CN102269558A

CN102269558A - Tyre vulcanizer accuracy detector

Info

Publication number: CN102269558A
Application number: CN2011102040512A
Authority: CN
Inventors: 孟凡昊; 吴革新; 孔律
Original assignee: Anhui Giti Radial Tire Co Ltd
Current assignee: Anhui Giti Radial Tire Co Ltd
Priority date: 2011-07-21
Filing date: 2011-07-21
Publication date: 2011-12-07
Anticipated expiration: 2031-07-21
Also published as: CN102269558B

Abstract

The invention discloses a tyre vulcanizer accuracy detector, which comprises a centering substrate, a deep groove ball bearing, an operating platform and an admeasuring apparatus bracket, wherein the deep groove ball bearing is arranged on the centering substrate; an outer ring of the deep groove ball bearing is fixed with the centering substrate; the operating platform covers the deep groove ball bearing; an inner ring of the deep groove ball bearing is fixed with the operating platform; and the admeasuring apparatus bracket is fixed on the operating platform and is used for accommodating an admeasuring apparatus for detecting accuracy. The invention has the advantages that: the tyre vulcanizer accuracy detector can identify the tyre vulcanizer and mold assembly accuracy, control the tyre vulcanizer and mold assembly accuracy and keep the uniformity, the dynamic balance and the stability of appearance quality of tyres.

Description

The tyre vulcanizer instrument for testing precision

[technical field]

The present invention relates to pick-up unit, specifically relate to the tyre vulcanizer instrument for testing precision.

[background technology]

Existing tyre vulcanizer generally all comprises hot plate, last lower fetal pleuron, mechanical arm up and down, and the vulcanizer mould that assembles above.No. 200920025220.4 patent disclosure one meridian line tyre vulcanizer, as shown in Figure 1, comprise base 12, by column 2, pivot arm 3, go up the mechanical rotation arm that hot plate 4, epipleural 5 are formed, mechanical rotation arm lift cylinder 1, Mode-locking oil cylinder, the central authority of forming by center oil cylinder 13, capsule clamping device 7, aluminium base 6 and by clamp ring 8, heating plate 9, down hot plate 11, lower side panel 10, locking pivoted arm, segmented mold 14, slide and end the vulcanizing chamber that arm is formed.

The precision of vulcanizer and the sulfurizing mould assembly precision on vulcanizer all has very important influence to the quality of homogeneity, transient equilibrium and tire outward appearance of the tire of sulfuration therein, and the vulcanizer accuracy detection is had any problem at present, basic according to range estimation, the assembly precision of sulfurizing mould on vulcanizer just can't detect at all, thereby precision can not effectively be controlled, and the quality of homogeneity, transient equilibrium and the tire outward appearance of tire is produced adverse influence.

[summary of the invention]

Technical matters to be solved by this invention is to provide a kind of instrument for testing precision of tyre vulcanizer simply and easily.

The present invention solves the problems of the technologies described above by the following technical programs: a kind of tyre vulcanizer instrument for testing precision, pedestal, deep groove ball bearing, operating platform in comprising surely, and measuring instrument support, described deep groove ball bearing is placed on the middle surely pedestal, the outer ring of deep groove ball bearing is fixed with fixed middle pedestal, described operating platform covers on the deep groove ball bearing, the inner ring and the operating platform of deep groove ball bearing are fixed, described measuring instrument support is fixed on the operating platform, and the surveying instrument that is used for carrying out accuracy detection is installed on the measuring instrument support.

This invention can further be specially:

Described fixed in pedestal constitute by two concentric disks are one-body molded up and down, described lower disc center has threaded hole, described center of going up disk has through hole, the diameter of described through hole is less than the diameter of threaded hole, upper end-face edge at threaded hole forms a rib, described center of going up disk also is recessed to form a groove downwards, the diameter of described through hole is less than the diameter of groove, the bottom surface of groove forms the mounting table of an annular, the position of described mounting table proximate recesses sidewall is provided with a location boss, described deep groove ball bearing be placed on described fixed on the mounting table of groove of pedestal, and the positioning boss on the mounting table snaps in the corresponding detent that is provided with in bottom, deep groove ball bearing outer ring.

