CN106335199A - Primary-drum feeding rack of tire building machine and implementation method thereof - Google Patents

Abstract

The invention discloses a primary-drum feeding rack of a tire building machine. The primary-drum feeding rack comprises a primary drum, a supporting framework, an upper bead filler conveying device and a tire-sidewall conveying device, wherein the upper bead filler conveying device and the tire-sidewall conveying device are mounted in the supporting framework in a laminating manner and are arranged right behind the primary drum along a longitudinal direction. The upper bead filler conveying device located at an upper layer can be pushed forward and then be turned upside down, so the primary-drum feeding rack saves more space compared with a laminated feeding rack; a hot-knife cutting device is used for rapidly cutting upper bead filler, so rapid high-efficiency filler upper bead cutting and a smooth cutting surface are realized at set accurate temperature; and an ultrasonic knife cutting device is used at a tire sidewall, and through dynamic adjustment of the ultrasonic knife cutting device with a rubber compound and changing of the frequency of the body of an ultrasonic knife, the rubber compound cut through transverse or longitudinal cutting has neat and smooth fracture and is free of burnt rubber. The primary-drum feeding rack of the tire building machine is compact in structure and easy to install and debug, and can highly efficiently realize high-quality carcass shaping of a tire. The invention also discloses an implementation method for the primary-drum feeding rack of the tire building machine.

Description

A kind of tyre building machine once rouses feed frame and its implementation

Technical field

The present invention relates to tyre building machine rouses feed frame technical field, a kind of more particularly to a kind of tyre building machine by stacked for each portion material conveying device longitudinal dead astern being arranged in and once rousing once rouses feed frame and its implementation.

Background technology

It is by stacked for each portion material conveying device mechanical device being arranged in once longitudinal dead astern of drum that tyre building machine once rouses feed frame, it fully utilizes ultrasonic technology, sensor technology, each relevant mechanical device and its mechanism are carried out integrated optimization by the technology such as hydraulic technique.

Chinese patent 201120570317.0 discloses a kind of feeding rack for building tyre, this feeding rack for building tyre includes frame, the conveying templates support being arranged in frame, conveying templates are located on conveying templates support, downward-sloping along the conveying direction of belt, there is the front end of same belt drum laminating, conveying templates front end is located at below belt drum, and, when fitting station, its upper surface is tangent with the excircle of belt drum for conveying templates.This stacked feed frame takies bigger operating space, and cost of manufacture is high.

In view of above situation, the invention discloses a kind of tyre building machine once rouses feed frame and its implementation and structure, there is compact conformation and be easily installed debugging, reserve bigger operating space to operating personnel, improve the Forming Quality of tire and the shaping efficiency of tire.

Content of the invention

Present invention is primarily intended to solution prior art problem, a kind of tyre building machine for tire building is provided once to rouse feed frame and its implementation, overturn downwards after being released forward using upper bead filler conveying device again, this mechanism compares traditional stacked feed frame more save space, so that a whole set of feed frame compact conformation and be easily installed debugging, can be with high efficiency, the high-quality carcass shaping completing tire.

In order to solve the above problems, the technical scheme is that it includes once rousing the invention discloses a kind of tyre building machine once rouses feed frame, upper bead filler conveying device, sidewall conveying device, support frame；Described once drum is located at forefront, upper bead filler conveying device is arranged on the internal upper strata of support frame, sidewall conveying device is arranged on the internal lower floor of support frame, and upper bead filler conveying device becomes the stacked longitudinal dead astern being arranged in once drum with sidewall conveying device；Described upper bead filler conveying device overturns after can releasing forward downwards again, and this mechanism compares traditional stacked feed frame more save space, reserves bigger operating space to operating personnel.

