CN101200106A - Feeding adjusting device of tyre forming machine and method thereof - Google Patents

Abstract

The invention provides a feeding regulating device of a tire building machine and a method of the device. A regulating device is arranged at the outer side of a left and a right wall board and is connected at the two sides of a feeding template through a transmission shaft arranged horizontally. A linkage cylinder of the regulating device is connected downward with a synchronous shaft whose lateral direction is connected respectively with a synchronous template and a linkage template; a lifting cylinder of the regulating device is connected with the other side of the synchronous template; the lifting oscillation of the linkage template is in side control by the linkage cylinder driving the synchronous shaft; one side of the raising oscillation of the linkage template is in linkage control by the linkage cylinder driving the synchronous shaft, meanwhile the other side is in linkage control by the connected lifting cylinder; the falling oscillation of the synchronous template is in linkage control only by the lifting cylinder connected with the side of the synchronous template. The invention realizes the control and regulation of different lifting oscillation status of every feeding template, the synchronous oscillation between the templates is realized.

Description

The feeding adjusting device of tyre building machine and method thereof

Technical field

The present invention relates to a kind of feeding adjusting device and method thereof that is applied to tyre building machine, belong to the rubber processing machinery field.

Background technology

Tire is that member is carried out in the main action of motor vehicles, and the quality of tire crudy is determining the whether stable of its performance, whether meets processing criterion and requires directly to determine the safe handling of motor vehicles.In the rubber tyre process, applying, the pressing processing of each parts of tire semi-products on assembly drum is the key point that influences the finished tire quality standard at present.

Conveying, feed for multilayer doses such as cord, inner liner, belts are the step prefaces of wherein outbalance.Existing conveying feeding device for above-mentioned material, generally be that descending operation for every kind of material disposes special driving and transmission device, thereby cause whole rack construction comparatively complicated, take up room greatly, manufacturing cost also is unfavorable for the maintenance of part of appliance when improving.

Summary of the invention

The feeding adjusting device of tyre building machine of the present invention and method thereof are to address the above problem and in the left and right sidesing wall plate arranged outside adjusting device are arranged, and adjusting device is connected the both sides of feed template by the power transmission shaft of horizontally set.The linkage air cylinder of adjusting device is connected with a synchronizing shaft downwards, and the side direction of synchronizing shaft connects synchronization template and interlock template respectively, and the lift cylinder of adjusting device is connected the other side of synchronization template.

The lifting and swinging of interlock template drives synchronizing shaft by linkage air cylinder and carries out the control of sidepiece interlock; The rise swing of described synchronization template, a side are to drive the control of synchronizing shaft interlock by linkage air cylinder, and opposite side is by the lift cylinder interlock control that is connected simultaneously; The decline swing of described synchronization template only is the lift cylinder interlock control that is connected by its sidepiece.

The objective of the invention is to, realize the control and the adjusting of the different lifting and swinging states of each feed template, realize swing synchronously between the template.

Another goal of the invention is, simplifies the structure of existing feeding adjusting device, saves unnecessary driving mechanism, reduces the supporting cost of equipment and takes up room.

For achieving the above object, the feeding adjusting device of described tyre building machine mainly includes:

Be connected the feed template between the left and right sidesing wall plate, and the template adjusting device that is fixed on the left and right sidesing wall plate outside, the template adjusting device is connected the both sides of feed template by the power transmission shaft of horizontally set.

Improvements of the present invention are, described feed template comprises two-layer at least synchronization template and one deck interlock template at least;

Described template adjusting device includes, and is separately positioned on a linkage air cylinder and the lift cylinder identical with synchronization template quantity in the left and right sidesing wall plate outside;

Described linkage air cylinder is connected with a synchronizing shaft downwards, and the side direction of synchronizing shaft connects synchronization template and interlock template respectively;

Described each lift cylinder is connected to the other side of synchronization template.

