CN109774208A - Tyre adjustable die assembly precision detection tool - Google Patents

Abstract

The invention discloses a kind of tyre adjustable die assembly precision detection tools, the cubing includes the bar linkage telescopic mechanism that can be placed in activating mold, and drive link telescoping mechanism is along the driving mechanism of activating mold radial expansion, the bar linkage telescopic mechanism is set as multiple and is symmetrical arranged relative to activating mold central axes, the drive end of the bar linkage telescopic mechanism connects the driving mechanism, the bar linkage telescopic mechanism is in its driven end under stretching state and abuts pattern block, the driven end of the bar linkage telescopic mechanism is equipped with the camera that can monitor activating mold gap, the imaging device of picture imaging of the camera electrical connection for shooting the camera.The cubing can accurate simulation tyre adjustable die use state stress condition, whether detection mold can be facilitated to have, and assembly is accurate, improve the accuracy of testing result, improve production efficiency if meeting upper machine condition.

Description

Tyre adjustable die assembly precision detection tool

Technical field

The invention belongs to tire-mold detection technique fields, and in particular to tyre adjustable die assembly precision detection tool.

Background technique

The structure of common tyre adjustable die generally comprises formwork and the type positioned at the enclosure interior in tire production The inner space of chamber mechanism, the Xing Qiang mechanism is adapted with the shape of tire；The Xing Qiang mechanism includes lower side panel, pattern block And epipleural, the formwork include pedestal, arcuate seat and upper cover, the pedestal is located at below the lower side panel, and the two passes through spiral shell It tethers and connects, the arcuate seat is coated on the outer surface of the pattern block, and the two is bolted, and the upper cover is located at described Above epipleural, the two is bolted.

Detection wheel tire activating mold is simulated using traditional press machine, is only capable of providing external pressure, adjustment mold preloads Amount, can not the true use environment of real simulation tire-mold, can not have found that it is likely that existing assembly precision problem.

Currently, to the final inspection of tyre adjustable die assembly precision carried out by way of examination vulcanization, this detection Mode is more time-consuming and laborious, once mold assembly precision goes wrong, upper machine detects again again after need to adjusting machine under mold, and This detection mode is difficult to determination and assembles unqualified position, will lead to mold frequently upper and lower machine, causes the life that tire plant is excessive Adjustment is produced, production efficiency is reduced.

Summary of the invention

In view of the shortcomings of the prior art, the technical problem to be solved by the present invention is to provide the inspection of tyre adjustable die assembly precision Survey cubing, the cubing can accurate simulation tyre adjustable die use state stress condition, can facilitate detection mold whether have Assembly is accurate to meet upper machine condition, improves the accuracy of testing result, improves production efficiency.

In order to achieve the above object, the technical solution adopted by the present invention are as follows:

A kind of tyre adjustable die assembly precision detection tool, the cubing include that the connecting rod that can be placed in activating mold is stretched Along the driving mechanism of activating mold radial expansion, the bar linkage telescopic mechanism is set as contracting mechanism and drive link telescoping mechanism Multiple and arranged symmetrically relative to activating mold central axes, the drive end of the bar linkage telescopic mechanism connects the driving mechanism, The bar linkage telescopic mechanism is in its driven end under stretching state and abuts pattern block, and the driven end of the bar linkage telescopic mechanism is equipped with Can monitor the camera in activating mold gap, picture imaging of the camera electrical connection for shooting the camera at As device.

Preferably, the bar linkage telescopic mechanism is arranged in a one-to-one correspondence with pattern block.

Preferably, the bar linkage telescopic mechanism includes the multiple diamond shape double leval jib groups being radially successively driven along activating mold The central axes of part, the bar linkage telescopic mechanism are arranged radially along activating mold, and the central axes of the bar linkage telescopic mechanism are equipped with Multiple intermediate pin shafts for being used to connect connecting rod, the intermediate pin shaft are arranged perpendicular to the central axes of the bar linkage telescopic mechanism.

Preferably, the driving mechanism includes the pedestal that can be arranged in activating mold lower side panel central through hole, and The driving unit that intermediate pin shaft can be driven to move along the bar linkage telescopic mechanism central axes, the driving unit are mounted on pedestal On, the intermediate pin shaft set on bar linkage telescopic mechanism drive end end is the fixed pin shaft for being fixedly connected with the pedestal, described Another intermediate pin shaft of bar linkage telescopic mechanism drive end diamond shape double leval jib component is the gear pin for connecting the driving unit.

