KR101370565B1 - Device for detection of transfer ring off-center in the building machine - Google Patents

Abstract

The present invention relates to a device for detecting an eccentricity of a transfer ring in a tire molding machine. The device allows a worker to easily check and monitor eccentricity with the naked eye, which is generated during a process of matching the center of a transferred secondary semi-finished product case with the center of a primary semi-finished product case by mounting a scale ruler and an indicator at a fixing device for fixing the transfer ring, and improves uniformity and reduces conicity failure rates of a finished tire produced by vulcanizing an assembled green tire by adjusting the eccentricity of the secondary semi-finished product case through a first adjustment bolt through the scales of the scale ruler indicated by the indicator.

Description

Device for detection of transfer ring off-center in the building machine

The present invention relates to a transfer eccentric sensing device of a tire molding machine, and more particularly, when a secondary semifinished product case assembled in a molding process, which is a process of assembling a tire semifinished product, is transferred to a primary semifinished product case assembled by transferring. The present invention relates to a transfer eccentric sensing device of a tire molding machine which senses an amount of eccentricity that may be generated by transferring and fixes the secondary semifinished case to the center of the primary semifinished case.

As is well known, the assembly of the inner liner, body ply and sidewall on the molding machine in the molding process for assembling the semi-finished products constituting the tire is called the primary semi-finished case, and the assembly of the belt, shock ply and tread semi-finished product 2 It is called semi-finished car case.

Finally, the first semifinished product case and the second semifinished product case are assembled to produce the final tire before vulcanization. At this time, the second semifinished product case is transferred to the first semifinished product case position by a transfer ring to undergo a final assembly process.

Transferring is carried out at the center of the secondary semifinished case, and the fixing device is installed at the position under the transferring so that the transferring is located at the center. If the transfer ring is located in the center, the second semifinished product case is held in the state of being locked and stopped by the fixing device, then unlocked from the fixing device and transferred to the position of the first semifinished product case. Assembly of the case and the secondary semifinished case is carried out.

However, in the case of the conventional transfer ring fixing device, when the transfer ring is locked, the fixing device is configured so that the molding worker cannot visually check and detect whether the secondary semifinished case is located at the center of the first semifinished case when the transfer ring is locked. have.

In addition, the repeater operates 24 hours a day to generate deformation or flow while the locking device repeats the locking and unlocking processes in the transfer, causing an eccentricity when the transfer is fixed. .

When the second semifinished product case is transferred to the first semifinished product case with eccentric transfer, the final assembly is completed and the green tire is conicity when measuring uniformity on the finished product after vulcanization. There is a problem that causes a defect.

An object of the present invention for solving the above problems, when the movement of the secondary semi-finished case is repeatedly made by the transfer in the process of assembling and molding the primary semi-finished case and the second semi-finished case eccentricity due to flow and deformation In this case, the transfer eccentric sensing device of the tire forming machine is provided to prevent the eccentricity that may occur during the final assembly of the first semifinished product case and the second semifinished product case so that the operator can easily detect and confirm the naked eye. To provide.

The transfer eccentric sensing device of the tire molding machine of the present invention for achieving the above object, in the process of assembling the green tire by transferring the molded secondary semi-finished case on the primary semi-finished case molded by using the transfer ring A transfer ring eccentric sensing device for adjusting the eccentricity of the transfer ring so that the primary semifinished product case is coincident with the center of the first semifinished product case, the transfer eccentric sensing device comprising: a fixing plate fixedly installed at a lower bottom center of the molding machine in which the primary semifinished product case is assembled; It is movably raised between the first adjustment support end protruding along both edges of the first plate in the first direction on the plane of the fixing plate, the fixing ring is fixed to the transfer shaft of the transfer ring is fitted in the center and both sides of the center A movable block in which a long hole-shaped fixing hole penetrates the side portion; A first adjusting bolt penetrating both first adjusting support ends of the fixing plate and screwed to adjust the eccentricity of the movable block by pushing the movable block in the first direction according to the rotational feed amount; A fixing bolt which penetrates the fixing holes of the movable block, respectively, and is fixed to the fixing plate to fix the movable block eccentrically adjusted in the first direction on the fixing plate; A ruler extending along the first direction at both end portions in a second direction perpendicular to a first direction on a plane of the fixing plate; And an indicator installed at both sides of the second direction at the center of the movable block to protrude to recognize the eccentricity of the movable block by indicating the scales on the ruler at the center of the first direction. do.

Here, a second adjustment support end protrudes along both edges of the fixing plate in the second direction, and penetrates through the second adjustment support end to push the movable block in the second direction according to the rotational feed amount. And a second adjustment bolt to adjust the amount of eccentricity of the movable block.