As above-mentioned scheme feature, the synchronizing shaft that described linkage air cylinder connects downwards, its side direction connects synchronization template and interlock template respectively.

Corresponding each synchronization template is provided with the lift cylinder of its jacking condition of control, is connected to the front end sidepiece of synchronization template.

The lifting and swinging of described interlock template drives synchronizing shaft by linkage air cylinder and carries out the control of sidepiece interlock.

The rise swing of described synchronization template, a side are to drive the control of synchronizing shaft interlock by linkage air cylinder, and opposite side is by the lift cylinder interlock control that is connected simultaneously.The decline swing of described synchronization template only is the lift cylinder interlock control that is connected by its sidepiece.

For guaranteeing that linkage air cylinder drives synchronism, the uniformity of feed template, further improvement project is that described each layer feed template is provided with horizontal power transmission shaft.The outboard end of power transmission shaft is socket one rocking arm axially, and rocking arm is buckled in respectively on the bearing pin of described synchronizing shaft sidepiece to drive the rotation of power transmission shaft.

Be arranged with a connecting seat on the power transmission shaft of the madial wall that closes on left and right sidesing wall plate, Connection Block is connected with corresponding templates and drives the synchronous rotation of each template and power transmission shaft by Connection Block.

For guaranteeing that lift cylinder drives synchronism, the uniformity of synchronization template, further improvement is that the cylinder rod on the lift cylinder is fixed on the outside mount pad of wallboard; The lower end of lift cylinder is socketed on the fixed axis of front end sidepiece of described synchronization template.

For realizing that the moment of torsion that rocking arm rotates can synchronously be passed to power transmission shaft, on power transmission shaft described rocking arm inboard, on the synchronization template, be arranged with a fixture block, fixture block and power transmission shaft are fixed together with the interlock of drive power transmission shaft and rocking arm.

Being provided with a projection at described rocking arm with a relative side of fixture block, is that the sidepiece at fixture block is provided with the chute of an indent for the sidewall rotational slide of projection along fixture block accordingly.

Because above-mentioned linkage air cylinder is not controlled the decline swing of described synchronization template, therefore when the gas bar of linkage air cylinder promotes interlock template decline swing, the rotation of described synchronizing shaft is not passed to the power transmission shaft of synchronization template by rocking arm, refinement scheme with regard to this feature is, the chute of described fixture block is the long arc shape groove, and its arc length is greater than the bump width of described rocking arm.

Be the synchronism of rotating between the rocking arm of realizing the interlock template and its power transmission shaft, be provided with the locating slot of an indent at the rocking arm inner hole place of described interlock template end, and closely cooperate with drive power transmission shaft interlock with the locating convex block of power transmission shaft.

The control method of using the feeding adjusting device of above-mentioned tyre building machine is that feed template is connected between the left and right sidesing wall plate by the adjusting device in its outside; Described linkage air cylinder is connected with a synchronizing shaft downwards, and the side direction of synchronizing shaft connects two-layer at least synchronization template and one deck interlock template at least respectively; With the identical lift cylinder of described synchronization template quantity, be connected to the front end sidepiece of each synchronization template;

The lifting and swinging of described interlock template drives synchronizing shaft by linkage air cylinder and carries out the control of sidepiece interlock;

The rise swing of described synchronization template, a side are to drive the control of synchronizing shaft interlock by linkage air cylinder, and opposite side is by the lift cylinder interlock control that is connected simultaneously; The decline swing of described synchronization template only is the lift cylinder interlock control that is connected by its sidepiece.

For realizing above-mentioned control method, at the axially sheathed rocking arm of outboard end of the horizontal power transmission shaft of each layer feed template, rocking arm is buckled on the bearing pin of described synchronizing shaft sidepiece to drive the interlock of power transmission shaft;

The Connection Block that is set on the power transmission shaft is connected with corresponding templates;

Described linkage air cylinder drives the synchronizing shaft elevating movement, and the bearing pin on the synchronizing shaft drives rocking arm, drives the power transmission shaft rotation by rocking arm, drives the template lifting and swinging when power transmission shaft rotates.

