CN205879866U - Novel nondestructive test device - Google Patents

Abstract

The utility model provides a novel nondestructive test device, including the chassis, the fixed setting in the collateral branch frame of chassis both sides, the upper end of collateral branch frame is rotated and is provided with the rotating chuck who is used for the fix circular shaft work piece, one of them rotating chuck is rotated by the driving motor drive, it is provided with the movement detection frame to slide along the horizontal direction on the chassis, be provided with moving mechanism between chassis and the movement detection frame, the top of movement detection frame is provided with the nondestructive test probe, the nondestructive test probe is connected with supersonic reflectoscope, spacing guide bar is inserted and is located in the guide way, nondestructive test pops one's head in and is provided with the pressure spring who makes the nondestructive test probe compress tightly circle axle workpiece surface between spacing, the tip of spacing guide bar is provided with and prevents that spacing guide bar breaks away from the spacing portion of guide way, high detection efficiency, and the production cost is greatly decreased.

Description

Novel lossless detection device

Technical field

This utility model relates to a kind of Novel lossless detection device.

Background technology

In prior art, the surface nondestructive for circular shaft workpiece detects, and mostly just can only pass through manually to detect, by In manual detection not only inefficiency, and along with the increase of cost of labor, add the production cost of enterprise undoubtedly.

Summary of the invention

The purpose of this utility model is to overcome the deficiency of above-mentioned technology, thus provides a kind of Novel lossless detection device, Detection efficiency is high, greatly reduces production cost.

This utility model be employed technical scheme comprise that such: Novel lossless detection device, including underframe, is fixedly installed In the side stand of described underframe both sides, the upper end of described side stand rotates and is provided with the revotating card for fixing circular shaft workpiece Dish, one of them described rotary chuck, by driving motor-driven rotation, described underframe slides along horizontal direction and is provided with shifting Dynamic testing stand, is provided with the travel mechanism driving described mobile testing stand to move between described underframe and described mobile testing stand, The top of described mobile testing stand is provided with non-destructive control probe, and described non-destructive control probe is connected with supersonic reflectoscope, The top of described mobile testing stand is fixedly installed position-limited rack, and described position-limited rack offers gathering sill, and described Non-Destructive Testing is visited Being fixedly connected with spacing guide post on Tou, described spacing guide post is inserted in described gathering sill, described non-destructive control probe with It is provided with so that described non-destructive control probe compresses the holddown spring of circular shaft surface of the work between described position-limited rack, described spacing leads The limiting section preventing described spacing guide post from departing from described gathering sill it is provided with to the end of bar.

Improve further: described travel mechanism includes that the first belt bearing, the second belt bearing, level connection joint are in institute State the belt conveyor between the first belt bearing and described second belt bearing, rotation is arranged on described mobile testing stand First winding roller, second winding roller, the 3rd take-up roll and Volume Four are around roller, and described first winding roller is formed with second winding roller First conveying roller group, described 3rd take-up roll and Volume Four form the second conveying roller group, described first conveying roller group and institute around roller State the second symmetrical setting of conveying roller group, described belt conveyor walk around successively described first winding roller, second winding roller, volume three Around roller and Volume Four around roller, described first winding roller and described Volume Four are driven by mobile motor around roller and rotate.

Improve further: on described underframe, be provided with two guide rails extended along horizontal direction, described mobile inspection The bottom of test aircraft is provided with the guide part matched with described guide rail.

By using preceding solution, the beneficial effects of the utility model are: drive mobile detection by travel mechanism Frame moves horizontally, and then makes non-destructive control probe detect along the length direction of workpiece, when a stroke detection is complete After, driving circular shaft workpiece to rotate by rotary chuck, thus complete the whole detection to outer surface of workpiece, detection efficiency is high, and And make non-destructive control probe can be close to surface of the work all the time by arranging holddown spring, thus improve accuracy of detection.

Accompanying drawing explanation

Fig. 1 is this utility model schematic diagram.

Wherein: 1, underframe；2, side stand；3, rotary chuck；4, motor is driven；5, the first belt bearing；6, the second belt Bearing；7, belt conveyor；8, first winding roller；9, second winding roller；10, the 3rd take-up roll；11, Volume Four is around roller；12, mobile Testing stand；13, non-destructive control probe；14, supersonic reflectoscope；15, position-limited rack；16, spacing guide post；17, holddown spring； 18, limiting section.