The diameter of the lower disc of described fixed middle pedestal is less than the diameter of last disk, and the part of the outstanding lower disc of the periphery of last disk is as an annular hand grip.

The upper end external corners camber of described annular hand grip.

The screw thread of the threaded hole at the lower disc center of described fixed middle pedestal adopts trapezoidal right-hand thread.

The degree of depth of the groove of described fixed middle pedestal is less than the height of described deep groove ball bearing, pedestal during described ditch ball bearing exceeds surely, described operating platform ringwise, the annular edge bottom surface is recessed to form an annular groove downwards, the position of described annular groove bottom surface next-door neighbour's madial wall is provided with a location boss, the annular groove of described operating platform covers on the described deep groove ball bearing, and the positioning boss of annular groove snaps in the corresponding detent that is provided with in deep groove ball bearing inner ring top.

The external diameter difference is less than the width of the annular groove of operating platform in the described deep groove ball bearing, forms a rotary handle at the lateral wall of described annular groove.

Described measuring instrument support comprises pedestal, first joint, second joint, and first stationary fixture, second stationary fixture, the 3rd stationary fixture, described pedestal is fixed on the surface of described operating platform, described first joint is fixed on the pedestal by first stationary fixture, described second joint is fixed on first joint by second stationary fixture, and the surveying instrument that is used for carrying out accuracy detection is fixed on the second joint by the 3rd stationary fixture.

The structure of described second stationary fixture and the 3rd stationary fixture is identical, comprises stop sleeve, clamp, support column respectively, and bolt;

Described stop sleeve side offers two relative holes, and the line in the center of circle in two holes is perpendicular to the axis of stop sleeve;

Described clamp is the U type, and the clamp bottom offers holes for clamping, offers a through hole on the two side respectively, and the line between the center of circle of two through holes is perpendicular to the axis of through hole, and the diameter of through hole is less than the diameter of stop sleeve;

One end of described support column offers a hole, and the diameter in hole is identical on the diameter in the hole of this support column and the stop sleeve, and the axis normal in the hole of this support column is in the axis of support column, and the other end side of support column offers screw;

The holes for clamping of the clamp of described second stationary fixture is enclosed within on first joint, the end that support column has a hole inserts stop sleeve inside after passing two through holes of clamp successively, the hole of support column is aimed at the hole of stop sleeve, in the hole of the support column after the second joint insertion is aimed at and the hole of stop sleeve, bolt screws in the screw of support column, the two side of clamp sticks together, and clamps first joint tightly;

The holes for clamping of the clamp of described the 3rd stationary fixture is enclosed within on the second joint, the end that support column has a hole inserts stop sleeve inside after passing two through holes of clamp successively, the hole of support column is aimed at the hole of stop sleeve, the surveying instrument that is used for carrying out accuracy detection inserts in the hole of the hole of the support column after aiming at and stop sleeve, bolt screws in the screw of support column, the two side of clamp sticks together, and clamps second joint tightly.

Described first stationary fixture comprises second clamp and second bolt, described second clamp is the U type, second clamp bottom offers holes for clamping, offer a through hole on the two side respectively, line between the center of circle of two through holes is perpendicular to the axis of through hole, offer screw on the described pedestal, second bolt of first stationary fixture screws in the screw of pedestal after passing through hole on second clamp of first stationary fixture, and the holes for clamping on second clamp of first stationary fixture is enclosed within the bottom in first joint.

Advantage of the present invention is: can discern tyre vulcanizer and mould assembly precision, control tyre vulcanizer and mould assembly precision keep the stable of tyre evenness, transient equilibrium and exterior quality.

[description of drawings]

Fig. 1 is existing a kind of tyre vulcanizer structural representation.

Fig. 2 is the fixed middle pedestal cut-open view of tyre vulcanizer instrument for testing precision of the present invention.

Fig. 3 is the deep groove ball bearing front view of tyre vulcanizer instrument for testing precision of the present invention.

Fig. 4 is the operating platform front view of tyre vulcanizer instrument for testing precision of the present invention, and wherein left one side of something is analysed and observe.

