POWER TRANSMISSION DEVICE OF GREEN TIRE FORMING DRUM APPARATUS

Abstract

Disclosed is a power transmission device of a green tire forming drum apparatus. The green tire forming drum apparatus includes a carcass drum shaft, left and right forming drums mounted to the carcass drum shaft in a laterally symmetrical manner and being movable laterally in an axial direction of the carcass drum shaft, finger mounting supports for moving left and right turn-up fingers, respectively mounted to the left and right forming drums, up and down, and a driving unit for supplying power required for rotation& and later& movement of the forming drums and up/down movement of the turn-up fingers. Power generated by a lower servomotor of the driving unit is transmitted to the forming drums via pull/push plates connected to a ball screw, and power generated by an upper servomotor of the driving unit is transmitted to the turn-up fingers via pull/push plates connected to another bail screw.

Claims

1. A power transmission device of a green tire forming drum apparatus comprising a carcass drum shaft, left and right forming drums mounted to the carcass drum shaft in a laterally symmetrical manner and being movable laterally in an axial direction of the carcass drum shaft, finger mounting supports for moving left and right turn-up fingers, respectively mounted to the left and right forming drums, up and down, and a driving unit for supplying power required for rotational and lateral movement of the left and right forming drums and up/down movement of the left and right turn-up fingers, wherein power generated by a lower servomotor of the driving unit is transmitted to the left and right forming drums via left and right pull/push plates connected to a ball screw, and power generated by an upper servomotor of the driving unit is transmitted to the left and right turn-up fingers via left and right pull/push plates connected to another ball screw.

2. The power transmission device according to claim 1, wherein slide keyway bodies are mounted inside the carcass drum shaft in a contact manner, and four linear guide shafts are mounted inside one of the slide keyway bodies and are arranged equiangular to each other about a center of the slide keyway body.

3. The power transmission device according to claim 1, wherein four slide keyway bodies are mounted inside the carcass drum shaft in an independently slidable manner, and some of the slide keyway bodies are coupled to the left and right forming drums corresponding thereto by means of keys.

4. The power transmission device according to claim 2, wherein the linear guide shafts are mounted inside the slide keyway bodies in a slidable manner, and wherein rotational movement of the linear guide shafts relative to the slide keyway bodies is restricted, and rotational movement of the linear guide shafts relative to the pull/push plates is permitted.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0015] The above and other objects, features and other advantages of the present invention will be more clearly understood from the following detailed description taken in conjunction with the accompanying drawings, in which:

[0016] FIG. 1 is a schematic side view illustrating the constitution of a green tire forming drum apparatus, to which a power transmission device according to the present invention is applied;

[0017] FIG. 2A is a schematic constitutional view illustrating a power transmission mechanism of the power transmission device according to the present invention to rotate forming drums;

[0018] FIG. 2B is a schematic constitutional view illustrating a power transmission mechanism of the power transmission device according to the present invention to move forming drums laterally and to move turn-up fingers up and down;

[0019] FIG. 3 is an enlarged sectional view taken along line I-I in FIG. 2B; and

[0020] FIG. 4 is a partially enlarged sectional view of forming drums showing a green tire turn-up forming process using turn-up fingers in the present invention.

DETAILED DESCRIPTION OF THE INVENTION

[0021] Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings. Although preferred embodiments of the present invention will be described, it will be apparent that the technical spirit of the present invention can be practiced by those skilled in the art without being restricted or limited to the preferred embodiments.

