CN206787482U - A kind of auxiliary monitor station suitable for magnetostrictive displacement sensor - Google Patents

Abstract

A kind of auxiliary monitor station suitable for magnetostrictive displacement sensor disclosed in the utility model, including support, the support is provided with the drive mechanism that guide rail, the mobile station slided along guide rail and driving mobile station move, the drive mechanism includes motor and screw rod, the motor passes through screw rod linkage mobile station, the mobile station is provided with boss, and the detent mechanism corresponding with boss for fixing magnetostrictive displacement sensor is additionally provided with the support.The auxiliary monitor station is moved by motor driving mobile station along guide rail, mobile station passes through boss drive activity magnet ring displacement, translational speed is adjustable, and moving direction is stable, and manual operation is substituted with this, realize the automatic test of magnetostrictive displacement sensor, evenly, displacement is more accurate for the translational speed of movable magnet ring, reduces test error, testing efficiency is effectively improved, structure is practical reliable.

Description

A kind of auxiliary monitor station suitable for magnetostrictive displacement sensor

Technical field

It the utility model is related to sensor test field of tool, it is especially a kind of suitable for magnetostrictive displacement sensor Aid in monitor station.

Background technology

Magnetostrictive displacement sensor is to produce a strain using magnetostriction principle, by the way that two different magnetic fields are intersecting Pulse signal accurately measures position.Measuring cell is a waveguide filament, and waveguide filament is by special magnetostriction materials system Into.Measurement process is to produce current impulse in the electronic room by sensor, and the current impulse is transmitted in waveguide filament, so that A circumferential magnetic field is produced outside waveguide filament, when the magnetic field and is enclosed on waveguide filament as magnetic caused by the movable magnet ring of change in location When field is intersecting, due to magnetostrictive effect, waveguide filament can produce a mechanical wave impulse of strain, and this strains mechanical wave impulse Transmitted with fixed speed, and quickly detected by electronic room.So, accurately detected by contactless observation and control technology The actual displacement value of movable magnet ring.

It is existing to ensure its accuracy of measurement because magnetostrictive displacement sensor needs to test it before dispatching from the factory Some means of testing are that manual pulling activity magnet ring moves along waveguide, by pulling the segment distance that moves ahead, then according to sensing Whether device measurement displacement data matches with movable magnet ring displacement, and manually operated testing efficiency is low, and for wide range Magnetostrictive displacement sensor, measuring distance is longer, and manual operation is very not convenient, and test easily error occurs, influences product The quality test degree of accuracy.

Utility model content

In order to solve the above-mentioned technical problem, it is provided by the utility model a kind of suitable for the auxiliary of magnetostrictive displacement sensor Help monitor station, structure is more practical reliable.

To achieve these goals, technical scheme is used by the utility model：

A kind of auxiliary monitor station suitable for magnetostrictive displacement sensor, including support, the support be provided with guide rail, The drive mechanism that the mobile station and driving mobile station slided along guide rail moves, the drive mechanism includes motor and screw rod, described For motor by screw rod linkage mobile station, the mobile station is provided with boss, is additionally provided with the support for fixing magnetostriction The detent mechanism corresponding with boss of displacement transducer, the mobile station drive the work of magnetostrictive displacement sensor by boss Dynamic magnet ring movement.

Preferably, the detent mechanism includes the connecting seat being movably connected on support, and the connecting seat, which is provided with, to be used for The U-type groove of the fixed magnetostrictive displacement sensor of installation, the U-type groove are corresponding with boss.

Preferably, chute being provided with close to guide rail side on the support, the chute is provided with the sliding block moved along chute, The sliding block is connected by fastening bolt with chute, and the connecting seat is fixedly connected on sliding block.

Preferably, the connecting seat and sliding block are formed in one structure.

Further, the boss is provided with the mounting groove for installation activity magnet ring.

Further, the guide rail is double-rail configuration, and the mobile station is slidably connected on two tracks, and the screw rod is set Between two tracks, the bottom of the mobile station is provided with the thread bush matched with screw rod.

The beneficial effects of the utility model：Auxiliary monitor station of the present utility model is moved by motor driving mobile station along guide rail Dynamic, mobile station is by boss drive activity magnet ring displacement, and translational speed is adjustable, and moving direction is stable, is substituted manually with this Operation, realizes the automatic test of magnetostrictive displacement sensor, evenly, displacement is more accurate for the translational speed of movable magnet ring Really, test error is reduced, effectively improves testing efficiency, structure is practical reliable, suitable for drive activity magnet ring or the magnetic of rod-pulling type Cause telescopic displacement sensor.

Brief description of the drawings

Specific embodiment of the present utility model is described further below in conjunction with the accompanying drawings.

Fig. 1 is overall structure diagram of the present utility model.

Embodiment

To describe technology contents of the present utility model, construction feature, the objects and the effects in detail, below in conjunction with implementation Mode simultaneously coordinates accompanying drawing to be explained in detail.

Referring to Fig. 1, the utility model provides a kind of auxiliary monitor station suitable for magnetostrictive displacement sensor, including machine Seat 1, the support 1 is provided with the drive mechanism that guide rail 3, the mobile station 2 slided along guide rail 3 and driving mobile station 2 move, described Drive mechanism includes motor 4 and screw rod 5, and the motor 4 is provided with boss by the linkage mobile station 2 of screw rod 5, the mobile station 2 21, it is additionally provided with the support 1 for fixing magnetostrictive displacement sensor 8 and 21 corresponding detent mechanism of boss, it is described Mobile station 2 drives the movable magnet ring 9 of magnetostrictive displacement sensor 8 to move by boss 21.