Fig. 5 is the measuring instrument support front view of tyre vulcanizer instrument for testing precision of the present invention.

Fig. 6 is the stereographic map of second stationary fixture among the present invention.

[embodiment]

The invention will be further described in conjunction with the embodiments with reference to the accompanying drawings, can be implemented so that those skilled in the art can better understand the present invention also, but illustrated embodiment is not as a limitation of the invention.

See also Fig. 2 to Fig. 5, pedestal 1, deep groove ball bearing 2, operating platform 3 during tyre vulcanizer instrument for testing precision of the present invention comprises surely, and measuring instrument support 4.

Described fixed in pedestal 1 constitute by two concentric disks are one-body molded up and down, the diameter of described lower disc is less than the diameter of last disk, the part of the outstanding lower disc of the periphery of last disk is as an annular hand grip 101, described lower disc center has threaded hole 102, the diameter and the external thread shape of the central cylinder of the vulcanizer of the corresponding precision to be measured of the diameter of described threaded hole 102 and screw thread form.In the present embodiment, the screw thread of described threaded hole 102 adopts trapezoidal right-hand thread.Described center of going up disk also has through hole 104, the diameter of described through hole 104 is less than the diameter of threaded hole 102, thereby the upper end-face edge at threaded hole 102 forms a rib 106, when pedestal 1 is spun on the central cylinder of vulcanizer by threaded hole 102 in fixed, be screwed into to a certain degree, described rib 106 is against on the central cylinder, has controlled the installation lower position of fixed middle pedestal 1.Described center of going up disk also is recessed to form a groove 108 downwards, the diameter of described through hole 104 is less than the diameter of groove 108, the bottom surface of groove 108 forms the mounting table 109 of an annular, the position of described mounting table 109 proximate recesses 108 sidewalls is provided with a location boss 1092, and described groove 108 sidewall tops also are the upper end external corners camber of annular hand grip 101.The annular hand grip 101 of this arc is convenient to install and unload this instrument for testing precision on central cylinder.

The structure of described deep groove ball bearing 2 adopts existing common deep groove ball bearing.Deep groove ball bearing 2 be placed on described fixed on the mounting table 109 of groove 108 of pedestal 1, and the positioning boss on the mounting table 109 1092 snaps in the detent (figure does not show) of bottom, deep groove ball bearing 2 outer rings correspondence setting, thereby the outer ring of deep groove ball bearing 2 is fixed together with fixed middle pedestal 1.The degree of depth of groove 108 is less than the height of described deep groove ball bearing 2, and therefore, ditch ball bearing 2 is given prominence to fixed middle pedestal 1 certain height.

Described operating platform 3 ringwise, the annular edge bottom surface is recessed to form an annular groove 32 downwards, the position of described annular groove 32 bottom surfaces next-door neighbours madial wall is provided with a location boss 322.The annular groove 32 of described operating platform 3 covers on the described deep groove ball bearing 2, the positioning boss 322 of annular groove 32 snaps in the corresponding detent that is provided with in deep groove ball bearing 2 inner ring tops (figure does not show), thereby the inner ring and the operating platform 3 of deep groove ball bearing 2 is fixed together.Deep groove ball bearing 2 interior external diameter differences are less than the width of the annular groove 32 of operating platform 3, so the lateral wall of annular groove 32 forms a rotary handle 324.

Described measuring instrument support 4 comprises pedestal 42, first joint 44, second joint 46, and first stationary fixture 43, second stationary fixture 45, the 3rd stationary fixture 47.

Described pedestal 42 is the pedestal with magnetic in the present embodiment, can be adsorbed on the surface of the operating platform 3 that steel makes by force.Described pedestal 42 also can be other structures, is provided with external thread as the bottom of pedestal 42, is processed with screw on the operating platform 3, and pedestal 42 bottoms are screwed in the upper surface that screw on the operating platform 3 also can be fixed on pedestal 42 operating platform 3.Can also adopt following structure: offer at least 2 through holes in pedestal 42 bottom surfaces, the screw with the through hole equal number is offered in corresponding position on operating platform 3, the through hole that uses the screw of respective amount to pass pedestal 42 bottom surfaces screws in the screw on the operating platform 3, also pedestal 42 can be fixed on the upper surface of operating platform 3.Described pedestal 42 also can adopt existing other modes with the fixed form of operating platform 3.