Preferably, the driving unit includes the guide holder being arranged in a one-to-one correspondence with the bar linkage telescopic mechanism, push rod The disk that the ejector apparatus and the bottom surface center of circle set up along activating mold central axes is fixedly connected with push rod upper end, institute Ejector apparatus ontology is stated to be fixedly mounted on pedestal；

The disk is parallel to the setting of activating mold epipleural, and the disk connects the connecting rod telescopic machine by drive rod Structure, the drive rod are arranged in a one-to-one correspondence with the bar linkage telescopic mechanism, the coupled bar linkage telescopic mechanism of the drive rod It is coplanar with, the both ends of the drive rod are respectively articulated with the disk and the gear pin, each drive rod and the disk Connection site relative to the disk central axes be symmetrical arranged；

The guide holder is along bar linkage telescopic mechanism central axes direction setting guiding parts is parallel to, with the trundle Axis is slidably connected the guiding parts, and the fixed pin shaft is fixedly mounted on guide holder.

Preferably, the disk border radially extends multiple extension rods, the extension rod and drive rod are one by one It is correspondingly arranged, the end of the extension rod is hingedly driven boom end.

Preferably, the ejector apparatus is any one of cylinder, electric pushrod, hydraulic cylinder；The guiding parts is Guide groove on guide holder, the gear pin are arranged in the guide groove and can slide along guide groove.

Preferably, the driven end end of the bar linkage telescopic mechanism is equipped with the pressing plate that can abut pattern block, the camera shooting Head is mounted on pressing plate.

Preferably, hingedly the pressing plate center, the pressing plate edge are set for the driven end end of the bar linkage telescopic mechanism There are four the lug boss that can abut pattern block, the lug boss is symmetrical arranged relative to the bar linkage telescopic mechanism central axes.

Preferably, the contact surface of the lug boss and pattern block is equipped with buffering spacer.

Compared with prior art, the advantages and positive effects of the present invention are: providing tyre adjustable die assembly precision Detection tool, the cubing can accurate simulation tyre adjustable die use state stress condition, can facilitate detection mold whether Tool assembly is accurate to meet upper machine condition, improves the accuracy of testing result, improves production efficiency.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of cubing of the invention；

Fig. 2 is the structural schematic diagram of bar linkage telescopic mechanism contraction state of the invention；

Fig. 3 is the structural schematic diagram that bar linkage telescopic mechanism of the invention stretches out state；

Fig. 4 is the structural schematic diagram of cubing and activating mold assembled state of the invention；

In last figure: 1- bar linkage telescopic mechanism, 11- diamond shape double leval jib component, 111- connecting rod, the centre 112- pin shaft, 113- fixed pin shaft, 114- gear pin, 12- pressing plate, 121- lug boss, 122- buffering spacer, 2- driving mechanism, 21- pedestal, 22- guide holder, 23- ejector apparatus, 231- push rod, 232- ejector apparatus ontology, 24- disk, 241- delay bar, 25- drive rod, 3- activating mold, 31- pattern block, 32- lower side panel, 33- epipleural, 4- camera.

Specific embodiment

In the following, the present invention is specifically described by illustrative embodiment.It should be appreciated, however, that not into one In the case where step narration, element, structure and features in an embodiment can also be advantageously incorporated into other embodiments In.

It should be noted that in the description of the present invention, term "inner", "outside", "upper", "lower", "left", "right", " preceding ", The orientation or positional relationship of instructions such as " rear " is positional relationship based on the figure, is merely for convenience of the description present invention and letter Change description, rather than the device or element of indication or suggestion meaning must have a particular orientation, with specific orientation construct and Operation, therefore be not considered as limiting the invention.

Term " first ", " second " be used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance or Implicitly indicate the quantity of indicated technical characteristic." first " is defined as a result, the feature of " second " can be expressed or imply Ground includes one or more of the features.

