JP2651670B2 - Heat resistant conveyor belt - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a heat-resistant ethylene-propylene rubber conveyor belt having a zinc methoxy steel cord as a core.

Conventional technology Conveyor belts made of cross-linked rubber obtained by cross-linking a rubber compound containing ethylene-propylene rubber as the main polymer with an organic peroxide have been widely used as heat-resistant belts. Typically, canvas belts are used. However, in recent years, with the increase in the length of the conveyor belt and the increase in applications requiring high tension, ethylene-propylene rubber conveyor belts having a steel cord as a core body have been favorably used instead of canvas. I'm wearing

In the case of such a steel cord belt, the steel cord is usually zinc-coated, and is adhesively fixed in the belt. Here, it is already known that a diene rubber can be directly vulcanized and bonded to a zinc plating steel cord by blending organocobalt as a vulcanizing agent into the rubber as an adhesive. However, ethylene
Propylene rubber cannot be directly vulcanized and bonded to a zinc plating steel cord by organic peroxide crosslinking, even if an organic acid cobalt is added thereto.

Therefore, a heat-resistant belt made of ethylene propylene rubber with a zinc methoxy steel cord as the core is conventionally prepared by blending an organic acid cobalt with sulfur in a mixture of ethylene propylene diene rubber and styrene butadiene rubber, and using an adhesive rubber. The rubber composition is produced by compounding ethylene-propylene rubber containing an organic peroxide as a cover rubber compound and vulcanizing and bonding them. However, such a belt is inferior in heat resistance, hardens at an early stage, and does not have a sufficiently strong adhesive force between the adhesive rubber and the cover rubber. The adhesive rubber is easily peeled off at its interface, or the adhesive rubber does not crack,
It is extremely poor in durability.

Further, an ethylene / propylene rubber composition is used as a cover rubber, and a mixture of ethylene / propylene / diene rubber and chlorinated ethylene / propylene / diene rubber is used as a compound for an adhesive rubber, and these are vulcanized and bonded together with a zinc plating steel cord. Thus, it has been proposed to produce a steel cord belt, but similarly to the above-mentioned belt, heat resistance and durability are extremely poor.

Problems to be Solved by the Invention The present invention has been made to solve the above problems, and has a zinc methoxy steel cord as a core body, and has an adhesive force between the steel cord and ethylene propylene rubber. It is another object of the present invention to provide a heat-resistant ethylene / propylene rubber conveyor belt having excellent heat aging resistance.

Means for Solving the Problems The present invention has a zinc methoxy steel cord as a core body, and this steel cord is vulcanized and bonded to a cover rubber made of an ethylene-propylene rubber composition by an adhesive rubber. In the heat-resistant conveyor belt, the adhesive rubber contains ethylene-propylene rubber, an organic peroxide as a crosslinking agent, a crosslinking aid, an organic acid cobalt as an adhesive, and a rubber containing sulfur or a sulfur-containing compound as an adhesion aid. It is a vulcanized rubber of the composition.

In the present invention, ethylene-propylene rubber is
Ethylene / propylene rubber in a narrow sense (EP
M), ethylene propylene diene rubber (EPDM), or a mixture thereof, usually 10 to 90% by weight of EPM and EPD
Mixtures with M90 to 10% by weight are preferably used. In addition to the ethylene / propylene rubber, other rubbers may be contained as long as the rubber properties are not deteriorated.

In the ethylene-propylene rubber conveyor belt according to the present invention, a zinc plating steel cord and an ethylene
Adhesive rubber composition with propylene rubber, as a vulcanizing agent,
It contains an organic peroxide, and specific examples thereof include dicumyl peroxide, 1,1-bis (t-butylperoxy) -3,3,5-trimethylcyclohexane and the like. It is not something to be done. The compounding amount of the organic peroxide is, in the adhesive rubber, usually 0.1 g per 100 g of ethylene / propylene rubber.
It is about 01 to 0.02 mol.

