KR101066679B1 - Rubber sleeve - Google Patents

Abstract

The present invention relates to a rubber sleeve, while the conventional sleeve transfers a material such as sand, and the inside of the soft rubber sleeve is damaged by a sharp material mixed with sand or sand. In many cases, the inside of the sleeve was torn while moving to the end.

The present invention is to provide a foreign matter in the longitudinal direction from the inside of the sleeve by the limiting member even if the foreign material is embedded in any one of the inside of the sleeve by installing a plurality of limiting members in the inner rubber layer forming the sleeve in order to overcome this disadvantage This movement prevents tearing the sleeve.

In addition, since the thickness of the inner rubber layer is increased as the limiting member is installed, the thickness of the rubber layer is increased, so that the allowable bending angle is increased. In addition, by installing the limiting member on the outer rubber layer can also have the effect of preventing damage on the outer surface.

Description

Rubber sleeve {RUBBER SLEEVE}

The present invention relates to a rubber sleeve.

The present invention relates to a rubber sleeve and to a rubber sleeve that minimizes damage caused by internal foreign matter. The rubber sleeve is used to suck up the dredged soil by dredging ship and to transport dredged soil by the delivery line connecting steel pipe during excavation or reclamation work to secure the sea route. In order to use the rubber sleeve made of rubber material between the steel pipes, even though the steel pipe is moved by blue, the rubber sleeve moves accordingly to absorb the fluctuations so as to prevent the overall damage.

In general, the rubber sleeve includes a hose body including an outer rubber layer and an inner rubber layer as shown in FIG. 1 and a flange portion fixed to both ends of the hose body.

These rubber sleeves should be flexible, free from harmful scratches, bubbles, cracks and other cracks, the inner side should be smooth, even inside diameter and thickness, the inner rubber layer should be abrasion resistant and the outer rubber layer should be excellent weather resistance. .

In addition, when the other flange is moved with one flange fixed, the allowable bending angle measured by the angle at which the other flange is no longer bent should be greater than 10 degrees.

By the way, when the dredged soil transported through the steel pipe into the rubber sleeve, the inner rubber layer 12 of the hose body made of rubber material was often torn by the foreign matter contained in the dredged soil or dredged soil. In order to prevent this, the reinforcing layer 14 is inserted between the inner rubber layer 12 and the outer rubber layer 13, but the reinforcing layer 14 is often hard to be torn in the reinforcing layer. Because it is located on the outside, it is hard to prevent the inner rubber layer from being completely damaged even though it can prevent the damage caused by the pressure of the entire rubber sleeve.

In particular, when the inner rubber layer is torn once, the entire inner rubber layer tends to tear in the lengthwise direction due to the characteristics of the rubber, so that the sleeve in which the inner rubber layer is broken must be replaced.

The present invention has been made in view of the above-mentioned disadvantages, and an object of the present invention is to provide a rubber sleeve with less damage on the inside.

In order to achieve the above object, there is provided a rubber sleeve, wherein the sleeve includes a sleeve body including an inner inner rubber layer and an outer outer rubber layer; and both sides of the sleeve body are provided with flange portions made of metal. As a rubber sleeve to be connected to the sleeve or the metal tube, a plurality of limiting members may be formed in the longitudinal direction of the sleeve in the inner rubber layer forming the sleeve body.

Between the inner rubber layer and the outer rubber layer may be further formed of a reinforcing layer made of reinforcing fibers.

The thickness of the inner rubber layer may be thicker than the thickness of the rubber layer of the sleeve, and the thickness of the reinforcing layer may be thinner than the thickness of the limiting member.

In the outer rubber layer, a plurality of limiting members may be formed in the longitudinal direction of the sleeve.

The configuration as described above is effective in providing a rubber sleeve with less damage due to foreign matter and having a large allowable bending angle.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. Figure 2 shows a cross section of a conventional sleeve. The sleeve is flanged on both sides and the tube is made of rubber, but the reinforcing layer 14 is formed between the inner rubber layer 12 and the outer rubber layer 13 so that the sleeve is not deformed by internal and external forces. 2 shows that the reinforcing layer is formed in two layers. The fitting is vulcanized by adhesion to the body of the rubber part.

Figure 3 shows a cross section of a rubber sleeve provided in accordance with the present invention. The sleeve shown in FIG. 3 shows only the skeleton, and the inner rubber layer 12 and the outer rubber layer 13 are not formed, and only the fitting 15 is formed.

