KR101246018B1 - Manufacturing Method of Radial Tire for Airplane - Google Patents

Abstract

According to the present invention, by designating the attachment position of the lymph flange rubber composition in the radial tire manufacturing process for aircraft, and attaching the lymph flange rubber composition to the forming drum first, the volume of the wire bead portion located inside the tire is sufficiently secured and the carcass Not only can it prevent the code exposure, but also improves the shape stability of the tire after mounting with the rim by improving the left and right shake of the tire during operation of aircraft tires. The stitching process for seating the composition is omitted to prevent the lymphatic rubber composition from being pushed or squeezed to provide a method for manufacturing a radial tire for an aircraft that can maintain a constant thickness of the lymphatic rubber composition.
To this end, the present invention provides a method for manufacturing a radial tire for an aircraft, comprising: a first step of first attaching a lymphrange rubber composition in a circumferential direction from an end of a forming drum; An inner liner and a backup liner attached to the forming drum on the forming drum, and a carcass cord, a wire bead, and an afax rubber composition are sequentially attached to each of the forming drums, and a cuff strip rubber composition is attached to both sides of the forming drum, respectively. Process; A third step of rolling up the lymphatic rubber composition attached in the circumferential direction of the forming drum onto the forming drum on both sides of the forming drum to surround the wire bead attached to the forming drum; And a fourth step of attaching the sidewall rubber composition to the sides of the forming drum, respectively.

Description

Manufacturing Method of Radial Tire for Airplane

The present invention relates to a method of manufacturing a radial tire for an aircraft, and more particularly, by attaching a lymphatic rubber composition in the manufacturing process of a radial tire for an aircraft and then specifying an attachment position of the lymphatic rubber composition inside the tire, Aircraft prevents carcass cord exposure from inner wire bead and secures enough rubber composition of radial bead wire bead to improve tire shape stability during tire operation after rim installation It relates to a radial tire manufacturing method.

In general, a method of manufacturing a radial tire for an aircraft includes mounting an inner liner and a backup liner on a forming drum, and then attaching a multilayer carcass cord, a circular cable bead, and an afax rubber composition to the upper side of the backup liner, and then multilayering it again. Attach the carcass cord.

Further, the primary molded case is completed by attaching the chaper strip rubber composition, the lymphage rubber composition, and the sidewall rubber composition to the upper side of the multilayer carcass cord at each designated position.

Among the rubber compositions attached in this way, the chafer strip rubber composition has excellent characteristics in excessive heat generation in the upper part of the apex and the carcass cord layer near the apex, which occurs during the operation of the tire, The rubber composition, which completely wraps the wire beed, serves to increase the seatability of the finished product with the rim.

Therefore, in the first molding process, the lymphatic rubber composition, which is relatively weak to heat generation, should be placed after attaching the chafer strip rubber composition. The composition is then attached.

Place the completed primary molded case on the shaping drum and add air pressure inside to attach the belt package, under tread rubber composition, protect cord and tread rubber composition to the expanded primary molded case to form the shape of the case. Finally, the green case is completed.

During the production process of the primary molded case, the lymphage rubber composition completes the attachment of the outermost carcass cord and wraps the wire bead after attaching the chafer strip rubber composition.

However, the conventional method of manufacturing a radial tire for an aircraft includes a gap between a forming drum and a semi-finished product in a state where an inner liner, a backup liner, a carcass cord, a wire bead, an afax rubber composition, and a chafer strip rubber composition are seated on the forming drum. Since the lymphatic rubber composition is to be placed to wrap the wire bead, there is a problem that it is difficult to wrap the lymphatic rubber composition in the wire bead.

In addition, the inner liner located in the wire bead of the completed primary molded case, the backup liner and the lymph flange rubber composition do not overlap completely, which causes carcass cord exposure to the wire bead inside the tire after mass production of the tire. There is this.

In addition, the conventional tire manufacturing method for attaching the carcass cord and the chafer strip rubber composition and then attaching the lymphangered rubber composition is such that the inner liner of the finished tire, the backup liner and the lymphange rubber composition are overlapped. Although not exposed, the stitching operation is performed so that the lymphatic rubber composition is completely attached to the molded case. In this process, the lymphatic rubber composition is pushed down by the stitching pressure, and the thickness of the existing lymphange rubber composition is reduced. There is a problem that the entire volume of the wire bead together located inside the tire is not secured sufficiently.