In addition, the ruler is preferably fixed to the upper surface of the second adjustment support end.

In addition, a collar is inserted and fixed between the head portion of the fixing bolt and both sides of the fixing hole of the movable block, and the collar has an elliptical shape so as to correspond to the side wall surface of the central portion protruding steppedly of the movable block. It is preferable that one side is formed in a straight line.

According to the transfer eccentric sensing device of the tire molding machine of the present invention, the process of matching the center of the transported secondary semi-finished case to the center of the primary semi-finished case by installing a ruler and indicator on the fixing device for fixing the transfer ring Easily and easily check the visual appearance of the eccentricity generated in the assembling, and by adjusting the eccentricity of the secondary semi-finished case through the first adjustment bolt through the scale of the ruler indicated by the indicator By vulcanizing the green tire, there is an effect of improving the uniformity and conicity defects of the finished tire.

1 is a perspective view showing a transfer eccentric sensing device of a tire molding machine according to an embodiment of the present invention.
2 is a plan view of a transfer eccentric sensing device of the tire forming machine of FIG.
3 is a side cross-sectional view taken along line III-III of FIG. 2.
4 is a side cross-sectional view taken along line IV-IV of FIG. 2.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

1 is a perspective view showing a transfer eccentric sensing device of the tire molding machine according to an embodiment of the present invention, Figure 2 is a plan view of the transfer eccentric sensing device of the tire molding machine of Figure 1, Figure 3 is III of FIG. A side cross-sectional view taken along the line -III, and FIG. 4 is a side cross-sectional view taken along the line IV-IV of FIG.

1 to 4, the transfer eccentric sensing device 1 of the present embodiment includes a fixed plate 10, a movable block 20, a first adjusting bolt 30, and a second adjusting bolt 70. The second semifinished product case is configured to include a ruler 50 and an indicator 70. The secondary semifinished product case is assembled in the process of assembling the green tire by transferring the molded second semifinished product case onto the molded first semifinished product case using transferring. Eccentricity of the transfer ring can be easily confirmed and adjusted to match the center of the first semi-finished case.

The fixing plate 10 is fixedly installed at the bottom bottom center of the molding machine in which the first semifinished product case is assembled, and the first adjusting support end 11 protrudes upward along both edges of the first direction on a plane. A second adjustment support end 12 protrudes along both edges of the second direction crossing the direction.

The movable block 20 is mounted on the fixing plate 10 so as to be movable between the first adjusting support end 11 and the second adjusting support end 12 of the fixing plate 10, and protrudes stepwise. A fixing ring 25 into which the transfer shaft of the transfer ring is fitted is fixed to the formed central portion 21, and a long hole type fixing for fixing the fixing block 20 to both side portions 22 of the central portion 21. The ball 26 is formed through.

The first adjusting bolt 30 penetrates the first adjusting support ends 11 on both sides of the fixing plate 10 and is screwed to push the movable block 20 in the first direction according to the rotational feed amount. It is possible to adjust the amount of eccentricity of the block 20.

On the other hand, the second adjustment bolt 70 may be screwed through the second adjustment support end 12 to push the movable block in the second direction according to the rotational feed amount to adjust the eccentricity of the movable block. .

The fixing bolt 40 penetrates the fixing holes 26 of the movable block 20, respectively, and is fastened to the fixing plate 10 to be eccentrically adjusted in the first direction (or the second direction). 20 to be fixed on the fixing plate 10.

On the other hand, the collar 41 may be inserted and fixed between the head portion of the fixing bolt 40 and the upper surfaces of both side portions 22 on which the fixing hole 26 of the movable block 20 is formed.

Here, it is preferable that the collar 41 has an elliptical shape and one side is cut in a straight line shape so as to correspond to the side wall surface of the central portion 21 protruding steppedly of the movable block 20.

The ruler 50 extends along the first direction at both end portions of the fixing plate 10 in the second direction perpendicular to the first direction on the plane. In this embodiment, the ruler 50 is attached to the upper surface of the second adjustment support end 12 to illustrate that it is fixed.

In addition, the indicator 60 is installed at both sides of the second direction of the movable block 20 to indicate the scales on the ruler 50 at the center of the first direction to indicate an eccentric amount of the movable block 20. Is formed to protrude.

In addition, in the present embodiment, the ruler 50 and the indicator 60 are for checking and adjusting the eccentricity mainly generated along the second direction in the process of transferring the second semifinished case to match the center of the first semifinished case. Is installed so as to be installed and moved along the second direction, but the present invention is not necessarily limited thereto, and the ruler 50 and the indicator 60 may be moved in the first direction to measure the amount of eccentricity occurring along the first direction. It is also possible to install and move accordingly.