The rubber sleeve according to the present invention has a limiting member 11 formed therein as shown in FIG. 3, but the limiting member 11 may be formed together when the inner rubber layer 12 is formed during manufacture of the rubber sleeve.

When dredged sand is introduced into the sleeve and transported, even if a sharp foreign material is introduced into the sleeve to damage the inner rubber layer, the foreign material continuously prevents the inner rubber layer 12 from moving while tearing the inner rubber layer 12.

In addition, even if the restricting member 11 is formed inside the inner rubber layer 12, in order to secure the flexibility of the sleeve, the thickness of the inner rubber layer 12 is the same as that of the existing sleeve and the thickness of the reinforcing layer is allowed accordingly. Bend angle has the effect of being larger than the conventional sleeve.

Existing sleeves have a reinforcing layer 14 using reinforcing fibers, but the reinforcing layer 14 resists compressive and tensile forces to maintain the original shape when the sleeve is pulled or compressed longitudinally or radially. If the inner rubber layer is damaged by foreign matter, it will not play any role.

In order to prevent this, conventional sleeves have a rubber reinforcing layer (not shown) between the inner rubber layer 12 and the outer rubber layer 13 to be reinforced with woven reinforcing fibers, but there was also a product configured to not be easily torn by foreign matter The number of rubber layers is 4 to 5, and in many cases, more than 20 reinforcement layers are difficult to manufacture.

However, in the sleeve according to the present invention, even if foreign matter enters the inner rubber layer by inserting a plurality of restrictive members inside the inner rubber layer as shown in FIG. 3, the damage is not continuously expanded.

In addition, since the thickness of the rubber layer becomes thicker as the height of the limiting member 11, when the other flange portion is moved with the one flange portion fixed, the allowable bending angle is measured at the limit angle at which the other family flange no longer bends. Can be more than

In addition, the limiting member 11 also serves to prevent the sleeve from shrinking in the radial direction due to pressure when the sleeve is embedded in the deep sea and to maintain the original shape. In other words, in the deep sea it must withstand high pressure, but when made of rubber alone, it is often easily crushed, but by the limiting member to maintain the original shape of the sleeve. 3, it can be clearly seen that the limiting member 11 is in the inner rubber layer.

4 shows another embodiment of a rubber sleeve comprising a restricting member. In the embodiment of Fig. 4, the limiting member used for the suction vacuum rubber sleeve is formed not only on the inner rubber layer but also on the outer rubber layer. The limiting member 11 formed on the inner rubber layer prevents damage caused by foreign matter inside the pipe and the limiting member 21 formed on the outer rubber layer prevents the pipe from shrinking when the rubber sleeve is installed in the deep sea. In the deep sea, the pressure applied to the tube is very different from that in the air, and the phenomenon of the tube contracting occurs a lot when inhalation occurs. The limiting member 21 formed in the outer rubber layer 13 prevents such contraction.

In addition, the limiting member 11 formed in the inner rubber layer 12 prevents damage from spreading further by preventing the spreading of the damage even if a sharp foreign material is stuck in the outer rubber layer 13 and prevents damage from spreading. When installed, keep the shape of the rubber sleeve. Therefore, the limiting members formed on the inner rubber layer and the outer rubber layer may play different roles.

1 and 2 show a conventional sleeve

3 shows a sleeve according to the invention;

4 shows another embodiment according to the invention;

<Brief Description of Drawings>

11, 21: limiting member 12: inner rubber layer

13: outer rubber layer 14: reinforcing layer

15: Fitting

Claims (4)

A sleeve body including an inner inner rubber layer and an outer outer rubber layer; Both sides of the sleeve body  A rubber sleeve made of metal and formed with a hole for screwing at the end, and a flange portion is formed between the inner rubber layer and the outer rubber layer, and the flanges are brought into contact with each other, and then screwed to enable connection with the sleeve or the metal tube. A plurality of limiting members are formed in a radial direction at regular intervals along the longitudinal direction of the sleeve into the inner rubber layer constituting the sleeve body to prevent the damage of the inner rubber layer from spreading inside the tube and to shrink the tube in the deep sea. Rubber sleeve, characterized in that The rubber sleeve according to claim 1, wherein a reinforcing layer made of reinforcing fibers is further formed between the inner rubber layer and the outer rubber layer to the outside of the limiting member. delete According to claim 1, wherein the outer rubber layer a plurality of limiting members are arranged at regular intervals in the longitudinal direction of the sleeve, characterized in that the circular limiting member is formed in the radial direction to maintain the shape to withstand pressure from the inside and outside, Rubber sleeve

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