For the decline that realization is controlled the interlock template separately by linkage air cylinder is put: on the power transmission shaft on rocking arm inboard, the synchronization template, be arranged with a fixture block;

At rocking arm sidepiece one projection is set with respect to fixture block, the fixture block sidepiece be provided with an indent, the long arc shape chute;

Along the sidewall rotational slide of fixture block, the rocking arm and the power transmission shaft that are driven by synchronizing shaft rotate described projection synchronously in chute;

Drive described synchronization template at the lift cylinder of sidepiece and descend in the process of swing, projection rotates in the long arc shape chute greater than its width, and does not promote the rotation of the fixture block of described synchronization template end.

Content to sum up, the feeding adjusting device and the method thereof of described tyre building machine have the following advantages:

1, according to the operation requirement of tire building processing, realized the interlock control of synchronization template with interlock template jacking condition, can control the different lifting and swinging states of each feed template with minimum drive unit.

2, can simplify the structure of existing feeding adjusting device, save unnecessary driving mechanism, reduce the supporting cost of equipment and take up room.

Description of drawings

Now the present invention is described further in conjunction with the accompanying drawings,

Fig. 1 is the structural representation of described feeding adjusting device;

Fig. 2 is the partial cutaway schematic of described feed template;

Fig. 3 is the schematic diagram of described lift cylinder;

Fig. 4 is the rocking arm schematic diagram of the power transmission shaft end of described synchronization template;

Fig. 5 is the structural representation of described fixture block;

Fig. 6 is the rocking arm schematic diagram of the power transmission shaft end of described interlock template;

Fig. 7 is Fig. 1 side direction partial structurtes schematic diagrames;

Extremely shown in Figure 7 as Fig. 1, left and right sidesing wall plate 1, synchronization template 2, interlock template 3, linkage air cylinder 4, synchronizing shaft 41, bearing pin 42, lift cylinder 5, mount pad 51, cylinder rod 52, power transmission shaft 6, rocking arm 61, projection 611, locating slot 612, Connection Block 62, fixed axis 63, fixture block 64, chute 641, fixed hinge 7.

The specific embodiment

Embodiment 1, to shown in Figure 7, uses the tyre building machine of described feeding adjusting device and method thereof as Fig. 1, and its frame connects left and right sidesing wall plate 1 respectively by fixed hinge 7.

Between left and right sidesing wall plate 1, be connected with feed template, and the template adjusting device that is fixed on left and right sidesing wall plate 1 outside.

Feed template comprises two-layer synchronization template 2 and one deck interlock template 3.

The template adjusting device includes independently lift cylinder 5 of linkage air cylinder 4 being arranged on left and right sidesing wall plate 1 outside and 2.

Linkage air cylinder 4 is connected with a synchronizing shaft 41 downwards, and the sidepiece of this synchronizing shaft 41 is connected with bearing pin 42.

The cylinder rod 52 of lift cylinder 5 upper ends is fixed on the outside mount pad 51 of wallboard 1, and the lower end of lift cylinder 5 is socketed on the fixed axis of front end sidepiece of synchronization template 2 on 63.

Synchronization template 2 and interlock template 3 are provided with horizontal power transmission shaft 6, and the outboard end of power transmission shaft 6 is socket one rocking arm 61 axially, and rocking arm 61 is buckled in respectively on the bearing pin 42 to drive the rotation of power transmission shaft 6.

Be arranged with a connecting seat 62 on the power transmission shaft 6 of the madial wall that closes on left and right sidesing wall plate 1, Connection Block 62 is connected with corresponding synchronization template 2, the template 3 that links, and drives the synchronous rotation of each template and power transmission shaft 6 by Connection Block 62.