Described first joint 44 is fixed on the pedestal 42 by first stationary fixture 43, and described second joint 46 is fixed on first joint 44 by second stationary fixture 45, and the surveying instrument 5 that accuracy detection needs is fixed on the second joint 46 by the 3rd stationary fixture 47.

The structure of described second stationary fixture 45 and the 3rd stationary fixture 47 is identical, and only the structure with second stationary fixture 45 describes.See also Fig. 6, described second stationary fixture 45 comprises stop sleeve 452, clamp 454, support column 456, and bolt 458.

Described stop sleeve 452 sides offer the line in the center of circle in relative 4522, two holes 4522, two holes perpendicular to the axis of stop sleeve 452.

Described clamp 454 roughly is the U type, clamp 454 bottoms offer holes for clamping 4542, offer line between the center of circle of 4544, two through holes 4544 of a through hole on the two side respectively perpendicular to the axis of through hole 4544, the diameter of through hole 4544 is less than the diameter of stop sleeve 452.

One end of described support column 456 offers a hole 4562, and the diameter in hole 4522 is identical on the diameter in hole 4562 and the stop sleeve 452, and the axis normal in this hole 4562 is in the axis of support column 456, and the other end side of support column 456 offers screw (figure does not show).

During installation, the holes for clamping 4542 of described clamp 454 is enclosed within on first joint 44, the end that support column 456 has a hole 4562 passes two through holes, 4544 backs of clamp 454 successively and inserts stop sleevees 452 inside, hole 4562 is aimed at hole 4522, in the hole 4562 and hole 4522 after second joint 46 insertions are aimed at, bolt 458 screws in the screw of support column 456, after screwing, the two side that is about to clamp 454 sticks together, clamp first joint 45 tightly, and second joint 46 is because of the small relative motion between stop sleeve 452 and the support column 456, and also supported sleeve 452 is clamped in hole 4562 and the hole 4522 tightly with support column 456.

Surveying instrument 5 is identical by the mode that second stationary fixture 45 is fixed on first joint 44 by mode and second joint 46 that the 3rd stationary fixture 47 is fixed on the second joint 46, repeats no more.

The fixation principle of described first stationary fixture 43 is identical with the 3rd stationary fixture 47 with second stationary fixture 45, but structure is slightly different, and described first stationary fixture 43 includes only clamp and bolt.The clamp 454 of the clamp of described first stationary fixture 43 and the structure of bolt and second stationary fixture 45 and the structure of bolt 458 are identical.Offer screw (figure do not show) on the described pedestal 42, the bolt of first stationary fixture 43 screws in the pedestal 42 after passing hole on the clamp of first stationary fixture 43, and the holes for clamping on the clamp of first stationary fixture 43 is enclosed within the bottom in first joint 46.

During use, at first deep groove ball bearing 2 is placed on the middle surely pedestal 1, the outer ring of deep groove ball bearing 2 is fixed with fixed middle pedestal 1, then operating platform 3 is covered on the deep groove ball bearing 2, make the inner ring and the operating platform 3 of deep groove ball bearing 2 fixing, surveying instrument 5 is installed in the 3rd stationary fixture 47 of measuring instrument support 4.

This tyre vulcanizer instrument for testing precision can detect the right alignment of the depth of parallelism of the upper and lower hot plate of tyre vulcanizer, coaxial, mechanical arm, the precision after tyre vulcanizer mould (segmented mold and the two-half die) assembling.Concrete detection method is as follows:

A project: the upper and lower hot plate measurement of paralleism of vulcanizer

The tyre vulcanizer instrument for testing precision is positioned on the vulcanizer central cylinder, measuring instrument support 4 is placed on the operating platform 3, and adjust surveying instrument, dial gauge (or other surveying instrument) gauge outfit position on upper and lower hot plate apart from edge 20cm place, rotate a circle, measure and write down the jerk value numerical value in a week.

