesion failure caused by acting on due to high overload. The stop structure for the micro-mechanical gyro structure that the utility model patent is proposed is rationally to utilize the monocrystalline outside gyro mechanical structure Silicon wafer design, economical rationality, and the lithography together with mechanical structure, reduce the micromechanics with anti high overload ability The difficulty of processing of gyro.

Claims (10)

1. a kind of double quality blocks tuning-fork type angular rate gyroscope of anti high overload, including upper layer Vacuum Package cover board, lower layer's silicon lining Bottom and middle layer monocrystalline silicon piece, it is characterised in that: middle layer monocrystalline silicon piece is equipped with gyro mechanical structure and stop structure, the gyro Mechanical structure include mass block bindiny mechanism (2), two minor structures (1), two truss and horizontal straight beam combined mechanism (3), Two U-shaped beam combination beams (4), eight the first U-shaped beams (6) and four straight beams (12), described two minor structures (1) are symmetrically distributed in The two sides of the combined mechanism (3) of mass block bindiny mechanism (2) and two truss and horizontal straight beam, mass block bindiny mechanism (2) and The combined mechanism (3) of two truss and horizontal straight beam is linearly distributed, and mass block bindiny mechanism (2) is located at two truss and water Between the combined mechanism (3) of straight beam, the first U-shaped beam (6) is arranged along the long side of minor structure (1), and is located at the both ends of long side, purlin Frame is connect by the first U-shaped beam (6) with minor structure (1) with the combined mechanism (3) of horizontal straight beam, and U-shaped beam combination beam (4) is along sub- knot The long side of structure (1) is arranged, and is located remotely from the centre of two first U-shaped beams (6) of mass block bindiny mechanism (2) side；Straight beam (12) it is arranged along minor structure (1) width direction, the first U-shaped beam (6) for connecting minor structure (1) two sides；

Micromechanical gyro stop structure includes two detection framework stop structures (13), four outside driving beam stop structures (14), four detection beam stop structures (15) and four mass block bindiny mechanism stop structures (16)；Two detection framework stops Structure (13) is symmetricly set on the outside of two minor structures (1), and is located at the outside central location of minor structure (1), four outsides Driving beam stop structure (14) is arranged on four first U-shaped beams (6) of two side positions, four detection beam stop structures (15) it is symmetrically arranged on the combined mechanism (3) of two truss and horizontal straight beam, and is located at close to mass block bindiny mechanism (2) side, four mass block bindiny mechanism stop structures (16) are arranged in the two of the length direction of mass block bindiny mechanism (2) Side.

2. the double quality blocks tuning-fork type angular rate gyroscope of anti high overload according to claim 1, it is characterised in that: be located at Two first U-shaped beam (6) opening directions of minor structure (1) the same side are opposite.

3. the double quality blocks tuning-fork type angular rate gyroscope of anti high overload according to claim 1, it is characterised in that: described Mass block bindiny mechanism (2) includes horizontal straight beam (201b), 4 straight beams (201a) and 4 the second U-shaped beams (202), horizontal straight beam The both ends of (201b) pass through two the second U-shaped beams (202) being oppositely arranged that are open respectively and connect with minor structure (1), four straight beams The one end of (201a) is connected with the midpoint horizontal straight beam (201b) jointly, with horizontal straight beam (201b) it is at 45 °, 135 °, 225 ° and 315 ° of angle arrangements, the other end of four straight beams (201a) are anchored with upper layer Vacuum Package cover board and lower layer's silicon substrate, and four Mass block bindiny mechanism stop structure (16) is arranged in the two sides of horizontal straight beam (201b) length direction.

4. the double quality blocks tuning-fork type angular rate gyroscope of anti high overload according to claim 3, it is characterised in that: described The open end of two the second U-shaped beams (202) being oppositely arranged that are open is connected.