[0022] FIG. 1 is a schematic side view illustrating the constitution of a green tire forming drum apparatus, to which a power transmission device according to the present invention is applied, FIG. 2A is a schematic constitutional view illustrating a power transmission mechanism of the power transmission device according to the present invention to rotate forming drums, and FIG. 2B is a schematic constitutional view illustrating a power transmission mechanism of the power transmission device according to the present invention to move forming drums laterally and to move turn-up fingers up and down. A green tire forming drum apparatus, to which a power transmission device is applied, comprises a carcass drum shaft 1, left and right forming drums 2a and 2b, which are mounted to the carcass drum shaft 1 in a laterally symmetrical manner and are movable laterally in the axial direction of the carcass drum shaft 1, finger mounting supports 4 for moving left and right turn-up fingers 3a and 3b, which are respectively mounted to the left and right forming drums 2a and 2b, up and down, and a driving unit 5 for supplying power required for rotational and lateral movement of the left and right forming drums 2a and 2b and up/down movement of the left and right turn-up fingers 3a and 3b. The power transmission device of this green tire forming drum apparatus is structured such that the power generated by a lower servomotor 6c of the driving unit 5 is transmitted to the left and right forming drums 2a and 2b via left and right pull/push plates 8, which are connected to a ball screw 7a, and the power generated by an upper servomotor 6b of the driving unit 5 is transmitted to the left and right turn-up fingers 3a and 3b via left and right pull/push plates 8, which are connected to another ball screw 7b.

[0023] As illustrated in FIGS. 2B and 3, slide keyway bodies 9a to 9d are mounted inside the hollow carcass drum shaft 1 in a contact manner, and four linear guide shafts 10 are mounted inside the slide keyway body 9d and are arranged equiangular to each other about the center of the slide keyway body 9d.

[0024] As illustrated in FIG. 2A, a servomotor 6a is connected to the carcass drum shaft 1, which is a drum rotating shaft for simultaneously rotating the left and right forming drums 2a and 2b, through a pulley and a timing belt 11. Therefore, when the servomotor 6a operates, the carcass drum shaft 1 is rotated, and consequently the left and right forming drums 2a and 2b are rotated at the same time.

[0025] Each of the upper and lower servomotors 6b and 6c is connected to a corresponding one of the ball screws 7b and 7a through a corresponding one of pulleys and a corresponding one of timing belts 11. A pair of pull/push plates 8 is coupled to the ball screw 7a and another pair of pull/push plates 8 is also coupled to the ball screw 7b in a laterally movable manner along the axial direction of the ball screws.

[0026] Here, the four slide keyway bodies 9a to 9d are configured to independently slide inside the carcass drum shaft 1, and some slide keyway bodies 9a and 9b are coupled to the corresponding left and right forming drums 2a and 2b by means of keys.

[0027] The linear guide shafts 10 are mounted inside the slide keyway bodies 9a to 9d in a slidable manner. Rotational movement of the linear guide shafts 10 relative to the slide keyway bodies 9a to 9d is restricted, and rotational movement of the linear guide shafts 10 relative to the pull/push plates 8 is permitted.

[0028] The ball screws 7a and 7b, which are used for lateral movement of the left and right forming drums 2a and 2b and up/down movement of the left and right turn-up fingers 3a and 3b, are arranged such that the spiral threads of the ball screw 7a have an orientation opposite to the spiral threads of the ball screw 7b.

[0029] The operation of the green tire forming drum apparatus, to which the power transmission device according to the present invention is applied, will now be explained with reference to the drawings.

[0030] First, semi-finished products for manufacturing a tire are wound around the left and right forming drums 2a and 2b in the green tire forming drum apparatus depicted in FIG. 1. At this time, as illustrated in FIG. 2A, the rotating force generated by the servomotor 6a is transmitted to the carcass drum shaft 1 via the pulley and the timing belt 11, and accordingly the left and right forming drums 2a and 2b, which are arranged in a laterally symmetrical manner about the middle point in the axial direction of the carcass drum shaft 1, are rotated so that the semi-finished products are sequentially wound around the left and right forming drums 2a and 2b according to the manufacturing procedures.

[0031] That is, the power for rotating the left and right forming drums 2a and 2b is transmitted as follows: the servomotor 6a.fwdarw.the pulley.fwdarw.the timing belt 11.fwdarw.the carcass drum shaft 1.fwdarw.the left and right forming drums 2a and 2b.