B project: hot plate coaxality measurement on the vulcanizer

The tyre vulcanizer instrument for testing precision is positioned on the vulcanizer central cylinder, measuring instrument support 4 is placed on the operating platform 3, and adjusts surveying instrument, dial gauge (or other measuring instrument) gauge outfit position is on last hot plate center pit inboard, rotate a circle, measure and write down the jerk value numerical value in a week.

C project: sulphur center mechanism coaxality measurement

The tyre vulcanizer instrument for testing precision is positioned on the vulcanizer central cylinder, measuring instrument support 4 is placed on the operating platform 3, and adjust surveying instrument, dial gauge (or other measuring instrument) gauge outfit position is on the center-pole (rising to the height of typing tire) of central authority, rotate a circle, measure and write down the jerk value numerical value in a week.

D project: sulphur center mechanism squareness measurement

The tyre vulcanizer instrument for testing precision is positioned on the vulcanizer central cylinder, measuring instrument support 4 is placed on the operating platform 3, and adjust surveying instrument, dial gauge (or other measuring instrument) gauge outfit position is solid on the central authority center-pole, ascending, descending central authority center-pole is measured and record jerk value numerical value.

E project: vulcanization hand coaxality measurement

The tyre vulcanizer instrument for testing precision is positioned on the vulcanizer central cylinder, measuring instrument support 4 is placed on the operating platform 3, and adjust surveying instrument, dial gauge (or other measuring instrument) gauge outfit position is on mechanical arm calvus outer rim dish (the simulation tire is being enclosed within the plate of the state on the mechanical arm), rotate a circle, measure and record jerk value numerical value.

F project: the coaxality measurement of sulfuration activating mold lower fetal pleuron assembling

The tyre vulcanizer instrument for testing precision is positioned on the vulcanizer central cylinder, measuring instrument support 4 is placed on the operating platform 3, and adjusts surveying instrument, dial gauge (or other measuring instrument) gauge outfit position is on the mating surface of lower side panel outer rim, rotate a circle, measure and record jerk value numerical value.

G project: the horizontal degree measurement of sulfuration activating mold lower fetal pleuron assembling

The tyre vulcanizer instrument for testing precision is positioned on the vulcanizer central cylinder, measuring instrument support 4 is placed on the operating platform 3, and adjust surveying instrument, dial gauge (or other measuring instrument) gauge outfit position is on the steel ring and lower fetal pleuron mating surface of mould lower side panel, rotate a circle, measure and record jerk value numerical value.

H project: the horizontal degree measurement that vulcanizes active die sleeve lower plate assembling

The tyre vulcanizer instrument for testing precision is positioned on the vulcanizer central cylinder, measuring instrument support 4 is placed on the operating platform 3, and adjusts surveying instrument, dial gauge (or other measuring instrument) gauge outfit position is on the platform of die sleeve lower plate, rotate a circle, measure and record jerk value numerical value.

I project: the coaxality measurement of sulfuration activating mold pattern block assembling

The tyre vulcanizer instrument for testing precision is positioned on the vulcanizer central cylinder, measuring instrument support 4 is placed on the operating platform 3, and adjusts surveying instrument, dial gauge (or other measuring instrument) gauge outfit position is on the mating surface of pattern block and side plate, rotate a circle, measure and record jerk value numerical value.

J project: the horizontal degree measurement of sulfuration two-half die bed die assembling

The tyre vulcanizer instrument for testing precision is positioned on the vulcanizer central cylinder, measuring instrument support 4 is placed on the operating platform 3, and adjusts surveying instrument, dial gauge (or other measuring instrument) gauge outfit position is on the cooperation plane of two-half die, rotate a circle, measure and record jerk value numerical value.

K project: the coaxality measurement of the upper and lower mould assembling of sulfuration two-half die

The tyre vulcanizer instrument for testing precision is positioned on the vulcanizer central cylinder, measuring instrument support 4 is placed on the operating platform 3, and adjusts surveying instrument, dial gauge (or other measuring instrument) gauge outfit position is in the cooperation of two-half die, rotate a circle, measure and record jerk value numerical value.

