CN103292737A

CN103292737A - Tire mold three-dimensional detector

Info

Publication number: CN103292737A
Application number: CN2013102342935A
Authority: CN
Inventors: 蒋广文; 陈广华; 李增琪; 张灿伟; 燕胜村; ***
Original assignee: SHANDONG WANTONG MOULD CO Ltd
Current assignee: SHANDONG WANTONG MOULD CO Ltd
Priority date: 2013-06-13
Filing date: 2013-06-13
Publication date: 2013-09-11

Abstract

The invention relates to a tire mold three-dimensional detector in the field of tire molds. The technical scheme is that the side of a rectangular chassis is positioned and matched with a conical surface groove of a mold lower side plate through a rotary positioning bearing, a groove is formed on the top face of the rectangular chassis, a pair of parallel linear guide rails is embedded into the groove, an X-axis grating ruler parallel to the linear guide rails is arranged on the rectangular chassis, a blocking plate is arranged at one end of each guide rail, and a servo motor is arranged at the other end of each guide rail. Connecting lead screws are connected between the blocking plates and the servo motors, fine adjustment manual rotary knobs are arranged on the servo motors, load platforms are sleeved on the lead screws in a threaded mode and matched with the guide rails in a sliding mode, and the top faces of the load platforms are vertically connected with columns through flanges. Vertical lead screws and Z-axis grating rulers are parallel to the axes of the columns and embedded on outer walls of the columns, the vertical lead screws are matched with sleeves sleeved on the columns through linear bearings, outer walls of the sleeves are connected with feeler levers, Y-axis sensing probes are arranged at the end portions of the feeler levers, and the upper portions of the vertical lead screws are provided with lifting hand wheels. The tire mold three-dimensional detector can directly and accurately detect roundness and symmetry degree of tire crowns.

Description

The tire-mold three-dimensional coordinate instrument

Technical field

The present invention relates to a kind of pick-up unit in the tire-mold field, a whole set of assembling of the tire-mold back of a kind of tire-mold three-dimensional coordinate instrument use when specifically relating to to(for) the detection of the circularity of crown position and symmetry.

Background technology

According to present processing and characterization processes, after a whole set of assembling of tire-mold, can't detect circularity and the symmetry of tire-mold crown position, can not guarantee effectively more whether mould assembling back size adheres to specification, only can wait until the client vulcanize tire after, verify the mould and die accuracy situation according to tire size, this kind mode waste time and energy and test period long, debug loaded down with trivial details, the waste starting material.

Summary of the invention

At the defective that prior art exists, through the research staff of company scientific research, develop a kind of tire-mold three-dimensional coordinate instrument that can effectively detect tire-mold crown position circularity and symmetry.

Technical scheme: comprise the rectangle chassis, it is characterized in that: the side on rectangle chassis cooperates by rotation alignment bearing location with mould lower side panel conical surface groove, end face on the rectangle chassis arranges groove, inlay a pair of line slideway that is parallel to each other in the groove, the parallel X-axis grating chi that arranges with line slideway and on the rectangle chassis, one end of two guide rails arranges baffle plate, the other end arranges servomotor, be connected screw mandrel between baffle plate and the servomotor, the fine setting manual knob is set on the servomotor, the sheathed load platform of screw thread on the screw mandrel, load platform is slidingly matched at guide rail, the load platform end face vertically connects column by flange, and parallel column axis is inlayed vertical hair bar and Z axle grating chi at the column outer wall, and the vertical hair bar cooperates by linear bearing with sleeve pipe on being set in column, sleeve outer wall connects feeler lever, the feeler lever end arranges the Y-axis inducing probes, and vertical hair bar top arranges the lifting handwheel, X-axis grating chi, the Y-axis inducing probes is connected with device for digit-displaying by lead respectively with Z axle grating chi.

Technique scheme can be improved to: divide equally at the side periphery on rectangle chassis three legs are set, three legs connect the secondary backstays, and the end of secondary backstay arranges the rotation alignment bearing, and the rotation alignment bearing cooperates with mould lower side panel conical surface groove location respectively.

Described sleeve outer wall connects feeler lever by rotating shaft, and the end of feeler lever connects the Y-axis inducing probes by turning axle.