Embodiment:

As shown in Figs 1-4, a kind of tyre adjustable die assembly precision detection tool, the cubing include that can be placed in segmented mold Bar linkage telescopic mechanism 1 and drive link telescoping mechanism 1 in tool 3 are along radial (or the upside for activating mold 3 of activating mold 3 The radial direction of plate 33) flexible driving mechanism 2, the bar linkage telescopic mechanism 1 is set as multiple and relative to 3 central axes of activating mold (or for activating mold 3 epipleural 33 central axes) be symmetrical arranged, the drive end of the bar linkage telescopic mechanism 1 connects the drive Motivation structure 2, the bar linkage telescopic mechanism 1 are in its driven end under stretching state and abut pattern block 31, the bar linkage telescopic mechanism 1 Driven end be equipped with and can monitor the camera 4 in 3 gap of activating mold, the electrical connection of camera 4 is for clapping the camera 4 The imaging device for the picture imaging taken the photograph.

The application method of above-mentioned cubing are as follows:

(1) before activating mold molding, bar linkage telescopic mechanism 1 is fitted into activating mold 3 (as shown in Figure 4), is connected at this time Bar telescoping mechanism 1 is in contraction state (as shown in Figure 2), and driven end is not contacted with pattern block 31；

(2) molding of activating mold 3 closes up pattern block 31 under pressure outside, and it is steady to mold state to activating mold 3 After fixed, opening driving mechanism 2 extends radially out bar linkage telescopic mechanism 1 along activating mold 3 to abut pattern block 31, along segmented mold Tool 3 is radial to apply outer support power to pattern block 31, to simulate suffered radial direction under use state of the activating mold 3 on vulcanizer The stress condition of active force, in this case, if activating mold 3 there are mating surface virtual connection touch the problems such as when, pattern block 31 with it is upper The mating surface of side plate 33 and lower side panel 32 will appear gap, and the gap between pattern block 31 also has variation, by with camera shooting The imaging device of first 4 connection can monitor the gap variation situation before and after 3 stress of activating mold, can be sentenced by comparing gap size Whether the assembly precision for determining activating mold 3 is qualified, while can directly judge that activating mold assembles unqualified position；

(3) after having inspected, bar linkage telescopic mechanism 1 is shunk with driving mechanism 2, makes bar linkage telescopic mechanism 1 to pattern block 31 The part of equal activating molds 3 is not interfered, and will not influence mould open/close, activating mold 3 is opened, by pattern block 31 and epipleural 33 It is separated with lower side panel 32, cubing is taken out from activating mold 3.

Using above-mentioned cubing, without the examination vulcanization of upper machine, can accurate simulation tyre adjustable die use state stress feelings Whether condition, detection mold can be facilitated to have, and assembly is accurate meets upper machine condition, improves the accuracy of testing result, improves production effect Rate.

Specifically, the bar linkage telescopic mechanism 1 is arranged in a one-to-one correspondence with pattern block 31.

Specifically, the bar linkage telescopic mechanism 1 includes along the radial multiple diamond shape double leval jib groups being successively driven of activating mold 3 The central axes of part 11, the bar linkage telescopic mechanism 1 are arranged radially along activating mold 3, on the central axes of the bar linkage telescopic mechanism 1 Equipped with multiple for connecting the intermediate pin shaft 112 of connecting rod 111, the intermediate pin shaft 112 is perpendicular to the bar linkage telescopic mechanism 1 Central axes setting.

Specifically, the driving mechanism 2 includes the pedestal 21 that can be arranged in 3 lower side panel of activating mold, 32 central through hole, And the driving unit that intermediate pin shaft 112 can be driven to move along 1 central axes of bar linkage telescopic mechanism, the driving unit installation On pedestal 21, the intermediate pin shaft 112 set on the 1 drive end end of bar linkage telescopic mechanism is to be fixedly connected with the pedestal 21 Fixed pin shaft 113, another intermediate pin shaft 112 of the 1 drive end diamond shape double leval jib component 11 of bar linkage telescopic mechanism are connection institute State the gear pin 114 of driving unit.The driving unit can push gear pin 114 along 1 central axes of bar linkage telescopic mechanism (i.e. For activating mold radial direction) movement, to push bar linkage telescopic mechanism 1 along activating mold radial expansion.