Claims

1. tyre vulcanizer instrument for testing precision, it is characterized in that: pedestal, deep groove ball bearing, operating platform in comprising surely, and measuring instrument support, described deep groove ball bearing is placed on the middle surely pedestal, the outer ring of deep groove ball bearing is fixed with fixed middle pedestal, and described operating platform covers on the deep groove ball bearing, and the inner ring and the operating platform of deep groove ball bearing are fixed, described measuring instrument support is fixed on the operating platform, and the surveying instrument that is used for carrying out accuracy detection is installed on the measuring instrument support.

2. tyre vulcanizer instrument for testing precision as claimed in claim 1, it is characterized in that: described fixed in pedestal constitute by two concentric disks are one-body molded up and down, described lower disc center has threaded hole, described center of going up disk has through hole, the diameter of described through hole is less than the diameter of threaded hole, upper end-face edge at threaded hole forms a rib, described center of going up disk also is recessed to form a groove downwards, the diameter of described through hole is less than the diameter of groove, the bottom surface of groove forms the mounting table of an annular, the position of described mounting table proximate recesses sidewall is provided with a location boss, described deep groove ball bearing be placed on described fixed on the mounting table of groove of pedestal, and the positioning boss on the mounting table snaps in the corresponding detent that is provided with in bottom, deep groove ball bearing outer ring.

3. tyre vulcanizer instrument for testing precision as claimed in claim 2 is characterized in that: the diameter of the lower disc of described fixed middle pedestal is less than the diameter of last disk, and the part of the outstanding lower disc of the periphery of last disk is as an annular hand grip.

4. tyre vulcanizer instrument for testing precision as claimed in claim 3 is characterized in that: the upper end external corners camber of described annular hand grip.

5. tyre vulcanizer instrument for testing precision as claimed in claim 2 is characterized in that: the screw thread of the threaded hole at the lower disc center of described fixed middle pedestal adopts trapezoidal right-hand thread.

6. tyre vulcanizer instrument for testing precision as claimed in claim 2, it is characterized in that: the degree of depth of the groove of described fixed middle pedestal is less than the height of described deep groove ball bearing, pedestal during described ditch ball bearing exceeds surely, described operating platform ringwise, the annular edge bottom surface is recessed to form an annular groove downwards, the position of described annular groove bottom surface next-door neighbour's madial wall is provided with a location boss, the annular groove of described operating platform covers on the described deep groove ball bearing, and the positioning boss of annular groove snaps in the corresponding detent that is provided with in deep groove ball bearing inner ring top.

7. tyre vulcanizer instrument for testing precision as claimed in claim 6 is characterized in that: the external diameter difference forms a rotary handle less than the width of the annular groove of operating platform at the lateral wall of described annular groove in the described deep groove ball bearing.

8. as each described tyre vulcanizer instrument for testing precision of claim 1 to 7, it is characterized in that: described measuring instrument support comprises pedestal, first joint, second joint, and first stationary fixture, second stationary fixture, the 3rd stationary fixture, described pedestal is fixed on the surface of described operating platform, described first joint is fixed on the pedestal by first stationary fixture, described second joint is fixed on first joint by second stationary fixture, and the surveying instrument that is used for carrying out accuracy detection is fixed on the second joint by the 3rd stationary fixture.

9. tyre vulcanizer instrument for testing precision as claimed in claim 8 is characterized in that: the structure of described second stationary fixture and the 3rd stationary fixture is identical, comprises stop sleeve, clamp, support column respectively, and bolt;

10. tyre vulcanizer instrument for testing precision as claimed in claim 9, it is characterized in that: described first stationary fixture comprises second clamp and second bolt, described second clamp is the U type, second clamp bottom offers holes for clamping, offer a through hole on the two side respectively, line between the center of circle of two through holes is perpendicular to the axis of through hole, offer screw on the described pedestal, second bolt of first stationary fixture screws in the screw of pedestal after passing through hole on second clamp of first stationary fixture, and the holes for clamping on second clamp of first stationary fixture is enclosed within the bottom in first joint.