A METHOD FOR MANUFACTURING A BULLETPROOF AND EXPLOSIONPROOF TUBELESS TIRE

Abstract

The invention discloses a method for manufacturing a bulletproof and explosion-proof tubeless tire, first, the innerliner is attached to the carcass cord ply to make the carcass innerliner, and then the steel wire braided layers and the intermediate rubber layers are laminated to each other to make an explosion-proof layer, using a first stage building machine to complete the first stage forming of the carcass innerliner, explosion-proof layer and belt to obtain a semi-finished embryo, and then using a second stage building machine, the semi-finished embryo and the tread slab base are formed in the second stage to obtain the embryo, which is baked and stored for 8˜96h and then vulcanised to obtain a bulletproof and explosion-proof tire; through the second stage forming process, the invention solves the problem that the explosion-proof layer is difficult to form due to the excessively hard metal material when making the embryo.

Claims

1. A method for manufacturing a bulletproof and explosion-proof tubeless tire; first, an innerliner (60) is attached to a carcass cord ply (40) to make a carcass innerliner, and then steel wire skeleton layers (51) and intermediate rubber layers (52) are laminated to each other to make an explosion-proof layer (50), using a first stage building machine to complete the first stage forming of the carcass innerliner, the explosion-proof layer (50) and a belt (20) to obtain a semi-finished embryo, and then using a second stage building machine, the semi-finished embryo and the tread slab base (10) are formed in the second stage to obtain the embryo, which is baked and stored for 8˜96 h and then vulcanised to obtain a bulletproof and explosion-proof tire; the bulletproof and explosion-proof tire is sequentially provided with the innerliner (60), carcass cord ply (40), belt (20) and tread slab base (10) from the inside to the outside; the shoulder of the bulletproof and explosion-proof tire is provided with shoulder wedges (30); an explosion-proof layer (50) is arranged between the belt (20) and the carcass cord ply (40); the explosion-proof layer (50) consists of a number of steel wire skeleton layers (51) and a number of intermediate rubber layers (52), both of which are interlaced with each other, and the ends of the explosion-proof layer (50) are all intermediate rubber layers (52); the steel wire skeleton layers (51) are steel wire braided layers or steel wire winding layers; the steel wire braided layer is braided by means of a steel wire braiding machine according to a certain braiding balance angle, the number of steel wire braiding layers is 1˜3 layers, and the braiding balance angle is 53˜56°; the steel wire winding layer is woven by a steel wire winding machine according to a certain winding balance angle, the number of steel wire winding layers is 1˜3 layers, and the winding balance angle is 53˜56°; the intermediate rubber layer (52) is extruded by means of an extruder with a thickness of 0.3˜0.6 mm.

2. The method for manufacturing a bulletproof and explosion-proof tubeless tire of claim 1, the braiding balance angle refers to the complementary angle of the angle between the braided steel wire and the tire crown line.

3. The method for manufacturing a bulletproof and explosion-proof tubeless tire of claim 1, the winding balance angle refers to the complementary angle between the winding steel wire and the tire crown line.

4. The method for manufacturing a bulletproof and explosion-proof tubeless tire of claim 1, the tread slab base (10) is provided with a tire pattern with a thickness of 10˜20 mm.

5. The method for manufacturing a bulletproof and explosion-proof tubeless tire of claim 1, the thickness of tread slab base (10) is 20˜45% of the thickness of tire tread pattern.

6. The method for manufacturing a bulletproof and explosion-proof tubeless tire of claim 1, the belt (20) is 2˜4 layers, and its cord angle is designed to be 65˜80°.

7. The method for manufacturing a bulletproof and explosion-proof tubeless tire of claim 1, the thickness of the innerliner (60) is 2˜5 mm.

Description

4. BRIEF DESCRIPTION OF ACCOMPANY DRAWINGS

[0021] FIG. 1 is the process flow diagram of the invention;

[0022] FIG. 2 is the schematic diagram of the structure of a bulletproof and explosion-proof tire;

[0023] FIG. 3 is the schematic diagram of the structure of the explosion-proof layer; As shown in the accompanying drawings: 10-tread slab base; 20-belt; 30-shoulder wedge; 40-carcass cord ply; 50-explosion-proof layer; 51-steel wire skeleton layer; 52-intermediate rubber layer; 60-innerliner; 70-bead.

5. SPECIFIC EMBODIMENT OF THE INVENTION

[0024] In order to make the above objects, features and advantages of the invention more clearly understood, the specific embodiments of the invention will be described in detail below with reference to the accompanying drawings.

[0025] Many specific details are set out in the following description in order to facilitate a full understanding of the invention, but the invention can also be implemented in other ways different from those described herein, and those skilled in the art can make similar promotions without departing from the connotation of the invention, therefore, the invention is not limited by the specific embodiments disclosed below.

[0026] Secondly, the “one embodiment” or “embodiment” herein refers to a particular feature, structure, or characteristic that may be included in at least one embodiment of the invention. The words “in an embodiment” appearing in different places in this specification do not all refer to the same embodiment, nor are they separate or selectively mutually exclusive from other embodiments.