On power transmission shaft 6 rocking arm 61 inboards, on the synchronization template 2, be arranged with a fixture block 64, be provided with a projection 611 at rocking arm 61 with a relative side of fixture block 64, be accordingly, the sidepiece of fixture block 64 be provided with an indent, for the chute 641 of projection 611 along the sidewall rotational slide of fixture block 64.

The chute 641 of described fixture block 64 is long arc shape grooves, and its arc length is greater than the width numerical value of the projection 611 of described rocking arm 61.

At the endoporus place of the rocking arm 61 of interlock template 3 ends, be provided with the locating slot 612 of an indent, locating slot 612 closely cooperates to drive the interlock of power transmission shaft 6 with the locating convex block of power transmission shaft 6.

The described feed control method of present embodiment, the lifting and swinging of described interlock template 3 drives synchronizing shaft 6 by linkage air cylinder 4 and carries out the control of sidepiece interlock.

The rise swing of described synchronization template 2, a side are to drive the control of synchronizing shaft 6 interlocks by linkage air cylinder 4, and opposite side is by the lift cylinder 5 interlocks control that is connected simultaneously.

The decline swing of described synchronization template 2 only is the lift cylinder 5 interlocks control that is connected by its sidepiece.

When linkage air cylinder 4 drove synchronizing shafts 41 and upwards rises, the bearing pin 42 on the synchronizing shaft 41 drives rocking arms 61, drive power transmission shafts 6 by rocking arm 61 rotated, and power transmission shaft 6 drives synchronization template 2 when rotating, interlock template 3 is done simultaneously and risen swing.

In this process, projection 611 along the sidewall rotational slide of fixture block 64, when projection 611 promotes fixture block 64 rotations, realizes that just rocking arm 61 drives the synchronous rotation of power transmission shafts 6 in chute 641.

For interlock template 3, the operation that its decline has been put is opposite with the process that rising has been put, and all is to drive synchronizing shafts 41 by linkage air cylinder 4, and the interlock of realizing by synchronizing shaft 41, rocking arm 61, fixture block 64 and power transmission shaft 6 is controlled successively.

And for synchronization template 2, when linkage air cylinder 4 drive synchronizing shafts 41 upwards rise, the downward simultaneously recovery cylinder rod 52 of the lift cylinder 5 of its sidepiece, then synchronization template 2 is synchronously upwards put.

When linkage air cylinder 4 drives synchronizing shaft 41 whereabouts, owing to projection 611 rotates in greater than the long arc shape chute 641 of its width, thereby the rocking arm 61 of the power transmission shaft 6 of connection synchronization module 2, its projection 611 only is the rotation that idle running can't promote fixture block 64.When just linkage air cylinder 4 drove synchronizing shaft 41 whereabouts, synchronization module 2 was not influenced by it.

When the synchronization module 2 pendulum time-outs that descend, be by lift cylinder 5 push-and-pull cylinder rod 52 upwards, and then promote on the fixed axis 63, to play synchronization template 2 to the bottom by cylinder rod 52.

As mentioned above, present embodiment only is described with regard to the preferred embodiments of the present invention in conjunction with the accompanying drawings.Can take a hint in view of the above for one of ordinary skill in the art, and direct derivation goes out to meet other alternative structure of design concept of the present invention, other architectural features that obtain thus also should belong to scheme scope of the present invention.

Claims (10)

1. the feeding adjusting device of a tyre building machine, comprise the feed template that is connected between the left and right sidesing wall plate, and the template adjusting device that is fixed on the left and right sidesing wall plate outside, the template adjusting device is connected the both sides of feed template by the power transmission shaft of horizontally set, it is characterized in that:

Described feed template comprises two-layer at least synchronization template and one deck interlock template at least;

Described template adjusting device includes, and is separately positioned on a linkage air cylinder and the lift cylinder identical with synchronization template quantity in the left and right sidesing wall plate outside;

Described linkage air cylinder is connected with a synchronizing shaft downwards, and the side direction of synchronizing shaft connects synchronization template and interlock template respectively;

Described each lift cylinder is connected to the other side of synchronization template.