Beneficial effect:

This technology can directly accurately detect crown circularity and symmetry after mould is assembled pressure testing, saved test period, has avoided wastage of material, has improved work efficiency, and easy to operate.

Description of drawings:

Accompanying drawing 1 is the structural representation of present embodiment, and accompanying drawing 2 is installation testing synoptic diagram of a whole set of mould assembling back and present embodiment.

Embodiment

With reference to accompanying drawing 1,2, present embodiment mainly comprises rectangle chassis 1, divide equally at the side periphery on rectangle chassis 1 three legs 15 are set, three legs 15 connect the secondary backstay, the end of secondary backstay arranges rotation alignment bearing 16, rotation alignment bearing 16 cooperates with mould lower side panel 18 conical surface grooves location respectively, end face on rectangle chassis 1 arranges groove, inlay a pair of line slideway that is parallel to each other 2 in the groove, the parallel X-axis grating chi 3 that arranges with line slideway 2 and on rectangle chassis 1, one end of two guide rails arranges baffle plate, the other end arranges servomotor, be connected screw mandrel between baffle plate and the servomotor, fine setting manual knob 17 is set on the servomotor, the sheathed load platform 4 of screw thread on the screw mandrel, load platform 4 is slidingly matched at guide rail, load platform 4 end faces vertically connect column by flange, parallel column axis is inlayed vertical hair bar 5 and Z axle grating chi 6 at the column outer wall, vertical hair bar 5 cooperates by linear bearing 7 with sleeve pipe 8 on being set in column, described sleeve pipe 8 outer walls connect feeler lever 9 by rotating shaft 10, the end of feeler lever 9 connects Y-axis inducing probes 11 by turning axle 12, vertical hair bar 5 tops arrange lifting handwheel 13, X-axis grating chi 3, Y-axis inducing probes 11 is connected with the device for digit-displaying 14 that is arranged on the column top by lead respectively with Z axle grating chi 6.

Principle of work: after the mould assembling pressure testing, spending conical surface grooves by lower side panel 18 is the location benchmark, by fine setting manual knob 17 fine setting X-axis load platforms 4, make column and mould concentric, adjust and regulate rotating shaft 10 and turning axle 12, make Y-axis inducing probes 11 contact crown check points, device for digit-displaying 14 parameter zero clearings after more than adjustment is finished, can detect tyre crown circularity by circumferential 360 degree by rotation alignment bearing 16, by lifting handwheel 13 and Z axle grating chi 6, can detect the crown symmetry, by X-axis, Z axle and Y-axis variable quantity can detect circularity and the symmetry of any position of crown, can directly read size by device for digit-displaying.

Claims

1. tire-mold three-dimensional coordinate instrument, comprise the rectangle chassis, it is characterized in that: the side on rectangle chassis cooperates by rotation alignment bearing location with mould lower side panel conical surface groove, end face on the rectangle chassis arranges groove, inlay a pair of line slideway that is parallel to each other in the groove, the parallel X-axis grating chi that arranges with line slideway and on the rectangle chassis, one end of two guide rails arranges baffle plate, the other end arranges servomotor, be connected screw mandrel between baffle plate and the servomotor, the fine setting manual knob is set on the servomotor, the sheathed load platform of screw thread on the screw mandrel, load platform is slidingly matched at guide rail, and the load platform end face vertically connects column by flange, parallel column axis and inlay vertical hair bar and Z axle grating chi at the column outer wall, the vertical hair bar cooperates by linear bearing with sleeve pipe on being set in column, and sleeve outer wall connects feeler lever, and the feeler lever end arranges the Y-axis inducing probes, vertical hair bar top arranges the lifting handwheel, X-axis grating chi, the Y-axis inducing probes is connected with device for digit-displaying by lead respectively with Z axle grating chi.

2. tire-mold three-dimensional coordinate instrument according to claim 1, it is characterized in that: the side periphery on rectangle chassis is divided equally three legs is set, three legs connect the secondary backstay, the end of secondary backstay arranges the rotation alignment bearing, and the rotation alignment bearing cooperates with mould lower side panel conical surface groove location respectively.

3. tire-mold three-dimensional coordinate instrument according to claim 1 and 2, it is characterized in that: described sleeve outer wall connects feeler lever by rotating shaft, and the end of feeler lever connects the Y-axis inducing probes by turning axle.