CN205879872U - Loop forming element nondestructive test frame - Google Patents

Abstract

The utility model provides a loop forming element nondestructive test frame, including the rack, the testing stand, the testing stand includes the base, the roating seat, the U -shaped support frame, detection ring, be provided with a drive roating seat pivoted driving motor on the base, be provided with sliding driving mechanism between roating seat and the support frame, it rotates actuating mechanism to be provided with drive detection ring pivoted on the support frame, detection ring includes big segmental arc and little segmental arc, a tip of little segmental arc rotates with big segmental arc mutually to be connected, the setting is dismantled mutually to another tip and the big segmental arc of little segmental arc, detection ring's inboard is provided with the nondestructive test probe inconsistent with ring rolling spare, the nondestructive test probe is connected with supersonic reflectoscope, detection ring's inboard is provided with the mount pad, the guide way has been seted up on the mount pad, fixedly connected with guide bar on the nondestructive test probe, the cover is equipped with pressure spring on the guide bar.

Description

Annular element Non-Destructive Testing frame

Technical field

This utility model relates to a kind of the cannot-harm-detection device, particularly to a kind of annular element Non-Destructive Testing frame.

Background technology

Due to technology requirement nondestructive inspection 100% assay approval of ring forging, and its diameter super large.It is all manually to take in the past Detecting instrument detection, the Non-Destructive Testing time of a ring forging, there is time rule in factory, and operative employee one day is the most just Can only detect a ring forging, detection efficiency is relatively low, how to improve detection efficiency, and the most reasonably reducing human cost is pendulum The most real problem in face of us！And compared with Germany of developed country, Japan, the automatization level of China is relatively low, far away Lag behind them.As can be seen here, improving automatization level is that company reduces human cost, improves a good way of efficiency of operation Footpath.

Summary of the invention

The purpose of this utility model is to overcome the deficiency of above-mentioned technology, thus provides a kind of annular element Non-Destructive Testing frame, Detection efficiency is high.

This utility model be employed technical scheme comprise that such: annular element Non-Destructive Testing frame, including for supporting ring rolling The rack of part, for described ring forging being carried out the testing stand of Non-Destructive Testing, described testing stand includes base, rotates and be arranged at Rotating seat on described base, the bracing frame that takes the shape of the letter U being slideably positioned on described rotating seat, rotation are arranged on support frame as described above Detection ring, the rotation centerline of described rotating seat along vertical extend, the rotation centerline of described detection ring is along water Square being provided with the first driving motor driving described rotating seat to rotate in extension, described base, described rotating seat is with described It is provided with sliding drive mechanism between bracing frame, support frame as described above is provided with the rotation driving described detection ring to rotate and drives machine Structure；

Described detection ring includes that big segmental arc and little segmental arc, the one end of described little segmental arc and described big segmental arc rotate even Connecing, the other end of described little segmental arc and described big segmental arc dismantle setting mutually, and the inner side of described detection ring is provided with and ring forging Inconsistent non-destructive control probe, described non-destructive control probe is connected with supersonic reflectoscope;

The inner side of described detection ring is fixedly installed in mounting seat, described mounting seat and offers the footpath along described detection ring To extend gathering sill, described non-destructive control probe is fixedly connected with the guide post matched with described gathering sill, described in lead It is arranged with on bar so that the holddown spring on described non-destructive control probe hold-down ring forging surface, described guide post and described installation The position-limit mechanism preventing described guide post from departing from described mounting seat it is provided with between Zuo.

Improve further: the 3rd driving motor that described rotating drive mechanism includes being arranged on support frame as described above, By the described 3rd internal friction wheel driving motor-driven rotation and external friction wheel, described internal friction wheel and the one of described detection ring End face is inconsistent, and described external friction wheel is inconsistent with the other end of described detection ring.