During test, magnetostrictive displacement sensor 8 is fixed on base by detent mechanism, wherein magnetostrictive displacement Parallel to the moving direction of mobile station 2, movable magnet ring 9 is fixed on boss 21 measuring staff 81 of sensor, and movement is driven by motor 4 Platform 2 is moved along guide rail 3, and mobile station 2 is moved by the drive activity magnet ring 9 of boss 21 along measuring staff 81, movable magnet ring 9 in moving process It is to be enclosed on measuring staff 81, the translational speed of movable magnet ring 9 can be realized adjustable by the driving output of motor 4, coordinate leading for guide rail 3 To effect, moving direction is stable, substitutes manual operation with this, realizes the automatic test of magnetostrictive displacement sensor 8, activity The displacement of magnet ring 9 is more accurate, reduces test error, effectively improves testing efficiency, and structure is practical reliable.

Rod-pulling type magnetostrictive displacement sensor is could be applicable to, wherein, built in rod-pulling type magnetostrictive displacement sensor There is magnet ring, drive magnet ring to move along its axis by pull bar, specifically, pull bar is connected on boss 21, drawing is driven by boss 21 Bar moves, you can realizes the automatic test of rod-pulling type magnetostrictive displacement sensor.

In said structure, the detent mechanism includes the connecting seat 6 being movably connected on support 1, is set on the connecting seat 6 There is the U-type groove 61 for installing fixed magnetostrictive displacement sensor 8, the U-type groove 61 is corresponding with boss 21, wherein, magnetic Telescopic displacement sensor 8 is caused to be clamped in U-type groove 61.Specifically, it is provided with chute 7, institute close to the side of guide rail 3 on the support 1 State chute 7 and be provided with the sliding block 62 moved along chute 7, the sliding block 62 is connected by fastening bolt with chute 7, the connecting seat 6 are fixedly connected on sliding block 62, and the connecting seat 6 and sliding block 62 are formed in one structure.So, connecting seat 6 can pass through the water of chute 7 Flat adjusting position, fastening bolt is unclamped during operation, then mobile link seat 6 is again tightened fastening bolt to corresponding position With locking sliding block 62, structure is practical reliable.

For the ease of movable magnet ring 9 is arranged on boss 21, the peace for installation activity magnet ring 9 is provided with boss 21 Tankage, through hole is provided with mounting groove correspondence position on boss 21, for movable magnet ring 9 when being slided along measuring staff 81, measuring staff 81 is from through hole Pass through, mounting groove is advantageous to stablize the structure of movable magnet ring 9, avoids movable magnet ring 9 from shifting.

Above-mentioned guide rail 3 is double-rail configuration, and the mobile station 2 is slidably connected on two tracks, and the screw rod 5 is located at two Between track, the bottom of the mobile station 2 is provided with the thread bush matched with screw rod 5, and double-rail configuration is more beneficial for stablizing movement Platform 2, structure is more firm.In addition, in order to further improve the testing efficiency of magnetostrictive displacement sensor 8, in mobile station 2 Both sides are equipped with boss 21, and are respectively equipped with connecting seat 6 corresponding with boss 21, can so test two magnetostriction simultaneously Displacement transducer 8.

It is described above, simply preferred embodiment of the present utility model and oneself, the utility model is not limited to above-mentioned implementation Mode, as long as it reaches technique effect of the present utility model with identical means, it should all belong to the scope of protection of the utility model.

Claims (6)

1. A kind of 1. auxiliary monitor station suitable for magnetostrictive displacement sensor, it is characterised in that：Including support, on the support The drive mechanism that the mobile station that is slided provided with guide rail, along guide rail and driving mobile station move, the drive mechanism include motor and Screw rod, for the motor by screw rod linkage mobile station, the mobile station is provided with boss, is additionally provided with the support for fixing The detent mechanism corresponding with boss of magnetostrictive displacement sensor, the mobile station drive magnetostrictive displacement to pass by boss The movable magnet ring movement of sensor.
2. 2. the auxiliary monitor station according to claim 1 suitable for magnetostrictive displacement sensor, it is characterised in that：It is described Detent mechanism includes the connecting seat being movably connected on support, and the connecting seat, which is provided with, to be used to install fixed magnetostrictive displacement The U-type groove of sensor, the U-type groove are corresponding with boss.
3. 3. the auxiliary monitor station according to claim 2 suitable for magnetostrictive displacement sensor, it is characterised in that：It is described Chute is provided with close to guide rail side on support, the chute is provided with the sliding block moved along chute, and the sliding block is by fastening spiral shell Bolt is connected with chute, and the connecting seat is fixedly connected on sliding block.
4. 4. the auxiliary monitor station according to claim 3 suitable for magnetostrictive displacement sensor, it is characterised in that：It is described Connecting seat and sliding block are formed in one structure.
5. 5. according to any described auxiliary monitor stations suitable for magnetostrictive displacement sensor of claim 1-4, its feature exists In：The boss is provided with the mounting groove for installation activity magnet ring.
6. 6. according to any described auxiliary monitor stations suitable for magnetostrictive displacement sensor of claim 1-4, its feature exists In：The guide rail is double-rail configuration, and the mobile station is slidably connected on two tracks, and the screw rod is located between two tracks, The bottom of the mobile station is provided with the thread bush matched with screw rod.