Described upper bead filler conveying device includes upper bead filler rear end centering body, upper bead filler compressing glue mechanism, upper bead filler rear end conveying mechanism, hot knife cutting means, 1# servo-drive and clutch switching mechanism, upper bead filler front end conveying mechanism, upper bead filler front end centering body；Described upper bead filler rear end centering body is located at the rightmost side, is connected with upper bead filler compressing glue mechanism on the left of it；Described upper bead filler rear end conveying device right-hand member is connected to upper bead filler compressing glue mechanism, connects hot knife cutting means on the left of it；Described 1# servo-drive and clutch switching mechanism are connected with hot knife cutting means left end；It is connected on the right side of described upper bead filler front end conveying mechanism on 1# servo-drive and clutch switching mechanism, be connected with upper bead filler front end centering body on the left of it.

DescribedHot knife cutting meansIncluding chip cut-off knife, thermocouple induction device, low voltage and high current heating system；Described chip cut-off knife is installed on the upper frame of support frame；Described thermocouple induction device is arranged on below chip cut-off knife；Described low voltage and high current heating system is connected to the two ends of hot knife cutting means.

Described chip cut-off knife, surface has Teflon coating or plasma non cohesive gel coating.

Described 1# servo-drive and clutch switching mechanism include servo drive, arrangement of clutch, train；Described servo drive is arranged on the conveying mechanism of upper bead filler front end, and arrangement of clutch is fixed on support frame horizontal frame side, and train is connected respectively with arrangement of clutch and upper bead filler rear end conveying mechanism.

Described upper bead filler front end conveying mechanism includes advance and retreat cylinder, front end sliding frame, tumble cylinder, and one section described of advance and retreat cylinder is hinged on the sliding frame of front end, and the other end is hinged on 1# servo-drive and clutch switching mechanism；Described front end sliding frame is slidably socketed in the inside of upper bead filler front end conveying mechanism；Described tumble cylinder is hinged on support frame and front end sliding frame in pairs.

Described sidewall conveying device includes transition connecting gear, sidewall rear end centering body, sidewall compressing glue mechanism, sidewall rear end conveying mechanism, ultrasonic knife cutting means, 2# servo-drive and clutch switching mechanism, sidewall front end conveying mechanism, sidewall front end centering body；Described sidewall rear end centering body is located at the lower section of low order end upper bead filler conveying device, is connected with sidewall compressing glue mechanism on the left of it；Described sidewall rear end conveying mechanism right-hand member is connected to sidewall compressing glue mechanism, connects ultrasonic knife cutting means on the left of it；Described 2# servo-drive and clutch switching mechanism are connected with ultrasonic knife cutting means left end；It is connected on the right side of described sidewall front end conveying mechanism on 2# servo-drive and clutch switching mechanism, be connected with sidewall front end centering body on the left of it.

DescribedUltrasonic knife cutting meansIncluding adjustable support, ultrasonic wave cutter hub；Described adjustable support is fixed in support frame；Described ultrasonic wave cutter hub is suspended on below adjustable support, can the connection fulcrum between adjustable support rotate.The adjustment of dynamic ground and the contact surface of sizing material and change the frequency of ultrasonic wave cutter hub according to sizing material thickness change, can achieve and laterally or longitudinally shear sizing material, reach sizing material fracture and neatly smooth no glue and burn, and sizing material can smooth out adhesion after fitting on the drum；It is 25 ° it is ensured that tire dynamic and balance and homogeneity that sidewall cuts angle.

A kind of tyre shaping machine breaker ply feed frame implementation method, it includes once rousing, support frame, upper bead filler conveying device and sidewall conveying device；It is characterized in that: it comprises the following steps: the conveying of (1) upper bead filler, each portion material carries out centering by upper bead filler rear end centering body, it is adjacent to each portion material being carried out compacting through upper bead filler compressing glue mechanism, upper bead filler rear end conveying mechanism is transported to hot knife cutting means each portion material and realizes rapidly and efficiently cutting glue, by 1# servo-drive and clutch switching mechanism, upper bead filler material transition is carried out material centering again to being delivered to upper bead filler front end centering body to triangle rubber front end conveying mechanism；(2) sidewall conveying, complete the first centering of sidewall raw material by sidewall rear end centering body, realize sidewall is expected with carrying out compacting is adjacent to using sidewall compressing glue mechanism, the sidewall material of compacting is delivered to ultrasonic knife cutting means and is correctly cut by sidewall rear end conveying mechanism, then by 2# servo-drive and clutch switching mechanism, the sidewall cutting material is delivered to the centering again that the conveying mechanism realization of sidewall front end is conveyed to sidewall front end centering body.