Therefore, in the process of forming the first semifinished product case and the second semifinished product case to form the green tire before the final vulcanization, the second semifinished product case is transferred to the molding machine in which the first semifinished product case is completed by transferring.

At this time, when the secondary semifinished product case transported by the trapping is located at the center of the primary semifinished product case, the movable block 20 is set such that the transfer shaft is lowered and the lower end of the feed shaft is positioned at the center of the fixing plate 10. The center of the secondary semifinished case is locked to the locking ring 25 formed in the central portion 21 of the transfer and transferred by the transfer ring to match the center of the primary semifinished case.

Here, by looking at the scale of the ruler 50 taught by the indicator 60 installed in the fixing block 20, the molding worker checks whether the center of the secondary semifinished case and the center of the primary case are located at the correct positions without being eccentric. And detectable.

In addition, in the case of eccentricity (off center) occurs when the transfer is fixed by generating a deformation or flow while repeating the locking (locking) and unlocking (unlocking) process of the transfer in a 24-hour repetitive operation, The operator checks the degree of eccentricity through the scale of the ruler 50 instructed by the indicator 60, and operates the first adjustment bolt 30 fastened to the first adjustment support end 11 of the fixing plate 10 to eccentric amount. Can be adjusted.

Here, the adjustment of the amount of eccentricity by releasing the locking state of the movable block 20 fixed to the fixing plate 10 by releasing the fixing bolt 40, the fixing block 20 through the first adjustment bolts 30 After adjusting the amount of eccentricity in the first direction by moving in the first direction, it is fixed by tightening again with a fixing bolt. Of course, it is also possible to adjust the eccentricity in the second direction by moving the fixing block 20 in the second direction by manipulating the second adjustment bolts 70.

As described above, the transfer eccentric sensing device 1 of the tire molding machine of the present embodiment is installed with the ruler 50 and the indicator 60 in the fixing device for fixing the transfer ring, and the center of the second semi-finished case transferred to the first semi-finished product. The first adjustment bolt 30 is provided through the scale of the ruler 50 indicated by the indicator 60, which enables the molding worker to easily check and monitor the naked eye, which occurs in the process of matching the center of the case. By compensating the eccentricity by manipulating), the assembled green tire can be vulcanized to improve the uniformity and conicity of the finished tire.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications or changes can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. In addition, it is natural that it belongs to the scope of the present invention.

10: fixed plate 11: first adjustment support
12: second adjusting support 20: movable block
21: center 22: both sides
25: retaining ring 26: fixing hole
30: first adjusting bolt 40: fixing bolt
41: color 50: ruler
60: indicator 70: second adjusting bolt

Claims (4)

In the process of assembling the green tire by transferring the molded secondary semifinished case onto the primary semifinished case molded using transferring, the eccentricity of the transfer ring is adjusted so that the secondary semifinished case coincides with the center of the first semifinished case. In the transfer eccentric sensing device to

A fixing plate fixedly installed at a lower bottom center of the molding machine in which the first semi-finished product case is assembled;
It is movably raised between the first adjustment support end protruding along both edges in the first direction on the plane of the fixing plate, the fixing ring to which the transfer shaft of the transfer ring is fitted in the center, and both sides of the center A movable block through which a long hole-shaped fixing hole is formed;
A first adjusting bolt penetrating both first adjusting support ends of the fixing plate and screwed to adjust the eccentricity of the movable block by pushing the movable block in the first direction according to the rotational feed amount;
A fixing bolt which penetrates the fixing holes of the movable block, respectively, and is fixed to the fixing plate to fix the movable block eccentrically adjusted in the first direction on the fixing plate;
A ruler extending along the first direction at both end portions in a second direction perpendicular to a first direction on a plane of the fixing plate;
Transferring eccentricity of the tire forming machine including; an indicator installed on both sides of the second direction in the center of the movable block protruding to indicate the eccentricity of the movable block by indicating the scales on the ruler in the center of the first direction; Sensing device.
In claim 1,
A second adjustment support end protrudes along both edges of the second direction in the fixing plate;

And a second adjusting bolt passing through the second adjusting support end and screwed to adjust the eccentricity of the movable block by pushing the movable block in the second direction according to the rotational feed amount. Device.
3. The method of claim 2,
The ruler,
Transferring eccentric detection device of the tire molding machine is fixed to the upper surface of the second adjustment support end.
In claim 1,
The collar is fitted and fixed between the head portion of the fixing bolt and both sides of the fixing hole of the movable block,
The collar is,
Transforming eccentric sensing device of the tire forming machine to form an oval shape, one side of which is cut in a straight line shape to correspond to the side wall surface of the central portion protruded stepwise of the movable block.

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