As the crosslinking aid, ethylene glycol dimethacrylate, trimethylolpropane trimethacrylate, triallyl isocyanurate and the like are used. They are,
It has an effect of imparting excellent heat aging resistance to the obtained belt. In the adhesive rubber composition, usually, about 0.01 to 0.02 mol is mixed with 100 g of ethylene / propylene rubber.

In the present invention, an organic acid cobalt as an adhesive and sulfur or a sulfur-containing compound as an adhesion aid are blended into the adhesive rubber composition. However, in the present invention, the mechanism of rubber bonding is not necessarily clear yet. Therefore, the terms of the adhesive and the bonding aid are not established in rubber bonding, and their functions are not described in the present invention. Therefore, it is called an adhesive and an adhesion assistant.

As the organic acid cobalt, for example, cobalt naphthenate, cobalt octylate, cobalt neodecanoate and the like are preferably used. These organic acid cobalts are, based on the weight of the rubber composition, 0.2 to 0.2 in terms of metallic cobalt.
It is blended in the range of 0.5% by weight. Further, sulfur or a sulfur-containing compound as an adhesion aid is blended in a range of 0.2 to 0.4% by weight based on the rubber composition. Particularly preferably, it is in the range of 0.30 to 0.35% by weight, based on the rubber composition.

The sulfur is not particularly limited, and for example, powdered sulfur or insoluble sulfur is used. The sulfur-containing compound refers to an organic compound that releases sulfur by thermal dissociation. Similarly, the compound is not particularly limited. For example, morpholine disulphide, alkylphenol disulphide, thiurapolysulphate Id, 2- (4-
(Morpholinodithio) benzothiazole and the like are used.

In the present invention, the adhesive rubber composition may be a rubber adhesive comprising a combination of a so-called methylene acceptor such as an alkylphenol and a methylene donor such as hexamethylenetetramine, if necessary, together with an organic acid cobalt. May also be included. Furthermore,
In addition to the above, the adhesive rubber composition may contain a usual rubber compound such as an antioxidant, a reinforcing agent, a filler, and a processing aid, if necessary.

A heat-resistant conveyor belt according to the present invention has a zinc methoxy steel cord as a core, which is integrally vulcanized and bonded to an ethylene-propylene rubber compound for a cover rubber by the above-mentioned adhesive rubber composition. It is.

As the compound for the cover rubber, a conventionally known ordinary ethylene / propylene rubber is used, and usually, an organic peroxide as a crosslinking agent, a crosslinking aid, a metal oxide such as zinc oxide, or the like is used. Containing, further, if necessary, antioxidants, reinforcing agents, fillers as described above,
Contains conventional rubber compounds such as softeners, processing aids, and the like.

The heat-resistant conveyor belt made of ethylene-propylene rubber according to the present invention is obtained, for example, from the above-mentioned adhesive rubber composition, to obtain an unvulcanized rubber sheet, while, from an ordinary ethylene-propylene rubber compound, an unvulcanized rubber sheet for cover rubber A rubber sheet is obtained, and zinc methoxy steel cords are arranged and sandwiched with an appropriate pitch between the unvulcanized rubber sheets for the adhesive rubber, and the unvulcanized rubber for the cover rubber is placed on both sides of the adhesive rubber sheet. It can be manufactured by laminating rubber sheets and vulcanizing and bonding them according to a conventional method.

Effect of the Invention As described above, according to the ethylene-propylene rubber heat-resistant conveyor belt of the present invention, the zinc plating steel cord has an organic peroxide as a cross-linking agent, a cross-linking aid, an organic acid cobalt as an adhesive, and an adhesive. Via an adhesive rubber containing sulfur or a sulfur-containing compound as an auxiliary,
Since it is formed by being integrally vulcanized to ethylene-propylene rubber as a cover rubber, the ethylene-propylene rubber has a remarkably large adhesive force to a steel cord and also has excellent heat aging resistance.