Specifically, the driving unit includes the guide holder 22 being arranged in a one-to-one correspondence with the bar linkage telescopic mechanism 1, push rod 231 ejector apparatus 23 set up along 3 central axes of activating mold and the bottom surface center of circle are fixedly connected with 231 upper end of push rod Disk 24, the ejector apparatus ontology 232 is fixedly mounted on pedestal 21；The disk 24 is parallel to 3 upside of activating mold Plate 33 is arranged, and the disk 24 connects the bar linkage telescopic mechanism 1 by drive rod 25, and the drive rod 25 is stretched with the connecting rod Contracting mechanism 1 is arranged in a one-to-one correspondence, and the coupled bar linkage telescopic mechanism 1 of the drive rod 25 is coplanar with, the drive rod 25 Both ends be respectively articulated with the disk 24 and the gear pin 114, the connection site of each drive rod 25 and the disk 24 It is symmetrical arranged relative to 24 central axes of disk；The guide holder 22 is along being parallel to the 1 central axes side of bar linkage telescopic mechanism It to setting guiding parts, is slidably connected the guiding parts with the gear pin 114, the fixed pin shaft 113 is fixedly mounted On guide holder.

Using above-mentioned driving unit set-up mode, cubing is in recycling state, institute using the push rod 231 of preceding ejector apparatus 23 It states bar linkage telescopic mechanism 1 and is in compact state, when use need to stretch out bar linkage telescopic mechanism 1 with ejection pattern block 31, at this point, control The push rod 231 of ejector apparatus 23 stretches out upwards, and to drive disk 24 to rise, 24 uphill process of disk drives drive rod 25 to rotate, Cooperate with guiding parts to drive gear pin 114 along 3 radial outward movement of activating mold, and then drive link telescoping mechanism 1 It stretches out with ejection pattern block 31, each drive rod 25 is with the connection site of the disk 24 relative to described in above-mentioned transmission process 24 central axes of disk, which are symmetrical arranged, can guarantee that each 1 extension elongation of bar linkage telescopic mechanism is identical in 24 uphill process of disk, to it The big active forces such as the application of pattern block 31 of abutting, with the stress feelings of more accurate simulation 3 use state of tyre adjustable die Condition improves the accuracy of testing result, improves production efficiency.

Specifically, 24 edge of disk radially extends multiple extension rods 241, the extension rod 241 and transmission Bar 25 is arranged in a one-to-one correspondence, hinged 25 end of drive rod in the end of the extension rod 241.

Specifically, the ejector apparatus 23 is any one of cylinder, electric pushrod, hydraulic cylinder；Preferably thin cylinder.

Specifically, the guiding parts is the guide groove 221 on guide holder 22, the gear pin 113 is arranged in It can slide in the guide groove 221 and along guide groove 221.

Specifically, the driven end end of the bar linkage telescopic mechanism 1 is equipped with the pressing plate 12 that can abut pattern block 31, it is described to take the photograph It is mounted on pressing plate 12 as first 4.The setting of pressing plate can increase the contact surface of the driven end of pattern block 31 and bar linkage telescopic mechanism 1 Product simulates the stress condition of 3 use state of activating mold, preferably so that pattern block 31 is more uniformly stressed to ensure precision The accuracy of detection.

Specifically, hinged 12 center of pressing plate in the driven end end of the bar linkage telescopic mechanism 1,12 edge of pressing plate If the lug boss 121 is relative to 1 central axes of bar linkage telescopic mechanism there are four the lug boss 121 that can abut pattern block 31 It is symmetrical arranged.The setting of lug boss 121 can increase the stress site of pattern block 31, facilitate more accurate positioning to be adapted to unqualified The position of component, and using the driven end end of articulated manner connection pressing plate 12 and bar linkage telescopic mechanism 1, so that in force state The position of pressing plate 12 can be preferably adapted to pattern block 31, to improve detection accuracy.

Specifically, the contact surface of the lug boss 121 and pattern block 31 is equipped with buffering spacer 122.

The above described is only a preferred embodiment of the present invention, being not that the invention has other forms of limitations, appoint What those skilled in the art changed or be modified as possibly also with the technology contents of the disclosure above equivalent variations etc. It imitates embodiment and is applied to other fields, but without departing from the technical solutions of the present invention, according to the technical essence of the invention Any simple modification, equivalent variations and remodeling to the above embodiments, still fall within the protection scope of technical solution of the present invention.