Improve further: described sliding drive mechanism includes being arranged at and driven motor to drive by second on described rotating seat The dynamic gear rotated, is provided with the tooth bar being meshed with described gear bottom support frame as described above.

Improve further: described position-limit mechanism includes being opened in described mounting seat and is connected with described gathering sill Stopper slot, the end of described guide post is provided with the limiting section matched with described stopper slot, and described limiting section size is more than institute State gathering sill size.

By using preceding solution, the beneficial effects of the utility model are: this cannot-harm-detection device can be the most right Ring forging carries out Non-Destructive Testing, and not only efficiency is high but also accuracy of detection is high, and can adjust by arranging sliding drive mechanism Relative position between rotating seat with bracing frame, it is possible to the ring forging of detection different-diameter, in addition by by non-destructive control probe With detection ring on mounting seat slide arrange and be provided with holddown spring so that detection ring rotate time non-destructive control probe all the time It is close to the outer surface of ring forging, improves accuracy of detection.

Accompanying drawing explanation

Fig. 1 is this utility model schematic diagram；

Fig. 2 is enlarged drawing at the A of Fig. 1.

Wherein: 1, rack；2, base；3, rotating seat；4, bracing frame；5, detection ring；6, non-destructive control probe；7, ultrasonic Ripple detector；8, mounting seat；9, guide post；10, holddown spring.

Detailed description of the invention

This utility model is further illustrated below in conjunction with the drawings and specific embodiments.

As shown in Figure 1 and Figure 2, the open a kind of annular element Non-Destructive Testing frame of this utility model, including for support ring forging Rack 1, for described ring forging being carried out the testing stand of Non-Destructive Testing, described testing stand includes base 2, rotates and be arranged at institute State the rotating seat 3 on base 2, the bracing frame 4 that takes the shape of the letter U being slideably positioned on described rotating seat 3, rotate be arranged at support frame as described above Detection ring 5 on 4, the rotation centerline of described rotating seat 3 extends along vertical, the rotation centerline of described detection ring 5 Extend along horizontal direction, described base 2 is provided with the first driving motor driving described rotating seat 3 to rotate, described rotation It is provided with sliding drive mechanism between seat 3 and support frame as described above 4, support frame as described above 4 is provided with the described detection ring 5 of driving and rotates Rotating drive mechanism；

Described detection ring 5 includes that big segmental arc and little segmental arc, the one end of described little segmental arc rotate with described big segmental arc Connecting, the other end of described little segmental arc and described big segmental arc dismantle setting mutually, and the inner side of described detection ring 5 is provided with and ring rolling The non-destructive control probe 6 that part is inconsistent, described non-destructive control probe 6 is connected with supersonic reflectoscope 7.

The inner side of described detection ring 5 is fixedly installed in mounting seat 8, described mounting seat 8 and offers along described detection ring 5 The gathering sill radially extended, described non-destructive control probe 6 is fixedly connected with the guide post 9 matched with described gathering sill, It is arranged with on described guide post 9 so that the holddown spring 20 on described non-destructive control probe 6 hold-down ring forging surface, described guide post The position-limit mechanism preventing described guide post from departing from described mounting seat it is provided with between 9 and described mounting seat 8.

Described position-limit mechanism includes being opened in described mounting seat 8 stopper slot being connected with described gathering sill, described in lead Be provided with the limiting section matched with described stopper slot to the end of bar 9, described limiting section size is more than described gathering sill size.

Work process: be first fixed on rack 1 by ring forging to be detected, by regulation sliding drive mechanism, adjusts Position between whole rotating seat 3 and bracing frame 4 so that the center of detection ring 5 aligns, now with the center of ring forging cross section Non-destructive control probe 6 is inconsistent with the outer surface of ring forging, then first drives motor and drives rotating seat 3 to rotate, and rotation is driven Motivation structure drives detection ring 5 to rotate so that the outer surface of ring forging is scanned detection, Non-Destructive Testing by non-destructive control probe 6 Scanning information is transferred to supersonic reflectoscope 7 by probe 6, thus carries out fully-automated synthesis, and detection efficiency is high.