In addition, when operating the tires for the aircraft after the rim is mounted, it requires the shape stability of the tire under the conditions of overload and high speed, but if the volume of the weed bead located inside the tire is too small, In addition to falling, the tire is shaken from side to side due to lack of the volume inside the tire, there is a problem that the form safety during operation of the tire is reduced.

The present invention has been made to solve the problems occurring in the manufacturing process of the conventional radial tires for aircraft, prior to the attachment of the lymphatic rubber composition in the manufacturing process of the radial tire for the aircraft and the attachment of the lymphatic rubber composition inside the tire By designating the position, the inner volume of the radial tire for the aircraft is secured to prevent exposure of carcass codes that may occur in the wire bead placed inside the tire, and the shape of the tire under the conditions of high-load and high-speed aircraft tire operation. It is an object of the present invention to provide a method for manufacturing a radial tire for an aircraft to increase the stability.

Radial tire manufacturing method of the present invention as a means for achieving the above object, first attaching the rubber flange composition in the circumferential direction from the end of the forming drum, and attaching the inner liner and backup liner on the forming drum to the forming drum Carcass cord, wire bead, Apex rubber composition are attached to each other in sequence, and after attaching the chafer strip rubber composition to both sides of the forming drum, the lymphatic rubber composition attached to the circumferential direction of the forming drum Rolling up the forming drum on both sides of the forming drum to surround the wire bead attached to the forming drum, and then attach the sidewall rubber composition to the sides of the forming drum, respectively.

In addition, the attachment position of the lymph-range rubber composition attached to the circumferential direction of the forming drum from the end of the forming drum, is attached to the upper end of 100 to 120% of the diameter of the wire bead at the end of the wire bead, the backup liner According to the change of the width, the width of the backup liner is changed by being changed by the changing range.

According to the present invention, by designating the attachment position of the lymph flange rubber composition in the radial tire manufacturing process for aircraft, and attaching the lymph flange rubber composition to the forming drum first, the volume of the wire bead portion located inside the tire is sufficiently secured and the carcass Not only can it prevent the code exposure, but also improves the shape stability of the tire after mounting with the rim by improving the left and right shake of the tire during operation of aircraft tires. The stitching process for seating the composition may be omitted to prevent the lymphatic rubber composition from being pushed or pressed, thereby maintaining a constant thickness of the lymphatic rubber composition.

1 is a conceptual view showing a process of the radial tire manufacturing method for the present inventors.
Figure 2 is a cross-sectional view of the molded case of the radial tire mass-produced by the method of manufacturing a radial tire for an aircraft of the present invention.

Hereinafter, the structure and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

As shown in the present invention, a radial tire manufacturing method for an aircraft includes a first step of first attaching a lymphange rubber composition (1) in a circumferential direction from an end of a forming drum (100), and an inner liner on the forming drum (100). (2) and backing liner (3) are attached in sequence, carcass cord (4), wire bead (5), and afax rubber composition (6) are attached in sequence, and cuff strip rubber composition (7) The wire bead attached to the forming drum 100, the second step of attaching to each side of the forming drum 100, and the lymphatic rubber composition (1) attached in the circumferential direction of the forming drum 100 The third step of rolling up from the both sides of the forming drum 100 to the upper side of the forming drum 100 so that the (5) is wrapped, and attaching the side wall rubber composition (8) to the side of the forming drum 100, respectively The fourth step is included.

The lymph flange rubber composition 1 in the first step is a tire that is mass-produced so as not to fall with the molding drum 100 at a designated position of the molding drum 100 before the inner liner 2 and the backup liner 3 are attached. It is attached along the circumference of the forming drum 100 with a width of 20 to 30% of the total width of the lymphatic rubber composition 1 from the end of the forming drum 100 to be located inside of.

In other words, the position of the inner portion of the lymphatic rubber composition in contact with the vulcanizing bladder when the radial tire for aircraft is vulcanized is 20 to 30% of the total width of the lymphatic rubber composition. The attachment width of the lymphatic rubber composition seated on the forming drum to the drum is determined to be 20 to 30%. This means that when more than 30% of the total width of the lymphatic rubber composition is attached to the forming drum, the lymphatic rubber composition is formed. This is because it cannot be completely seated in the case, and attaching the lymphange rubber composition with a small width of less than 20% causes excessive deformation during stitching of the lymphange rubber composition.

After attaching the lymphatic rubber composition (1) in this manner, the inner liner (2) and the backup liner (3) to overlap the lymphatic rubber composition (1) located on the forming drum 100 through a second process Attach the carcass cord 4 and the afax rubber composition 6 sequentially, and then place the wire beads 5 on both sides of the forming drum 100 and the chafer strip rubber on the wire beads 5 respectively. The composition 7 is attached.