Compared with prior art, technique scheme has the advantage that

1. Positioned at the upper bead filler feed transportation section of top layer can release forward after overturn downwards again, this mechanism compares traditional stacked feed frame more save space, reserves bigger operating space to operating personnel；

2. Upper bead filler is cut using low voltage and high current chip hot knife cutting means, Teflon coating or the chip cut-off knife of plasma non cohesive gel coating are had using surface, make the frictional force that cut-off knife cuts during rubber extremely low, the phenomenon sticking rubber and pullling rubber will not be produced；When cutting state, quick heating is realized by the low voltage and high current heating system being connected to two ends it is ensured that rapidly and efficiently cutting glue under the accurate temperature setting and tangent plane is smooth；Film notch after having cut out no glue burns, and the remaining temperature that cuts of hot knife makes the laminating lap joint viscosity of sizing material more preferably；

3. Sidewall adopts ultrasonic knife cutting means severing, ultrasonic wave cutter hub can between adjustable support connect fulcrum complete different directions rotation adjust, with the contact surface that dynamically adjusts with sizing material and the frequency of ultrasonic wave cutter hub can be changed according to sizing material thickness change, shaken by the cutter hub higher-order of oscillation disconnected sizing material strand laterally or longitudinally to shear sizing material, the sizing material fracture being cut neatly smooths no glue and burns, and sizing material can smooth out adhesion after fitting on the drum；Sidewall cuts angle and is 25 °, increases faying face, prevents from ftractureing, and keeping clear of joints distribution is it is ensured that the performance index such as tire dynamic and balance and homogeneity；

4. In servo-drive and clutch switching mechanism, the servo power of delivery section material is mounted on conveyer belt, is reached power by arrangement of clutch and cuts section, the pre- severing function of achievement unit material, reduce manual intervention operation it is ensured that fixed length precision and cut section effect, high degree of automation.

The present invention is further illustrated with specific embodiment below in conjunction with the accompanying drawings.

Brief description

Fig. 1 is overall structure front view of the present invention；

Fig. 2 is triangle rubber transport conveyor constructions schematic diagram of the present invention；

Fig. 3 is the present invention hot knife cutting means structural representation；

Fig. 4 is 1# servo-drive of the present invention and clutch switching mechanism schematic diagram；

Fig. 5 is triangle rubber front end of the present invention conveying mechanism structural representation；

Fig. 6 is the structural representation of sidewall of the present invention conveying device；

Fig. 7 is the structural representation of ultrasonic knife cutting means of the present invention.

Specific embodiment

As shown in figure 1, the present invention is a kind of tyre building machine once rouses feed frame, it includes once drum 1, upper bead filler conveying device 2, sidewall conveying device 3, support frame 4；Described once drum 1 is located at forefront, upper bead filler conveying device 2 is arranged on the internal upper strata of support frame 4, sidewall conveying device 3 is arranged on the internal lower floor of support frame 4, and upper bead filler conveying device 2 becomes the stacked longitudinal dead astern being arranged in once drum 1 with sidewall conveying device 3；Described upper bead filler conveying device 2 overturns after can releasing forward downwards again, and this mechanism compares traditional stacked feed frame more save space, reserves bigger operating space to operating personnel.

