CN207570428U - Suitable for the end face run-out cubing of axial workpiece - Google Patents

Abstract

The utility model discloses a kind of end face run-out cubing suitable for axial workpiece, including：Part support column, cylinder, pull rod, measures pedestal, the first mechanical amesdial, the second mechanical amesdial, the first table supporting rack and the second table supporting rack at expansion set；Part support column supports axial workpiece；Expansion set is socketed on part support column；Expansion set passes through axial workpiece；Cylinder driving pull rod movement；Pull rod passes through part support column driving expansion set to be moved relative to part support column；Pedestal is measured to rotate relative to part support column；The gauge head of first mechanical amesdial is contacted with the upper surface of axial workpiece；The gauge head of second mechanical amesdial is contacted with the lower surface of axial workpiece；First mechanical amesdial is fixed to the first table supporting rack；Second mechanical amesdial is fixed to the second table supporting rack；First table supporting rack and the second table supporting rack are installed to measurement pedestal.The high certainty of measurement of the disclosed end face run-out cubing suitable for axial workpiece of the utility model, simple operation.

Description

Suitable for the end face run-out cubing of axial workpiece

Technical field

The utility model is related to a kind of end face run-out cubings suitable for axial workpiece.

Background technology

Being commonly used in the mode of detection end face run-out has three-coordinates measuring machine detection and the detection of plug positioning height ruler.

Three-coordinates measuring machine detection only applicable single-piece or small lot detection, because of it, time-consuming and of high cost, can not be applicable in production Line high-volume workpiece on-line checking.And plug positioning height ruler detects, although adapting to the environment of on-line checking, it detects essence Degree is too low, and artificial placement error is also big, can not meet the GR＆R of cubing（Repeatability and reproducibility）Acceptance criteria.It is needed during use It is artificial to compress in place, it is troublesome in poeration.So it is badly in need of a new detection device, to meet its high-precision, high efficiency and use letter Just requirement.

Utility model content

To solve the deficiencies in the prior art, the purpose of this utility model is to provide a kind of precision height, efficiency easy to operate The high end face run-out cubing suitable for axial workpiece.

In order to realize above-mentioned target, the utility model adopts the following technical scheme：

A kind of end face run-out cubing suitable for axial workpiece, including：Part support column, expansion set, cylinder, pull rod, measurement Pedestal, the first mechanical amesdial, the second mechanical amesdial, the first table supporting rack and the second table supporting rack；

Part support column supports axial workpiece；Expansion set is socketed on part support column；Expansion set passes through axial workpiece；Cylinder drives Dynamic pull rod movement；Pull rod passes through part support column driving expansion set to be moved relative to part support column；Pedestal is measured relative to part Support column rotates；The gauge head of first mechanical amesdial is contacted with the upper surface of axial workpiece；The gauge head of second mechanical amesdial with The lower surface contact of axial workpiece；First mechanical amesdial is fixed to the first table supporting rack；Second mechanical amesdial is fixed to the Two table supporting racks；First table supporting rack and the second table supporting rack are installed to measurement pedestal.

Further, the first table supporting rack includes：First dial framework and first support；First support is fixed to measurement pedestal； First mechanical amesdial is fixed to the first dial framework；First dial framework and first support form rotation connection.

Further, the first table supporting rack further includes：Rollover stand, spring and steel ball；First dial framework is fixed to rollover stand；It turns over Pivoted frame is formed with first support and is rotatablely connected；Rollover stand is formed with locating notch；First support is formed with spring mounting groove；Spring It is located in spring mounting groove with steel ball；The end thereof contacts of steel ball and spring；There are one measure position and one zero for first dial framework tool Part removal position；First dial framework rotates between measurement position and part removal position；First mechanical amesdial, which is located at, measures position When putting, steel ball is at least partially disposed in locating notch.

Further, the first table supporting rack further includes：Adjust the first dial framework and the screw of rollover stand relative position；Screw is consolidated Fixed first dial framework and rollover stand.

Further, the first dial framework relative to the pivot center that first support rotates perpendicular to measure pedestal relative to part The pivot center of support column rotation.

Further, the second table supporting rack includes：Second dial framework and second support；Second support is fixed to measurement pedestal； Second mechanical amesdial is fixed to the second dial framework；Second dial framework is fixed to second support.

Further, the support bottom for being used to support and measuring pedestal is further included suitable for the end face run-out cubing of axial workpiece Seat；Support base is located at the lower section for measuring pedestal；First mechanical amesdial and the second mechanical amesdial, which are located at, measures the upper of pedestal Side.

