CN110406324A - A kind of all-steel load-bearing radial tire bizet belt rubber-wrapping structure - Google Patents

Abstract

The invention belongs to tire construction technical fields, and in particular to a kind of all-steel load-bearing radial tire bizet belt rubber-wrapping structure.All-steel load-bearing radial tire bizet belt rubber-wrapping structure of the invention, including belt, big encapsulated and Minifilm, the side of big encapsulated covering belt, and anti-package its edge, Minifilm coats adjacent belt layer edge and fills the gap of width difference between belt, and big encapsulated after anti-package is bonded together with Minifilm.Belt rubber-wrapping structure of the invention optimizes sizing material and steel wire distribution between belt, can reduce bizet stress concentration, reduce crown heat, reduce the generation of tyre explosion, improve friction phenomenon present in existing tire, further promote the safety of tire.Simultaneously because big encapsulated application, reduces the specific demand to calendering procedure, the difficulty of calendering construction is reduced, improves production efficiency.

Description

A kind of all-steel load-bearing radial tire bizet belt rubber-wrapping structure

Technical field

The invention belongs to tire construction technical fields, and in particular to a kind of all-steel load-bearing radial tire bizet belt packet Plastic structure.

Background technique

With the development and progress of country, all-steel load-bearing radial tire using more and more, with all steel load The development of radial tire technology, it is also more and more to the research of tire belt design and belt encapsulated application, but it is right In belt arrangement smooth and banding interlayer sizing material reasonable layout be always that designer persistently pursues.Belt arrangement Smooth and banding interlayer sizing material reasonable layout, be conducive to stress dispersion, promoted bizet intensity, reduce wheel crown part heat, For tire long range, running at high speed provides better guarantee.

Summary of the invention

It is an object of the present invention to overcome the shortcomings of the prior art and provide a kind of all-steel load-bearing radial tire hats Portion's belt rubber-wrapping structure.Belt rubber-wrapping structure of the invention optimizes sizing material and steel wire distribution between belt, can It reduces bizet stress to concentrate, reduces crown heat, reduce the generation of tyre explosion, it is existing to improve eccentric wear present in existing tire As further promoting the safety of tire.Simultaneously because big encapsulated application, reduces the specific demand to calendering procedure, The difficulty of calendering construction is reduced, production efficiency is improved.The technical solution adopted by the present invention is that:

A kind of all-steel load-bearing radial tire bizet belt rubber-wrapping structure, which is characterized in that including belt, it is big encapsulated and Minifilm, the side of big encapsulated covering belt, and anti-package its edge, Minifilm coat adjacent belt layer edge and filling tape The gap of width difference between beam layer, big encapsulated after anti-package is bonded together with Minifilm.

The belt is the first belt, the second belt, third belt or zero-degree belt.

The sizing material of described big encapsulated and Minifilm is identical as belt calendering sizing compound.

The belt speed layer rubber-wrapping structure includes the first belt, the second belt, encapsulated big, 1# Minifilm and the small glue of 2# Piece, wherein the side of the second belt of big encapsulated covering, and anti-package its edge, anti-package width is 10 ~ 20mm, and 1# Minifilm is filled out Fill the gap of width difference between the first belt, the second belt, 2# Minifilm coats the edge of the first belt, after anti-package Encapsulated big, 1# Minifilm and 2# Minifilm are bonded together.

Described big encapsulated is located at the side that the second belt is contacted with third belt.

The width of the 1# Minifilm is the half of the first belt and the second belt width difference.

Compared with prior art, the invention has the following advantages that

Because of steel wire hypotelorism between adjacent belt layer, do not stop to do shearing motion in use, easily causes heat excessively high Problem occurs, and the present invention is separated adjacent belt layer using sizing material, and buffering can be effectively played between adjacent belt layer and is made With largely reducing heat.Big encapsulated application, can reduce the specific demand to calendering procedure, reduces calendering and applies The difficulty of work improves production efficiency.

1# Minifilm is filled in the gap between the first belt and the second belt width difference, can keep the second banding The flatness of layer edge steel wire, the especially flatness of the second belt edge steel wire, so that material is more evenly distributed；The small glue of 2# Piece coats the edge of the first belt, it is possible to reduce the oxidation of exposed aerial first belt, while protecting operator Member is not stabbed by edge steel wire；Material is more uniformly spread after addition film, meets the needs of overall profile, and reduce first band The stress of beam layer edge is concentrated, and buffering is played the role of.In addition, 2# Minifilm can be to avoid first band beam layer steel wire directly under Side's pad glue directly contacts, and solves the problems, such as that steel wire and pad glue bond intensity are inadequate.