Claims (10)

1. a kind of tyre adjustable die assembly precision detection tool, which is characterized in that the cubing includes that can be placed in activating mold Interior bar linkage telescopic mechanism and drive link telescoping mechanism along the driving mechanism of activating mold radial expansion, stretch by the connecting rod Contracting mechanism is set as multiple and is symmetrical arranged relative to activating mold central axes, described in the drive end connection of the bar linkage telescopic mechanism Driving mechanism, the bar linkage telescopic mechanism are in its driven end under stretching state and abut pattern block, the bar linkage telescopic mechanism Driven end is equipped with the camera that can monitor activating mold gap, and the camera is electrically connected the picture for shooting the camera The imaging device of face imaging.

2. tyre adjustable die assembly precision detection tool according to claim 1, which is characterized in that the connecting rod is flexible Mechanism is arranged in a one-to-one correspondence with pattern block.

3. tyre adjustable die assembly precision detection tool according to claim 1, which is characterized in that the connecting rod is flexible Mechanism includes the multiple diamond shape double leval jib components being radially successively driven along activating mold, the central axes edge of the bar linkage telescopic mechanism Activating mold is arranged radially, and the central axes of the bar linkage telescopic mechanism are equipped with multiple for connecting the intermediate pin shaft of connecting rod, institute The central axes that intermediate pin shaft is stated perpendicular to the bar linkage telescopic mechanism are arranged.

4. tyre adjustable die assembly precision detection tool according to claim 3, which is characterized in that the driving mechanism Including the pedestal that can be arranged in activating mold lower side panel central through hole, and intermediate pin shaft can be driven along the connecting rod telescopic machine The driving unit of structure central axes movement, the driving unit are mounted on the base, and are set to bar linkage telescopic mechanism drive end end The intermediate pin shaft in portion is the fixed pin shaft for being fixedly connected with the pedestal, the bar linkage telescopic mechanism drive end diamond shape double leval jib component Another intermediate pin shaft be the gear pin for connecting the driving unit.

5. tyre adjustable die assembly precision detection tool according to claim 4, which is characterized in that the driving unit Including the guide holder being arranged in a one-to-one correspondence with the bar linkage telescopic mechanism, ejection that push rod is set up along activating mold central axes The disk that device and the bottom surface center of circle are fixedly connected with push rod upper end, the ejector apparatus ontology are fixedly mounted on pedestal；

The disk is parallel to the setting of activating mold epipleural, and the disk connects the bar linkage telescopic mechanism by drive rod, The drive rod is arranged in a one-to-one correspondence with the bar linkage telescopic mechanism, and the coupled bar linkage telescopic mechanism of the drive rod is coplanar Setting, the both ends of the drive rod are respectively articulated with the disk and the gear pin, the company of each drive rod and the disk Site is connect to be symmetrical arranged relative to the disk central axes；

The guide holder is slided along bar linkage telescopic mechanism central axes direction setting guiding parts is parallel to the gear pin The dynamic connection guiding parts, the fixed pin shaft are fixedly mounted on guide holder.

6. tyre adjustable die assembly precision detection tool according to claim 5, which is characterized in that the disk border Radially extend multiple extension rods, the extension rod is arranged in a one-to-one correspondence with drive rod, and the end of the extension rod is hinged It is driven boom end.

7. tyre adjustable die assembly precision detection tool according to claim 5, which is characterized in that the ejector apparatus For any one of cylinder, electric pushrod, hydraulic cylinder；The guiding parts is the guide groove on guide holder, the transmission Pin shaft is arranged in the guide groove and can slide along guide groove.

8. tyre adjustable die assembly precision detection tool according to claim 1, which is characterized in that the connecting rod is flexible The driven end end of mechanism is equipped with the pressing plate that can abut pattern block, and the camera is mounted on pressing plate.

9. tyre adjustable die assembly precision detection tool according to claim 8, which is characterized in that the connecting rod is flexible The hinged pressing plate center in the driven end end of mechanism, the pressing plate edge set that there are four the lug boss that can abut pattern block, institutes Lug boss is stated to be symmetrical arranged relative to the bar linkage telescopic mechanism central axes.

10. tyre adjustable die assembly precision detection tool according to claim 8, which is characterized in that the lug boss Buffering spacer is equipped with the contact surface of pattern block.