With reference to Fig. 2, triangle rubber transport conveyor constructions schematic diagram of the present invention, described upper bead filler conveying device 2 includes upper bead filler rear end centering body 21, upper bead filler compressing glue mechanism 22, upper bead filler rear end conveying mechanism 23, hot knife cutting means 24,1# servo-drive and clutch switching mechanism 25, upper bead filler front end conveying mechanism 26, upper bead filler front end centering body 27；Described upper bead filler rear end centering body 21 is located at the rightmost side, is connected with upper bead filler compressing glue mechanism 22 on the left of it；Described upper bead filler rear end conveying device 23 right-hand member is connected to upper bead filler compressing glue mechanism 22, connects hot knife cutting means 24 on the left of it；Described 1# servo-drive and clutch switching mechanism 25 are connected with hot knife cutting means 24 left end；It is connected on the right side of described upper bead filler front end conveying mechanism 26 on 1# servo-drive and clutch switching mechanism 25, be connected with upper bead filler front end centering body phase 27 on the left of it.

With reference to Fig. 3, show the present invention hot knife cutting means structural representation, described hot knife cutting means 24 include chip cut-off knife 241, thermocouple induction device 242, low voltage and high current heating system 243；Described chip cut-off knife 241 is installed on the upper frame of support frame 4；Described thermocouple induction device 242 is arranged on below chip cut-off knife 241；Described low voltage and high current heating system 243 is connected to the two ends of hot knife cutting means 24, realizes the quick heating of chip cut-off knife 241；Described chip cut-off knife 242 surface has Teflon coating or plasma non cohesive gel coating.

With reference to Fig. 4, show that 1# servo-drive of the present invention and clutch switching mechanism schematic diagram, described 1# servo-drive and clutch switching mechanism 25 include servo drive 251, arrangement of clutch 252, train 253；Described servo drive 251 is arranged on upper bead filler front end conveying mechanism 26, and arrangement of clutch 252 is fixed on support frame 4 horizontal frame side, and train 253 is connected respectively with arrangement of clutch 252 and upper bead filler rear end conveying mechanism 23.

With reference to Fig. 5, show triangle rubber front end of the present invention conveying mechanism structural representation, described upper bead filler front end conveying mechanism 26 includes advance and retreat cylinder 261, front end sliding frame 262, tumble cylinder 263,261 1 sections of described advance and retreat cylinder is hinged on front end sliding frame 262, and the other end is hinged on 1# servo-drive and clutch switching mechanism 25；Described front end sliding frame 262 is slidably socketed the inside in upper bead filler front end conveying mechanism 26；Described tumble cylinder 263 is hinged on support frame 4 and front end sliding frame 262 in pairs.

With reference to Fig. 6, show the structural representation of sidewall of the present invention conveying device, described sidewall conveying device 3 includes transition connecting gear 31, sidewall rear end centering body 32, sidewall compressing glue mechanism 33, sidewall rear end conveying mechanism 34, ultrasonic knife cutting means 35,2# servo-drive and clutch switching mechanism 36, sidewall front end conveying mechanism 37, sidewall front end centering body 38；Described sidewall rear end centering body 32 is located at the lower section of low order end upper bead filler conveying device 3, is connected with sidewall compressing glue mechanism 33 on the left of it；Described sidewall rear end conveying mechanism 34 right-hand member is connected to sidewall compressing glue mechanism 33, connects ultrasonic knife cutting means 35 on the left of it；Described 2# servo-drive and clutch switching mechanism 36 are connected with ultrasonic knife cutting means 35 left end；It is connected on the right side of described sidewall front end conveying mechanism 37 on 2# servo-drive and clutch switching mechanism 36, be connected with sidewall front end centering body 38 on the left of it.

With reference to Fig. 7, show the structural representation of ultrasonic knife cutting means of the present invention, described ultrasonic knife cutting means 35 include adjustable support 351, ultrasonic wave cutter hub 352；Described adjustable support 351 is fixed in support frame 4；Described ultrasonic wave cutter hub 352 is suspended on below adjustable support 351, can the connection fulcrum between adjustable support 351 rotate.The adjustment of dynamic ground and the contact surface of sizing material and change the frequency of ultrasonic wave cutter hub 352 according to sizing material thickness change, can achieve and laterally or longitudinally shear sizing material, reach sizing material fracture and neatly smooth no glue and burn, and sizing material can smooth out adhesion after fitting on the drum；It is 25 ° it is ensured that tire dynamic and balance and homogeneity that sidewall cuts angle.