5. the double quality blocks tuning-fork type angular rate gyroscope of anti high overload according to claim 1, it is characterised in that: described The combined mechanism (3) of truss and horizontal straight beam includes V-type truss (301) and horizontal straight beam (302), the vertex of V-type truss (301) It being connect with horizontal straight beam (302) center, horizontal straight beam (302) and mass block bindiny mechanism (2) are ipsilateral, and the two of V-type truss (301) A free end is connect with the first U-shaped beam (6) closed end side wall, horizontal straight beam (302) both ends with upper layer Vacuum Package cover board and The anchoring of lower layer's silicon substrate.

6. the double quality blocks tuning-fork type angular rate gyroscope of anti high overload according to claim 1, it is characterised in that: described U-shaped beam combination beam (4) includes two U-shaped beams of third (401), and the two U-shaped beam of third (401) open ends are connected, junction outer wall It is anchored with upper layer Vacuum Package cover board and lower layer's silicon substrate.

7. the double quality blocks tuning-fork type angular rate gyroscope of anti high overload according to claim 1, it is characterised in that: described Detection framework stop structure (13) includes the semi-circular structure of multiple equidistant arrangements of fixed anchor point and the circle of fixed anchor point outer one.

8. the double quality blocks tuning-fork type angular rate gyroscope of anti high overload according to claim 1, it is characterised in that: outside Driving beam stop structure (14) includes the stretching structure of the on-mechanical structure silicon wafer position being connected with fixed anchor point and described Stretch out the semi-circular structure of multiple equidistant arrangements of structure outer；

Detection beam stop structure (15) include the on-mechanical structure silicon wafer position being connected with fixed anchor point stretching structure and The semi-circular structure of the multiple equidistant arrangements for stretching out structure outer；

Mass block bindiny mechanism stop structure (16) includes the stretching for the on-mechanical structure silicon wafer position being connected with fixed anchor point The semi-circular structure of structure and the multiple equidistant arrangements for stretching out structure outer.

9. the double quality blocks tuning-fork type angular rate gyroscope of anti high overload according to claim 1, it is characterised in that: sub- knot Structure (1) includes detection mass block (5), upper driving braced frame (7a), lower driving braced frame (7b), fixes driving electrodes, is solid Surely detecting electrode, fixed test electrode, driving comb, driving detection comb and movable comb teeth, the upper driving support frame are driven Frame (7a) is located at the top of detection mass block (5), and lower driving braced frame (7b) is located at the lower section of detection mass block (5), upper drive Center line dynamic braced frame (7a) identical with lower driving braced frame (7b) structure and about detection mass block (5) is symmetrical, inspection Mass metering block (5) is fixedly connected with by the 4th U-shaped beam (10a) and the 5th U-shaped beam (10b) with upper driving braced frame (7a), is detected Mass block (5) is fixedly connected with by the 6th U-shaped beam (10c) and the 7th U-shaped beam (10d) with lower driving braced frame (7b) simultaneously, on It drives and is connected between braced frame (7a) and lower driving braced frame (7b) by attachment beam (11), the attachment beam (11) is located at Detect the outside of mass block (5)；

Driving comb includes fixed anchor point and the comb teeth for being arranged in fixed anchor point both ends, and the comb teeth is along fixed anchor point length direction Distribution；

Driving detection comb includes fixed anchor point and the comb teeth for being arranged in fixed anchor point both ends, and the comb teeth is along fixed anchor point length Directional spreding.

10. the double quality blocks tuning-fork type angular rate gyroscope of anti high overload according to claim 1, it is characterised in that: inspection The inside of mass metering block (5) the upper three fixed test electrodes (9a) of setting symmetrical above and below and three lower fixed test electrodes (9b), Detect the inside of mass block (5) while setting activity comb teeth, upper fixed test electrode (9a) and lower fixed test electrode (9b) point The movable comb teeth row not connect with mass block (5) at difference detection capacitor；

Comb teeth in the detection capacitor includes fixed anchor point and the comb teeth for being arranged in fixed anchor point both ends, and the comb teeth is along fixed The distribution of anchor point length direction.