In addition, the wire bead (5) is wrapped around the lymphatic rubber composition (1) not attached to the forming drum 100 through the third process so that the carcass cord (4) and the chaff strip rubber composition ( After attaching to 7), the sidewall rubber composition 8 is attached by the fourth step.

At this time, the chaff strip rubber composition (7) has excellent heat generation characteristics than the lymphange rubber composition (1), so that the afax rubber composition (6) and the afax rubber composition (6) and car It can withstand excessive heat generated in the cascode (4) layer.

Therefore, the carcass cord layer 4 and the lymphange where the afax rubber composition 6 in which exothermic heat is generated by placing the chaff strip rubber composition 7 earlier than the lymphatic rubber composition 1 are located. The rubber composition 1 blocks direct contact with the afax rubber composition 6.

From the end of the forming drum 100, the attachment position of the lymphatic rubber composition 1 attached in the circumferential direction of the forming drum 100 is the diameter of the wire bead 5 at the end of the wire bead 5. a) 100 to 120% compared to the upper end is attached, the width of the backup liner 3 in accordance with the change in the width of the backup liner (3) is added or changed to change.

At this time, the attachment position of the lymphatic rubber composition 1 is such that the ends of the inner liner 2 and the backup liner 3 do not overlap with the wire bead 5.

Thus, by specifying the attachment position of the lymph flange rubber composition (1), it is possible to prevent the carcass cord exposure generated from the wire bead (5) located inside the tire, to secure a sufficient rubber composition of the wire bead (5) This can then improve the form stability of the tire during tire operation after mounting of the rim.

That is, in the conventional case, since the inner liner 2 and the backup liner 3 and the lymphatic rubber composition 1 in the wire bead 5 located inside the tire do not overlap each other, the inside of the wire bead 5 The carcass cord exposure occurred at, but the attachment position of the lymphatic rubber composition (1) was designated so that the end of the lymphatic rubber composition (1) was completely at the end of the inner liner (2) and the backup liner (3). Because of the lamination, carcass cord exposure is prevented from occurring and there is no need to add a rubber composition separately.

In addition, since the volume of the apex rubber composition 6 filled on the wire bead 5 is sufficiently secured to sufficiently secure the volume of the wire bead portion inside the tire, the tire moves left and right during operation of the tire. And a stitching process for mounting the lymphatic rubber composition in the tire forming process is omitted, thereby preventing the lymphatic rubber composition from being pushed or pressed.

As described above, the present invention has been described with reference to a preferred embodiment of the present invention as being capable of various modifications, but the present invention is not limited to such an embodiment, and the embodiment is simply applied in combination with the known art. Together with the claims and the detailed description of the present invention it will be seen that the technology that can be used by those skilled in the art that the present invention belongs to be included in the technical scope of the present invention.

1: Lymphrange rubber composition
2: inner liner
3: backup liner
4: carcass code
5: wire bead
6: afax rubber composition
7: chafer strip rubber composition
8: sidewall rubber composition
100: molding drum

Claims (3)

In the radial tire manufacturing method for an aircraft,
A first step of first attaching the lymphatic rubber composition (1) in a circumferential direction from an end of the forming drum (100);
The inner liner 2 and the backup liner 3 are sequentially attached to the forming drum 100, and the carcass cord 4, the wire bead 5, and the afax rubber composition 6 are sequentially attached to each other. A second step of attaching the chafer strip rubber composition 7 to both sides of the forming drum 100, respectively;
Molding drums on both sides of the molding drum 100 so that the wire bead (5) attached to the molding drum 100 is wrapped in the lymphatic rubber composition (1) attached in the circumferential direction of the molding drum (100) A third step of rolling to an upper side of the (100);
And a fourth step of attaching the side wall rubber composition 8 to the side of the molding drum 100, respectively.
The attachment position of the lymphatic rubber composition (1) is radially tire manufacturing method for the aircraft, characterized in that the change in the width of the backup liner 3 in accordance with the change in the width of the backup liner (3) is changed. . The method of claim 1,
The lymphange rubber composition (1) is attached to the circumferential direction of the forming drum 100 from the end of the forming drum 100, the diameter (a) of the wire bead (5) from the end of the wire bead (5) Radial tire manufacturing method for the aircraft, characterized in that attached to reach the upper position of 100 to 120% of the contrast. delete

Images