In conclusion belt rubber-wrapping structure of the invention optimizes sizing material and steel wire distribution between belt, it can It reduces bizet stress to concentrate, reduces crown heat, reduce the generation of tyre explosion, it is existing to improve eccentric wear present in existing tire As further promoting the safety of tire.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of all-steel load-bearing radial tire bizet belt rubber-wrapping structure of the present invention.

Description of symbols: the first belt of 1-；The second belt of 2-；3- third belt；4- zero-degree belt；5- is big Encapsulated；6-1-1# Minifilm；6-2-2# Minifilm.

Technical solution of the present invention is described further with attached drawing combined with specific embodiments below.

Specific embodiment

As shown in Figure 1, a kind of all-steel load-bearing radial tire bizet belt rubber-wrapping structure, belt speed layer rubber-wrapping structure include First belt 1,2, one layers of the second belt encapsulated 5 big, two layers of 1# Minifilm 6-1 and two layers of 2# Minifilm 6-2, it is big encapsulated Piece 5 covers the side of the second belt 2, and anti-package its edge, and anti-package width is 20mm；1# Minifilm 6-1 fills first band Gap between beam layer 1, the second belt 2 width difference, 2# Minifilm 6-2 coats the edge of the first belt 1, big after anti-package Encapsulated 5,1# Minifilm 6-1 and 2# Minifilm 6-2 is bonded together.

Described big encapsulated 5 is located at the side that the second belt 2 is contacted with third belt 3, plays between slow Punching effect reduces stress and concentrates.

The width of the 1# Minifilm 6-1 is the half of the first belt 1 and the second belt 2 width difference, is 40 mm.

Described big encapsulated 5, the sizing material of 1# Minifilm 6-1 and 2# Minifilm 6-2 it is identical as belt calendering sizing compound.

When being pressurized using the tire tread and ground face contact of belt rubber-wrapping structure of the present invention, crown is more uniformly stressed, The generation of friction phenomenon is significantly reduced, while bizet or shoulder heat are excessive caused by reducing because of crown discontinuity Caused by bad symptom, reduce the generation of tyre explosion, improve tire safe capability.

The above description is only a preferred embodiment of the present invention, is not intended to limit the scope of the invention, all at this Under the inventive concept of invention, using equivalent structure transformation made by present specification, or directly/it is used in other indirectly Relevant technical field is included in scope of patent protection of the invention.

Claims (6)

1. a kind of all-steel load-bearing radial tire bizet belt rubber-wrapping structure, which is characterized in that including belt, encapsulated big (5) and Minifilm (6), the side of big encapsulated covering belt, and anti-package its edge, Minifilm coat adjacent belt layer edge And the gap of width difference between belt is filled, big encapsulated after anti-package is bonded together with Minifilm.

2. all-steel load-bearing radial tire bizet belt rubber-wrapping structure according to claim 1, which is characterized in that described Belt is the first belt (1), the second belt (2), third belt (3) or zero-degree belt (4).

3. all-steel load-bearing radial tire bizet belt rubber-wrapping structure according to claim 1, which is characterized in that described The sizing material of big encapsulated (5) and Minifilm (6) is identical as belt calendering sizing compound.

4. all-steel load-bearing radial tire bizet belt rubber-wrapping structure according to claim 1, which is characterized in that described Belt speed layer rubber-wrapping structure includes the first belt (1), the second belt (2), encapsulated (5) big, 1# Minifilm (6-1) and 2# small Film (6-2), wherein the side of big encapsulated (5) covering the second belt (2), and anti-package its edge, anti-package width is 10 ~ 20mm, 1# Minifilm (6-1) fill the gap of width difference between the first belt (1), the second belt (2), 2# Minifilm (6-2) coats the edge of the first belt (1), big encapsulated (5), 1# Minifilm (6-1) and 2# Minifilm (6-2) after anti-package It is bonded together.

5. all-steel load-bearing radial tire bizet belt rubber-wrapping structure according to claim 4, which is characterized in that described Big encapsulated (5) is located at the side that the second belt (2) are contacted with third belt (3).

6. all-steel load-bearing radial tire bizet belt rubber-wrapping structure according to claim 4, which is characterized in that described The width of 1# Minifilm (6-1) is the half of the first belt (1) and the second belt (2) width difference.