A kind of tyre shaping machine breaker ply feed frame implementation method, it includes once drum 1, support frame 2, upper bead filler conveying device 3 and sidewall conveying device 4；It is characterized in that: it comprises the following steps: the conveying of (1) upper bead filler, each portion material carries out centering by upper bead filler rear end centering body 21, it is adjacent to each portion material being carried out compacting through upper bead filler compressing glue mechanism 22, conveying mechanism 23 each portion materials in upper bead filler rear end are transported to hot knife cutting means 24 and realize rapidly and efficiently cutting glue, carry out material centering again by 1# servo-drive and 25 upper bead filler material transition of clutch switching mechanism to being delivered to upper bead filler front end centering body 27 to triangle rubber front end conveying mechanism 26；(2) sidewall conveying, complete the first centering of sidewall raw material by sidewall rear end centering body 32, realize sidewall is expected with carrying out compacting is adjacent to using sidewall compressing glue mechanism 33, the sidewall material of compacting is delivered to ultrasonic knife cutting means 35 and is correctly cut by sidewall rear end conveying mechanism 34, then by 2# servo-drive and clutch switching mechanism 36, the sidewall cutting material is delivered to the centering again that sidewall front end conveying mechanism 37 realization is conveyed to sidewall front end centering body 38.

To sum up, a kind of tyre building machine that the present invention provides once rouses feed frame and its implementation, stacked installation is become with sidewall conveying device using upper bead filler conveying device, and upper bead filler conveying device can release forward after overturn downwards again, this mechanism compares traditional stacked feed frame more save space；Adopt the quick severing upper bead filler of hot knife cutting means and ultrasonic knife cutting means laterally or longitudinally to shear sidewall sizing material, the sizing material cutting can be made more excellent, stable；Compact overall structure and be easily installed debugging, can be with high efficiency, the high-quality carcass shaping completing tire.

Simultaneously for one of ordinary skill in the art, according to the thought of the present invention, all will change in specific embodiments and applications, in sum, this specification content should not be construed as limitation of the present invention.

Claims (9)

1. a kind of tyre building machine once rouse feed frame it is characterised in that: it includes once rousing, upper bead filler conveying device, sidewall conveying device, support frame；Described once drum is located at forefront, upper bead filler conveying device is arranged on the internal upper strata of support frame, sidewall conveying device is arranged on the internal lower floor of support frame, and upper bead filler conveying device becomes the stacked longitudinal dead astern being arranged in once drum with sidewall conveying device；Described upper bead filler conveying device overturns after can releasing forward downwards again.

2. a kind of tyre building machine according to right 1 once rouse feed frame it is characterised in that: described upper bead filler conveying device includes upper bead filler rear end centering body, upper bead filler compressing glue mechanism, upper bead filler rear end conveying mechanism, hot knife cutting means, 1# servo-drive and clutch switching mechanism, upper bead filler front end conveying mechanism, upper bead filler front end centering body；Described upper bead filler rear end centering body is located at the rightmost side, is connected with upper bead filler compressing glue mechanism on the left of it；Described upper bead filler rear end conveying device right-hand member is connected to upper bead filler compressing glue mechanism, connects hot knife cutting means on the left of it；Described 1# servo-drive and clutch switching mechanism are connected with hot knife cutting means left end；It is connected on the right side of described upper bead filler front end conveying mechanism on 1# servo-drive and clutch switching mechanism, be connected with upper bead filler front end centering body on the left of it.