Further, it is further included suitable for the end face run-out cubing of axial workpiece：Mounting sheet；Cylinder and part support column are consolidated Determine to the both sides of mounting sheet.

Further, pedestal is measured to circularize.Further, base ring is measured around mounting sheet.

The utility model is beneficial in that：High certainty of measurement, simple operation, convenient for mounting and clamping, measurement efficiency is high.Ensure The repeatability and reproducibility of testing result.It can realize Automatic-clamping and the fixation of part.

Description of the drawings

Fig. 1 is a kind of schematic diagram of the end face run-out cubing suitable for axial workpiece；

Fig. 2 is suitable for the plan view of the end face run-out cubing of axial workpiece in Fig. 1；

Fig. 3 is suitable for the sectional view of the end face run-out cubing of axial workpiece in Fig. 2；

Fig. 4 is suitable for the partial enlarged view of the end face run-out cubing of axial workpiece in Fig. 2.

Specific embodiment

Make specific introduce to the utility model below in conjunction with the drawings and specific embodiments.

As shown in Figures 1 to 4, a kind of end face run-out cubing 1 suitable for axial workpiece 1a, including：Part support column 2, Expansion set 3, pull rod 5, measures the mechanical amesdial 8 of the mechanical amesdial 7, second of pedestal 6, first, the first table supporting rack 9 and the at cylinder 4 Two table supporting racks 10.

Part support column 2 is used to support axial workpiece 1a；Expansion set 3 is socketed on part support column 2；Expansion set 3 passes through axis class Part 1a；Cylinder 4 drives pull rod 5 to move；Pull rod 5 passes through part support column 2 that expansion set 3 is driven to be moved relative to part support column 2； Pedestal 6 is measured to rotate relative to part support column 2；The gauge head of first mechanical amesdial 7 is contacted with the upper surface of axial workpiece 1a； The gauge head of second mechanical amesdial 8 is contacted with the lower surface of axial workpiece 1a；First mechanical amesdial 7 is fixed to the support of the first table Frame 9；Second mechanical amesdial 8 is fixed to the second table supporting rack 10；First table supporting rack 9 and the installation of the second table supporting rack 10 are extremely surveyed Measure pedestal 6.

Further, the first table supporting rack 9 includes：First dial framework 11 and first support 12；First support 12 is fixed to survey Measure pedestal 6；First mechanical amesdial 7 is fixed to the first dial framework 11；First dial framework 11 and first support 12 form rotation connection.

Further, the first table supporting rack 9 further includes：Rollover stand 13, spring 14 and steel ball 15；First dial framework 11 is fixed to Rollover stand 13；Rollover stand 13 is formed with first support 12 and is rotatablely connected；Rollover stand 13 is formed with locating notch 17；First support 12 It is formed with spring mounting groove 16；Spring 14 and steel ball 15 are located in spring mounting groove 16；The end thereof contacts of steel ball 15 and spring 14； There are one measure position and a part removal position for first dial framework 11 tool；First dial framework 11 is measuring position and part dismounting position It is rotated between putting；When first mechanical amesdial 7 is located at measurement position, steel ball 15 is at least partially disposed in locating notch 17.

Further, the first table supporting rack 9 further includes：Adjust the screw of 13 relative position of the first dial framework 11 and rollover stand 18；Screw 18 fixes the first dial framework 11 and rollover stand 13.

Further, the first dial framework 11 is opposite perpendicular to pedestal 6 is measured relative to the pivot center that first support 12 rotates In the pivot center that part support column 2 rotates.

Further, the second table supporting rack 10 includes：Second dial framework 19 and second support 20；Second support 20 is fixed to survey Measure pedestal 6；Second mechanical amesdial 8 is fixed to the second dial framework 19；Second dial framework 19 is fixed to second support 20.

Further, the support for being used to support and measuring pedestal 6 is further included suitable for the end face run-out cubing 1 of axial workpiece 1a Pedestal 21；Support base 21 is located at the lower section for measuring pedestal 6；The first mechanical mechanical amesdial 8 of amesdial 7 and second, which is located at, to be measured The top of pedestal 6.

Further, it is further included suitable for the end face run-out cubing 1 of axial workpiece 1a：Mounting sheet 22；Cylinder 4 and part branch Dagger 2 is fixed to the both sides of mounting sheet 22.

Further, pedestal 6 is measured to circularize.Further, pedestal 6 is measured around mounting sheet 22.

