KR20060095017A - A high pressure hose assembly - Google Patents

Abstract

The present invention relates to a metal fastening structure for a high pressure hose for preventing the oil leakage of the nipple and the sleeve coupling portion of the metal fastening portion of the high-pressure rubber hose is inserted into the reinforcement yarn layer, particularly in the hose fastening structure used in the hydraulic system. About

Nipples and the concave and convex portions formed on one side is repeated irregularities; A sleeve formed with irregularities in which the convex portion and the concave portion are repeated to engage the irregularities of the nipple; It is inserted into the space formed by the convex-concave and the sleeve, and consists of a rubber hose made of an inner rubber, a reinforcing yarn layer and an outer rubber; A space portion is formed between the end surface of the convex portion forming the uneven portion of the nipple and the recess of the sleeve coupled thereto, and the inner rubber of the rubber hose is fitted to the space portion;

According to the present invention provides a structure to compensate for the airtightness weakening due to rubber aging and nipple / sleeve coupling portion that can prevent the deformation of the nipple / sleeve contact surface to prevent the leakage of oil.

High pressure hose, bracket, fastening

Description

Bracket fastening structure for high pressure hoses {A High Pressure Hose Assembly}

1 is a view showing a fastener structure for a general high pressure hose.

Figure 2 is a view showing a fastening structure for the high pressure hose of the present invention.

3 is an enlarged view of a portion of the present invention.

4 is an operational state diagram of the present invention.

5 is a first embodiment of the present invention.

Figure 6 is a second embodiment of the present invention.

Figure 7 is a third embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: nipple 20: sleeve

30: rubber hose 31: reinforcement yarn

32: inner rubber 33: outer rubber

40: space part

The present invention relates to a metal fastening structure of the hose used in the hydraulic system, in particular a metal fastening structure for the high pressure hose for preventing oil leakage of the nipple and the sleeve coupling portion constituting the metal fastening portion of the high-pressure rubber hose is inserted into the reinforcement yarn layer It is about.

In general, a structure in which a hose and a bracket are fastened by inserting a hose between a sleeve and a nipple and swaging with a jaw is fastened to the inner and outer surfaces of a metal hose and a rubber hose composed of a nipple and a sleeve. The contact is made to each other.

Here, the airtightness that prevents leakage between the bracket and the rubber hose is due to the elastic force that the compression-deformed rubber hose returns to its original shape when the bracket is fastened by the swaging process, and the inner surface of the rubber hose and nipple and the outer surface of the rubber hose. The inner surfaces of the sleeve remain in close contact with each other.

After all, the airtightness of rubber hose is mechanical property such as elastic modulus and hardness of rubber hose, clamping diameter and nipple indicating the size and swaging of bracket and hose related to compressive strength and compression shape after the rubber hose swaging process. Is determined by the shape of the outer circumferential surface and the inner circumferential surface of the sleeve.

However, the airtightness of the fastener of the high pressure hose may be weakened by aging of the rubber in the use environment, and may be deteriorated by the decrease of the fastening force due to the deformation of the nipple / sleeve fastened portion due to the repeated load.

On the other hand, the conventional nipple / sleeve fastening portion typical shape in the high-pressure hose bracket fastening portion for fastening the bracket is as shown in FIG.

Looking at the bracket fastening process of Figure 1 by separating the nipple (10) and the sleeve (20) plastic deformation of the sleeve in the entire fastening process so that the sleeve 20 to fully tighten the nipple (10) in the nipple / sleeve coupling portion Fix the nipple 10 and the sleeve 20 so that the relative movement does not occur.

Then, the hose 30 is inserted into the insertable part in the hose insertion process, and the hose is completely fixed between the nipple / sleeve assembly through the body fastening. Reference numeral 31 in the above description is a reinforcing yarn layer.

However, in a high pressure environment, the rubber of the hose gradually loses its elasticity due to aging, and in the nipple / sleeve joint, deformation occurs at the contact surface of the sleeve and the nipple, causing a gap. The relative movement of the nipple and sleeve occurs at high pressure in the hose, so the relative movement of the nipple and sleeve generates a relatively low airtight portion at a part of the portion where the nipple and the inner rubber contact and maintain the airtightness. Leakage may occur.

In the present invention, the leak prevention at the metal fittings of the hose is prevented through a structure that compensates for the airtightness weakening by rubber aging, a nipple / sleeve coupling structure, and a nipple / sleeve coupling structure that can reduce deformation of the contact surface. The purpose is to make it possible.

As a means for achieving the above object,

The present invention is a nipple having a concave-convex portion in which concave portions and convex portions are repeated on one side; A sleeve formed with irregularities in which the convex portion and the concave portion are repeated to engage the irregularities of the nipple; It is inserted into the space formed by the convex-concave and the sleeve, and consists of a rubber hose made of an inner rubber, a reinforcing yarn layer and an outer rubber; A space portion is formed between the end surface of the convex portion forming the uneven portion of the nipple and the recess of the sleeve coupled thereto, and the inner rubber of the rubber hose is fitted to the space portion.

In addition, the width of the space portion formed between the end surface of the convex portion forming the uneven portion of the nipple and the recess of the sleeve coupled thereto is 1/5 to 1 times the thickness of the inner rubber of the rubber hose, and the height is 1/5 to 1 It is characterized by being a ship.

In addition, the end surface of the rubber hose that is inserted into the coupling surface of the nipple and the sleeve is characterized in that the incision surface is formed stepped or oblique.

In addition, the rubber hose coupling surface of the nipple is characterized in that it is formed by a plurality of jagged protrusion structure.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and the preferred embodiments associated with the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Figure 2 is a view showing a fastening structure for the high pressure hose of the present invention.