3. a kind of tyre building machine according to right 2 once rouse feed frame it is characterised in that: described hot knife cutting means include chip cut-off knife, thermocouple induction device , low voltage and high current heating system；Described chip cut-off knife is installed on the upper frame of support frame；Described thermocouple induction device is arranged on below chip cut-off knife；Described low voltage and high current heating system is connected to the two ends of hot knife cutting means.

4. a kind of tyre building machine according to right 3 once rouse feed frame it is characterised in that: described described chip cut-off knife, surface has Teflon coating or plasma non cohesive gel coating.

5. a kind of tyre building machine according to right 2 once rouse feed frame it is characterised in that: described 1# servo-drive and clutch switching mechanism include servo drive, arrangement of clutch, train；Described servo drive is arranged on the conveying mechanism of upper bead filler front end, and arrangement of clutch is fixed on support frame horizontal frame side, and train is connected respectively with arrangement of clutch and upper bead filler rear end conveying mechanism.

6. a kind of tyre building machine according to right 2 once rouses feed frame, it is characterized in that: described upper bead filler front end conveying mechanism includes advance and retreat cylinder, front end sliding frame, tumble cylinder, one section of described advance and retreat cylinder is hinged on the sliding frame of front end, and the other end is hinged on 1# servo-drive and clutch switching mechanism；Described front end sliding frame is slidably socketed in the inside of upper bead filler front end conveying mechanism；Described tumble cylinder is hinged on support frame and front end sliding frame in pairs.

7. a kind of tyre building machine according to right 1 once rouse feed frame it is characterised in that: described sidewall conveying device includes transition connecting gear, sidewall rear end centering body, sidewall compressing glue mechanism, sidewall rear end conveying mechanism, ultrasonic knife cutting means, 2# servo-drive and clutch switching mechanism, sidewall front end conveying mechanism, sidewall front end centering body；Described transition connecting gear mounted in pairs is located at the lower section of low order end upper bead filler conveying device, is connected with sidewall compressing glue mechanism on the left of it in the low order end longitudinal direction both sides of sidewall conveying device, sidewall rear end centering body；Described sidewall rear end conveying mechanism right-hand member is connected to sidewall compressing glue mechanism, connects ultrasonic knife cutting means on the left of it；Described 2# servo-drive and clutch switching mechanism are connected with ultrasonic knife cutting means left end；It is connected on the right side of described sidewall front end conveying mechanism on 2# servo-drive and clutch switching mechanism, be connected with sidewall front end centering body on the left of it.

8. a kind of tyre building machine according to right 7 once rouse feed frame it is characterised in that: described ultrasonic knife cutting means include adjustable support, ultrasonic wave cutter hub；Described adjustable support is fixed in support frame；Described ultrasonic wave cutter hub is suspended on below adjustable support, can the connection fulcrum between adjustable support rotate.

9. a kind of tyre shaping machine breaker ply feed frame implementation method, it includes once rousing, support frame, upper bead filler conveying device and sidewall conveying device；It is characterized in that: it comprises the following steps: the conveying of (1) upper bead filler, each portion material carries out centering by upper bead filler rear end centering body, it is adjacent to each portion material being carried out compacting through upper bead filler compressing glue mechanism, upper bead filler rear end conveying mechanism is transported to hot knife cutting means each portion material and realizes rapidly and efficiently cutting glue, by 1# servo-drive and clutch switching mechanism, upper bead filler material transition is carried out material centering again to being delivered to upper bead filler front end centering body to triangle rubber front end conveying mechanism；(2) sidewall conveying, complete the first centering of sidewall raw material by sidewall rear end centering body, realize sidewall is expected with carrying out compacting is adjacent to using sidewall compressing glue mechanism, the sidewall material of compacting is delivered to ultrasonic knife cutting means and is correctly cut by sidewall rear end conveying mechanism, then by 2# servo-drive and clutch switching mechanism, the sidewall cutting material is delivered to the centering again that the conveying mechanism realization of sidewall front end is conveyed to sidewall front end centering body.