[0027] Referring to FIG. 1-2, as the first embodiment of the invention, a method for manufacturing a bulletproof and explosion-proof tubeless tire is provided, first, the innerliner 60 is attached to the carcass cord ply 40 to make the carcass innerliner, and then the steel wire skeleton layers 51 and the intermediate rubber layers 52 are laminated to each other to make an explosion-proof layer 50, using a first stage building machine to complete the first stage forming of the carcass innerliner, explosion-proof layer 50 and belt 20 to obtain a semi-finished embryo, and then using a second stage building machine, the semi-finished embryo and the tread slab base 10 are formed in the second stage to obtain the embryo, which is baked and stored for 8˜96 h and then vulcanised to obtain a bulletproof and explosion-proof tire;

[0028] the bulletproof and explosion-proof tire is sequentially provided with the innerliner 60, carcass cord ply 40, belt 20 and tread slab base 10 from the inside to the outside;

[0029] the shoulder of the bulletproof and explosion-proof tire is provided with shoulder wedges 30;

[0030] an explosion-proof layer 50 is arranged between the belt 20 and the carcass cord ply 40;

[0031] the explosion-proof layer 50 consists of a number of steel wire skeleton layers 51 and a number of intermediate rubber layers 52, both of which are interlaced with each other, and the ends of the explosion-proof layer 50 are all intermediate rubber layers 52;

[0032] the steel wire skeleton layers 51 are steel wire braided layers or steel wire winding layers;

[0033] the steel wire braided layer is braided by means of a steel wire braiding machine according to a certain braiding balance angle, the number of steel wire braiding layers is 1˜3 layers, and the braiding balance angle is 53˜56°;

[0034] the steel wire winding layer is woven by a steel wire winding machine according to a certain winding balance angle, the number of steel wire winding layers is 1˜3 layers, and the winding balance angle is 53˜56°;

[0035] the intermediate rubber layer 52 is extruded by means of an extruder with a thickness of 0.3˜0.6 mm.

[0036] The braiding balance angle refers to the complementary angle of the angle between the braided steel wire and the tire crown line.

[0037] The winding balance angle refers to the complementary angle between the winding steel wire and the tire crown line.

[0038] Specifically, the explosion-proof layer 50 has high strength and high density, and can play an explosion-proof role, it is generally designed with 1˜3 layers, mainly consisting of intermediate rubber layers 52 and steel wire skeleton layers 51. If the steel wire skeleton layer 51 is 1 layer, the intermediate rubber layer 52 is designed with 2 layers; if the steel wire skeleton layer 51 is 2 layers, the intermediate rubber layer 52 is designed with 3 layers; if the steel wire skeleton layer 51 is 3 layers, the intermediate rubber layer 52 is designed with 4 layers. By analogy, the number of layers of the intermediate rubber layer 52 is increased by one layer than the number of layers of the steel wire skeleton layer 51.

[0039] The tread slab base 10 is provided with a tire pattern with a thickness of 10-20 mm. Specifically, different patterns are designed according to the usage scenarios of explosion-proof tires, road conditions and vehicles, and the patterns can be designed as longitudinal patterns, transverse patterns or mixed patterns as required.

[0040] The thickness of tread slab base 10 is 20˜45% of the thickness of tire tread pattern. Specifically, the tread slab base 10 is located at the root of the tire pattern, and is used to protect the pattern and the carcass, and the thickness can be designed according to tires of different specifications.

[0041] The belt 20 is 2-4 layers, and its cord angle is designed to be 65˜80°.

[0042] Specifically, the belt 20 plays the role of tightening the carcass, and is the main strength bearing component of the tire, generally, steel cords with high strength, high modulus and small angle arrangement are used as their reinforcing materials, and the steel wires are covered with high modulus and high hardness rubber compound.

[0043] The thickness of the innerliner 60 is 2˜5 mm.

[0044] Specifically, the bulletproof and explosion-proof tire is provided with a 2˜5 mm innerliner in the tire, and butyl rubber, chlorobutyl rubber, etc. with better air tightness can be used.

[0045] The bulletproof and explosion-proof tire also includes a bead, and the bead is composed of the steel wire braided layer, the carcass cord ply, the bead rubber, the apex, and the bead ring.

[0046] It should be noted that the above embodiments are only used to illustrate the technical schemes of the invention and not to limit them, although the invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical schemes of the invention can be modified or equivalently replaced without departing from the spirit and scope of the technical schemes of the invention, which should all be included in the scope of the claims of the invention.

A METHOD FOR MANUFACTURING A BULLETPROOF AND EXPLOSIONPROOF TUBELESS TIRE

Inventors

Cpc classification

Classification Explorer

Y02T10/86

GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS

Classification Explorer

B29D2030/0682

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B60C9/02

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B29D30/20

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B60C9/20

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B60C19/12

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B60C9/0007

PERFORMING OPERATIONS; TRANSPORTING

International classification

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B29D30/20

PERFORMING OPERATIONS; TRANSPORTING

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B60C9/20

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B60C9/02

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B60C9/00

PERFORMING OPERATIONS; TRANSPORTING

Abstract

Claims

Description