[0032] On the other hand, with regard to lateral movement of the finger mounting supports 4 for generating lateral movement of the left and right forming drums 2a and 2b and for generating up/down movement of the left and right turn-up fingers 3a and 3b, as indicated by the arrows in FIG. 4, the rotating force generated by each of the upper and lower servomotors 6b and 6c is transmitted to a corresponding one of the ball screws 7b and 7a via a corresponding one of the pulleys and a corresponding one of the timing belts 11, and the pull/push plates 8 are moved in the directions of the arrows in FIG. 2B. Accordingly, the linear guide shafts 10 and the slide keyway bodies 9a to 9d are moved laterally, and consequently the finger mounting supports 4 are moved laterally in order to move the left and right forming drums 2a and 2b laterally and to move the left and right turn-up fingers 3a and 3b up and down.

[0033] That is, the power for moving the left and right forming drums 2a and 2b laterally and for moving the left and right turn-up fingers 3a and 3b up and down is transmitted as follows: the upper and lower servomotors 6b and 6c .fwdarw.the pulleys.fwdarw.the timing belts 11.fwdarw.the ball screws 7a and 7b.fwdarw.the pull/push plates 8.fwdarw.the linear guide shafts 10.fwdarw.the slide keyway bodies 9a to 9d.fwdarw.the left and right forming drums 2a and 2b and the left and right turn-up fingers 3a and 3b.

[0034] At this time, the slide keyway bodies 9a to 9d slide in the hollow carcass drum shaft 1, and one of the linear guide shafts 10, which are mounted in four holes formed in the slide keyway body 9d, is fixed, and the remaining linear guide shafts perform sliding movement.

[0035] Only one of the linear guide shafts 10, which are located at positions equidistant from the center of the carcass drum shaft 1 and are arranged equiangular to each other, is mounted to the slide keyway bodies 9a to 9d in a fixed manner, and the remaining linear guide shafts 10 are mounted to the slide keyway bodies 9a to 9d in a slidable manner. For example, as illustrated in FIG. 2B, only the uppermost linear guide shaft 10 is fixed to the first slide keyway body 9d from the right side, and the remaining three linear guide shafts perform sliding movement. Three linear guide shafts 10 are mounted to the second slide keyway body 9c from the right side. Only the intermediate linear guide shaft is fixed to the second slide keyway body 9c from the right side, and the remaining two linear guide shafts perform sliding movement.

[0036] Two linear guide shafts 10 are mounted to the second slide keyway body 9b from the left side, one of which is fixed to the second slide keyway body 9b from the left side, and the other of which performs sliding movement. Only one linear guide shaft 10 is fixed to the first slide keyway body 9a from the left side.

[0037] As such, movement of each of the linear guide shafts 10 is restricted by a corresponding one of the slide keyway bodies 9a to 9d, and a bundle of four linear guide shafts 10 can perform rotating movement inside the carcass drum shaft 1 and the pull/push plates 8.

[0038] As described above, the rotational and lateral movement of the left and right forming drums and the up/down movement of the left and right turn-up fingers may be precisely controlled at the same time using the multiple linear guide shafts, which are disposed inside the single rotatable carcass drum shaft and are connected to the servomotors, thereby forming a high quality green tire.

[0039] As is apparent from the above description, the present invention provides a power transmission device of a green tire forming drum apparatus, which is capable of controlling a position, a speed and a torque of left and right turn-up fingers more precisely than a conventional power transmission device, which drives left and right turn-up fingers using an air cylinder, thereby improving the quality of a green tire, and is capable of reducing the diameter of a carcass drum shaft, which is a drum rotating shaft, thereby decreasing the layout of the apparatus and increasing the degree of design freedom of the apparatus.

[0040] Although a preferred embodiment of the present invention has been shown and described, it would be appreciated by those skilled in the art that changes may be made in this embodiment without departing from the principles and sprit of the invention, the scope of which is defined in the claims and their equivalents.