Detailed description of the invention

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

As it is shown in figure 1, this utility model open a kind of Novel lossless detection device, including underframe 1, be fixedly installed on described The side stand 2 of underframe 1 both sides, the upper end of described side stand 2 rotates and is provided with the rotary chuck 3 for fixing circular shaft workpiece, One of them described rotary chuck 3, by driving motor 4 to drive rotation, described underframe 1 slides along horizontal direction and is provided with shifting Dynamic testing stand 12, is provided with the shifting driving described mobile testing stand 12 to move between described underframe 1 and described mobile testing stand 12 Motivation structure, the top of described mobile testing stand 12 is provided with non-destructive control probe 13, described non-destructive control probe 13 and ultrasound wave Detector 14 is connected, and described travel mechanism includes that first belt bearing the 5, second belt bearing 6, level connection joint are in described first Belt conveyor 7, rotation between belt bearing 5 and described second belt bearing 6 are arranged on described mobile testing stand 12 First winding roller 8, second winding roller the 9, the 3rd take-up roll 10 and Volume Four around roller 11, described first winding roller 8 and volume Two Forming the first conveying roller group around roller 9, described 3rd take-up roll 10 and Volume Four form the second conveying roller group around roller 11, and described first Conveying roller group and the described second symmetrical setting of conveying roller group, described belt conveyor 7 walk around successively described first winding roller 8, the Two take-up roll the 9, the 3rd take-up rolls 10 and Volume Four are around roller 11, and described first winding roller 8 and described Volume Four are equal around roller 11 Driven by mobile motor and rotate.

The top of described mobile testing stand 12 is fixedly installed position-limited rack 15, and described position-limited rack 15 offers gathering sill, Being fixedly connected with spacing guide post 16 on described non-destructive control probe 13, described spacing guide post 16 is inserted in described gathering sill In, it is provided with between described non-destructive control probe 13 and described position-limited rack 15 so that described non-destructive control probe 13 compresses circular shaft work The holddown spring 17 on part surface, the end of described spacing guide post 16 be provided with prevent described spacing guide post 16 depart from described in lead To the limiting section 18 of groove.

Drive mobile testing stand 12 to move horizontally by travel mechanism, then make non-destructive control probe 13 along workpiece Length direction detects, and after a stroke detection, drives circular shaft workpiece to rotate by rotary chuck 3, thus completes Whole detection to outer surface of workpiece, detection efficiency is high, and makes non-destructive control probe 13 energy by arranging holddown spring 17 Enough it is close to surface of the work all the time, thus improves accuracy of detection.

So that mobile testing stand 12 steadily moves, improve accuracy of detection, described underframe 1 is provided with two along water Square to extend guide rail, the bottom of described mobile testing stand 12 is provided with the guide part matched with described guide rail.

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 (3)

1. Novel lossless detection device, it is characterised in that: include underframe, be fixedly installed on the side stand of described underframe both sides, institute The upper end rotation stating side stand is provided with the rotary chuck for fixing circular shaft workpiece, and one of them described rotary chuck is by driving Dynamic motor-driven rotation, described underframe slides along horizontal direction and is provided with mobile testing stand, described underframe and described movement Being provided with the travel mechanism driving described mobile testing stand to move between testing stand, the top of described mobile testing stand is provided with nothing Damaging detection probe, described non-destructive control probe is connected with supersonic reflectoscope, and the top of described mobile testing stand is fixedly installed Limited location frame, described position-limited rack offers gathering sill, and described non-destructive control probe is fixedly connected with spacing guide post, described Spacing guide post is inserted in described gathering sill, is provided with so that described nothing between described non-destructive control probe and described position-limited rack Damaging detection probe and compress the holddown spring of circular shaft surface of the work, the end of described spacing guide post is provided with and prevents described spacing lead The limiting section of described gathering sill is departed to bar.

Novel lossless the most according to claim 1 detection device, it is characterised in that: described travel mechanism includes the first belt Bearing, the second belt bearing, the level connection joint conveying skin between described first belt bearing and described second belt bearing Band, rotate the first winding roller, second winding roller, the 3rd take-up roll and the Volume Four that are arranged on described mobile testing stand around Roller, described first winding roller and second winding roller form the first conveying roller group, described 3rd take-up roll and Volume Four and are formed around roller Second conveying roller group, described first conveying roller group and the described second symmetrical setting of conveying roller group, described belt conveyor successively around Cross described first winding roller, second winding roller, the 3rd take-up roll and Volume Four around roller, described first winding roller and described Four take-up rolls are driven by mobile motor and rotate.

Novel lossless the most according to claim 1 detection device, it is characterised in that: be provided with on described underframe two along The guide rail that horizontal direction extends, the bottom of described mobile testing stand is provided with the guide part matched with described guide rail.