Examples Hereinafter, the present invention will be described with reference to examples.

Example 1 A composition having the following composition (parts by weight) Ethylene / propylene rubber (EPM manufactured by Nippon Synthetic Rubber Co., Ltd.) 100 Zinc oxide 5 Dicumyl peroxide 2.7 Ethylene glycol dimethacrylate 2 HAF carbon black 40 Paraffin oil 5 Aging 6.7m thickness for cover rubber in belt, using inhibitor 2
m, and rolled into an unvulcanized rubber sheet having a thickness of 2.7 mm for an adhesive rubber using an ethylene / propylene rubber compound having the composition shown in Table 1.

4.Diameter between unvulcanized rubber sheets for the above adhesive rubber.
Sandwiched zinc plated sheet steel cord 6mm arrayed at 13mm pitch, the unvulcanized rubber sheet is laminated for the cover rubber on both sides of these adhesive rubber sheets, these under pressure of the pressure 25 kg / cm ² Heating was performed at a temperature of 160 ° C. for 40 minutes, followed by vulcanization bonding to produce a heat-resistant conveyor belt having a steel cord as a core.

From these belts, samples were prepared according to the method described in JIS K 6369, and after the steel cord had been subjected to heat aging by heating at 165 ° C. for 225 minutes and the original pulling strength (adhesive strength). Of the steel cord was measured. The results are shown in Table 1.

For comparison, a cross-linking aid, except that it did not contain any or all of the organic acid cobalt and the cross-linking aid, prepared an unvulcanized rubber sheet for the same adhesive rubber as above, using this, A belt was manufactured in the same manner as described above.

Further, as shown in Table 2, a belt was similarly formed by using a mixture of ethylene propylene diene rubber and styrene butadiene rubber or a mixture of ethylene propylene diene rubber and chlorinated ethylene propylene diene rubber as the adhesive rubber. Manufactured. For these belts, JI
Described in SK 6369 Samples were prepared and the initial pull strength (adhesion) of the steel cord and the pull strength of the steel cord after heat aging by heating at 165 ° C. for 225 minutes according to the method described were determined. . The results are shown in Table 2.

As seen in Comparative Example 1, the belt obtained using the adhesive rubber composition containing neither the organic acid cobalt nor sulfur has a remarkably low cord pull-out adhesive strength. Comparative Example 2
As can be seen, although the use of organic acid cobalt as an adhesive improves the adhesion somewhat,
Not enough. Further, according to Comparative Example 3 in which no crosslinking aid was used, the obtained belt was inferior in heat aging resistance. According to Comparative Example 4 in which sulfur was not used even though the crosslinking aid was used, the adhesive strength and heat resistance were measured. Both are significantly inferior.

On the other hand, as can be seen in Examples 1 to 5, the belt produced using the ethylene / propylene rubber composition according to the present invention as an adhesive rubber has a high adhesive strength to zinc plated steel cord. It is also clear that the adhesive strength after heat aging is excellent.

As shown in Table 2, when the mixture of ethylene / propylene rubber and styrene / butadiene rubber is used as the adhesive rubber, the mixture of ethylene / propylene rubber and chlorinated ethylene / propylene rubber is used as the adhesive rubber. ,
Similarly, it is not possible to obtain a belt having excellent adhesive strength to steel cord and heat resistance.

Claims (1)

(57) [Claims] (1) A zinc plated steel cord is provided as a core, and the steel cord is bonded to an ethylene rubber by an adhesive rubber.
In a heat-resistant conveyor belt vulcanized and bonded to a cover rubber made of a propylene rubber composition, the adhesive rubber is ethylene-propylene rubber, an organic peroxide as a cross-linking agent, a cross-linking auxiliary, an organic acid cobalt as an adhesive, A heat-resistant conveyor belt, which is a vulcanized rubber of a rubber composition containing sulfur or a sulfur-containing compound as an adhesion aid.