3 is an enlarged view of a part of the present invention, as shown in the present invention, the nipple 10, the sleeve 20 and the rubber hose 30, but the nipple 10 is concave and convex on one side In addition, the irregularities are repeated, and the sleeve 20 forms irregularities in which the convex portions and the concave portions are repeated to engage the irregularities of the nipple, and the rubber hose 30 is fitted with the nipple 10 and the sleeve 20. It is inserted into a space made of contact, and consists of an inner rubber 32, a reinforcing yarn layer 31 and an outer rubber 33.

3 is a view before coupling the rubber hose 30, Figure 2 is a view after coupling the rubber hose (30).

That is, in the present invention, the coupling portion of the sleeve 20 and the nipple 10 is designed to be uneven to each other so that the concave and convex portions of the two unevenness are engaged with each other. Can be reduced.

In addition, the space portion 40 is formed between the end surface 21 of the convex portion forming the uneven portion of the nipple 10 and the recess 11 of the sleeve 20 coupled thereto, and the space portion 40 The inner rubber 32 of the rubber hose 30 is fitted to the fitting.

That is, as shown in the drawing, the concave and convex portions of the coupling portion of the nipple 10 and the sleeve 20 are formed, respectively, and the convex portions are repeated. It protrudes by w), and the nipple side of the protruding sleeve forms the space portion 40 by a constant height h without contacting the nipple.

In the above, the protrusion width (w) should be such that the length of the inner rubber 32 can be pushed to the end after the body, and the height (h) should also be greater than the height enough for the inner rubber to be pushed in, where the protrusion The width (w) is preferably used within 1/5-1 times the thickness of the inner rubber 32 and the height (h) within 1/5-1 times based on the thickness of the inner rubber (32).

In addition, the larger the compression ratio of the inner rubber 32 by the present tightening is applied to both the protrusion width (w) and the height (h), the smaller the compression ratio of the inner rubber 32, the smaller the compression width (w) and height ( h) All use small values. At this time, when the inner rubber 32 is 2mm and the maximum compression ratio of the inner rubber 32 is between 40 and 60%, the protrusion width w and the height h may be about 1 mm.

If the space portion 40 is formed between the nipple 10 and the sleeve 20 as described above, and the inner rubber 32 is extended to the space portion 40, the nipple after rubber aging as shown in FIG. Although the hydraulic pressure enters the end of the rubber hose 30 due to the weakening of the airtightness at the inner rubber contact surface, and the pressure A is applied, the pressure B increases in proportion to the pressure A at the surface where the inner rubber 32 and the sleeve 20 are in contact with each other. The airtightness at the contact surface between the 32 and the sleeve 20 can be strengthened at the moment when the pressure A is applied to prevent leakage.

In addition, when the end of the outer rubber 33 of the rubber hose 30 is peeled off so that the hose can be inserted completely without any empty space before the rubber hose is inserted, it has a volume compression effect in the A area and can improve the airtightness so that the B area is improved. It is possible to facilitate the filling of the inner rubber into the furnace, thereby improving the effect of the present invention.

Meanwhile, as illustrated in FIG. 5, the nipple 10 has an advantage of improving the volumetric compression effect of the inner rubber in the area A when machining the projection 12 having a tooth shape inclined at a predetermined angle. Can be added further.

In addition, the present invention as shown in Figure 6 and 7, it is possible to form a cutting surface in the step shape or diagonal shape at one end of the rubber hose 30, which is when the hose is inserted into the whole nipple / sleeve assembly It is easy to apply when the outer rubber 33 is caught in the sleeve 20 can not be inserted to the end.

At this time, the outer rubber removal amount is preferably minimized to the extent that the outer rubber 33 is not caught by the sleeve 20 can be inserted to the end of the space portion formed by the nipple and the sleeve.

As described above, according to the present invention provides an effect of preventing leakage through a structure that compensates for the airtightness weakening due to rubber aging and the nipple / sleeve coupling portion design that can prevent deformation of the nipple / sleeve contact surface.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, various other modifications and variations may be made without departing from the spirit and scope of the invention. Accordingly, it is intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

Claims (4)

A nipple 10 having irregularities in which concave portions and convex portions are repeated on one side; A sleeve 20 formed with irregularities in which the convex portion and the concave portion are repeated to engage the irregularities of the nipple 10; The nipple 10 and the sleeve 20 are inserted into a space formed in contact with each other, and are made of a rubber hose 30 formed of an inner rubber, a reinforcing yarn layer, and an outer rubber; The space portion 40 is formed between the end surface of the convex portion forming the uneven portion of the nipple 10 and the recess of the sleeve coupled thereto, and the inner surface rubber 32 of the rubber hose 30 is formed in the space portion 40. ) Fastener structure for high pressure hose, characterized in that the combination is made. The method of claim 1, The width of the space portion 40 formed between the end surface of the convex portion forming the uneven portion of the nipple 10 and the recess of the sleeve coupled thereto is 1/5 to 1 times the thickness of the inner rubber of the rubber hose, and the height is A fastening structure for metal fittings for high pressure hoses, characterized in that 1/5 to 1 times. The method of claim 1, High-pressure hose bracket fastening structure, characterized in that the end surface of the rubber hose (30) inserted into the coupling surface of the nipple (10) and the sleeve (20) is formed in a stepped or oblique cut surface (33a). The method of claim 1, The rubber hose 30 coupling surface of the nipple 10 is a fastening structure for a high pressure hose bracket, characterized in that formed by a plurality of toothed protrusion structure (12) formed.

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