In addition arrange by non-destructive control probe 6 is slided with the mounting seat 7 on detection ring and be provided with holddown spring 10, Make to detect ring 5 non-destructive control probe when rotating and be close to the outer surface of ring forging all the time, improve accuracy of detection.

The embodiment optimized further in the present embodiment is that described rotating drive mechanism includes being arranged at described support On frame 4 the 3rd driving motor, by described 3rd drive motor-driven rotation internal friction wheel and external friction wheel, described in rub Wiping wheel inconsistent with the end face of described detection ring 5, described external friction wheel is inconsistent with the other end of described detection ring 5.

The embodiment optimized further in the present embodiment is that described sliding drive mechanism includes being arranged at described rotating seat By the second gear driving motor-driven rotation on 3, bottom support frame as described above 4, it is provided with the tooth bar being meshed with described gear.

Of the present utility model ultimate principle and principal character and advantage thereof are more than shown and described, the technology people of the industry Member, it should be appreciated that this utility model is not restricted to the described embodiments, simply illustrating this described in above-described embodiment and explanation The principle of utility model, on the premise of without departing from this utility model spirit and scope, this utility model also has various change And improvement, in the range of these changes and improvements both fall within claimed this utility model, this utility model claims scope Defined by appending claims and equivalent thereof.

Claims (4)

1. annular element Non-Destructive Testing frame, it is characterised in that: include the rack for support ring forging, for described ring forging Carrying out the testing stand of Non-Destructive Testing, described testing stand includes base, rotates the rotating seat being arranged on described base, setting of sliding The detection ring that the bracing frame that takes the shape of the letter U on described rotating seat, rotation are arranged on support frame as described above, in the rotation of described rotating seat Heart line extends along vertical, and the rotation centerline of described detection ring extends along horizontal direction, and described base is provided with Drive the first driving motor that described rotating seat rotates, between described rotating seat and support frame as described above, be provided with slip driving machine Structure, support frame as described above is provided with the rotating drive mechanism driving described detection ring to rotate；

Described detection ring includes big segmental arc and little segmental arc, and the one end of described little segmental arc rotates with described big segmental arc and is connected, The other end of described little segmental arc and described big segmental arc dismantle setting mutually, and the inner side of described detection ring is provided with and offsets with ring forging The non-destructive control probe touched, described non-destructive control probe is connected with supersonic reflectoscope;

The inner side of described detection ring is fixedly installed in mounting seat, described mounting seat and offers the radial direction along described detection ring and prolong The gathering sill stretched, described non-destructive control probe is fixedly connected with the guide post matched with described gathering sill, described guide post On be arranged with so that the holddown spring on described non-destructive control probe hold-down ring forging surface, described guide post and described mounting seat it Between be provided with prevent described guide post depart from described mounting seat position-limit mechanism.

Annular element Non-Destructive Testing frame the most according to claim 1, it is characterised in that: described rotating drive mechanism includes arranging The 3rd driving motor on support frame as described above, the internal friction wheel being driven motor-driven rotation by the described 3rd and external friction Wheel, described internal friction wheel is inconsistent with the end face of described detection ring, described external friction wheel and the other end of described detection ring Inconsistent.

Annular element Non-Destructive Testing frame the most according to claim 1, it is characterised in that: described sliding drive mechanism includes arranging By the second gear driving motor-driven rotation on described rotating seat, it is provided with bottom support frame as described above and nibbles mutually with described gear The tooth bar closed.

Annular element Non-Destructive Testing frame the most according to claim 1, it is characterised in that: described position-limit mechanism includes being opened in institute Stating the stopper slot being connected in mounting seat with described gathering sill, the end of described guide post is provided with matches with described stopper slot Limiting section, described limiting section size be more than described gathering sill size.