2. the feeding adjusting device of tyre building machine according to claim 1, it is characterized in that: described each layer feed template is provided with horizontal power transmission shaft;

The outboard end of power transmission shaft is socket one rocking arm axially, and rocking arm is buckled in respectively on the bearing pin of described synchronizing shaft sidepiece to drive the rotation of power transmission shaft;

Be arranged with a connecting seat on the power transmission shaft of the madial wall that closes on left and right sidesing wall plate, Connection Block is connected with corresponding templates and drives the synchronous rotation of each template and power transmission shaft by Connection Block.

3. the feeding adjusting device of tyre building machine according to claim 1 and 2 is characterized in that: described lift cylinder, and the cylinder rod of its upper end is fixed on the outside mount pad of wallboard;

The lower end of lift cylinder is socketed on the fixed axis of front end sidepiece of described synchronization template.

4. the feeding adjusting device of tyre building machine according to claim 2 is characterized in that: be arranged with a fixture block on power transmission shaft described rocking arm inboard, on the synchronization template, fixture block and power transmission shaft are fixed together to drive the interlock of power transmission shaft and rocking arm.

5. the feeding adjusting device of tyre building machine according to claim 4, it is characterized in that: being provided with a projection at described rocking arm with a relative side of fixture block, is that the sidepiece at fixture block is provided with the chute of an indent for the sidewall rotational slide of projection along fixture block accordingly.

6. the feeding adjusting device of tyre building machine according to claim 5, it is characterized in that: the chute of described fixture block is the long arc shape groove, and its arc length is greater than the bump width of described rocking arm.

7. according to the feeding adjusting device of claim 2 or 6 described tyre building machines, it is characterized in that: be provided with the locating slot of an indent at the rocking arm inner hole place of described interlock template end, and closely cooperate to drive the power transmission shaft interlock with the locating convex block of power transmission shaft.

8. the feed control method of a tyre building machine is characterized in that: feed template is connected between the left and right sidesing wall plate by the adjusting device in its outside;

Described linkage air cylinder is connected with a synchronizing shaft downwards, and the side direction of synchronizing shaft connects two-layer at least synchronization template and one deck interlock template at least respectively;

With the identical lift cylinder of described synchronization template quantity, be connected to the front end sidepiece of each synchronization template;

The lifting and swinging of described interlock template drives synchronizing shaft by linkage air cylinder and carries out the control of sidepiece interlock;

The rise swing of described synchronization template, a side are to drive the control of synchronizing shaft interlock by linkage air cylinder, and opposite side is by the lift cylinder interlock control that is connected simultaneously;

The decline swing of described synchronization template only is the lift cylinder interlock control that is connected by its sidepiece.

9. the feed control method of tyre building machine according to claim 8, it is characterized in that: at the axially sheathed rocking arm of outboard end of the horizontal power transmission shaft of each layer feed template, rocking arm is buckled on the bearing pin of described synchronizing shaft sidepiece to drive the interlock of power transmission shaft;

The Connection Block that is set on the power transmission shaft is connected with corresponding templates;

Described linkage air cylinder drives the synchronizing shaft elevating movement, and the bearing pin on the synchronizing shaft drives rocking arm, drives the power transmission shaft rotation by rocking arm, drives the template lifting and swinging when power transmission shaft rotates.

10. the feed control method of tyre building machine according to claim 9 is characterized in that: be arranged with a fixture block on the power transmission shaft on rocking arm inboard, the synchronization template;

At rocking arm sidepiece one projection is set with respect to fixture block, the fixture block sidepiece be provided with an indent, the long arc shape chute;

Along the sidewall rotational slide of fixture block, the rocking arm and the power transmission shaft that are driven by synchronizing shaft rotate described projection synchronously in chute;

Drive described synchronization template at the lift cylinder of sidepiece and descend in the process of swing, projection rotates in the long arc shape chute greater than its width, and does not promote the rotation of the fixture block of described synchronization template end.

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