Operation principle：Rotating the first dial framework 11 makes the first dial framework 11 move to part removal position, and axial workpiece 1a is put It puts on part support column 2.Cylinder 4 drives pull rod 5 to move, and pull rod 5 drives expansion set 3 to move downward.Expansion set 3 and axial workpiece 1a Endoporus fitting, and lower surface is bonded with part support column 2, the clamping and positioning of completion axial workpiece 1a.By 11 turns of the first dial framework It moves to measurement position.The gauge head of first mechanical amesdial 7 is contacted with the upper surface of axial workpiece 1a；Second mechanical amesdial 8 Gauge head is contacted with the lower surface of axial workpiece 1a.Rotation measuring pedestal 6 one encloses.The first mechanical amesdial 7 and second is read respectively The maximum value and minimum value of mechanical amesdial 8.Their difference is the numerical value of end face run-out.It completes after measuring, cylinder 4 drives Pull rod 5 moves in the opposite direction, releases the clamping to axial workpiece 1a and locking.

The basic principle, main feature and advantage of the utility model has been shown and described above.The technical staff of the industry It should be appreciated that above-described embodiment does not limit the utility model in any form, it is all by the way of equivalent substitution or equivalent transformation The technical solution obtained, all falls in the scope of protection of the utility model.

Claims (10)

1. a kind of end face run-out cubing suitable for axial workpiece, which is characterized in that including：

Part support column, cylinder, pull rod, measures pedestal, the first mechanical amesdial, the second mechanical amesdial, the first table branch at expansion set Support and the second table supporting rack；

The part support column supports the axial workpiece；The expansion set is socketed on the part support column；The expansion set is worn Cross the axial workpiece；The cylinder drives the pull rod movement；It is described swollen that the pull rod passes through the part support column to drive Set is moved relative to the part support column；The measurement pedestal is rotated relative to the part support column；

The gauge head of described first mechanical amesdial is contacted with the upper surface of the axial workpiece；The survey of described second mechanical amesdial Head is contacted with the lower surface of the axial workpiece；Described first mechanical amesdial is fixed to the first table supporting rack；Described Two mechanical amesdials are fixed to the second table supporting rack；The first table supporting rack and the second table supporting rack are installed to institute State measurement pedestal.

2. the end face run-out cubing according to claim 1 suitable for axial workpiece, it is characterised in that：

The first table supporting rack includes：First dial framework and first support；

The first support is fixed to the measurement pedestal；

Described first mechanical amesdial is fixed to first dial framework；

First dial framework and the first support form rotation connection.

3. the end face run-out cubing according to claim 2 suitable for axial workpiece, it is characterised in that：

The first table supporting rack further includes：Rollover stand, spring and steel ball；

First dial framework is fixed to the rollover stand；The rollover stand is formed with the first support and is rotatablely connected；

The rollover stand is formed with locating notch；The first support is formed with spring mounting groove；The spring and the steel ball In the spring mounting groove；The end thereof contacts of the steel ball and the spring；

There are one measure position and a part removal position for the first dial framework tool；First dial framework is in the measurement position It is rotated between the part removal position；When described first mechanical amesdial is located at the measurement position, the steel ball is at least Part is located in the locating notch.

4. the end face run-out cubing according to claim 3 suitable for axial workpiece, it is characterised in that：

The first table supporting rack further includes：Adjust first dial framework and the screw of the rollover stand relative position；

The screw fixes first dial framework and the rollover stand.

5. the end face run-out cubing according to claim 2 suitable for axial workpiece, it is characterised in that：

First dial framework is relative to the pivot center that the first support rotates perpendicular to the measurement pedestal relative to described The pivot center of part support column rotation.

6. the end face run-out cubing according to claim 1 suitable for axial workpiece, it is characterised in that：

The second table supporting rack includes：Second dial framework and second support；

The second support is fixed to the measurement pedestal；

Described second mechanical amesdial is fixed to second dial framework；Second dial framework is fixed to the second support.

7. the end face run-out cubing according to claim 1 suitable for axial workpiece, it is characterised in that：

The end face run-out cubing suitable for axial workpiece, which further includes, is used to support the support base for measuring pedestal；It is described Support base is located at the lower section for measuring pedestal；Described first mechanical amesdial and the second mechanical amesdial are located at described Measure the top of pedestal.

8. the end face run-out cubing according to claim 1 suitable for axial workpiece, it is characterised in that：

The end face run-out cubing suitable for axial workpiece further includes：Mounting sheet；

The cylinder and the part support column are fixed to the both sides of the mounting sheet.

9. the end face run-out cubing according to claim 8 suitable for axial workpiece, it is characterised in that：

The measurement pedestal circularizes.

10. the end face run-out cubing according to claim 9 suitable for axial workpiece, it is characterised in that：

The measurement base ring is around the mounting sheet.