KR100620035B1 - A High Pressure Hose Assembly for Vichiles Having Nipple Structure of Delta Groove Shape - Google Patents

Abstract

The present invention relates to a delta groove nipple of a high pressure hose for automobiles that prevents oil leakage to the outside of a nipple constituting a metal coupling portion of a high pressure rubber hose, particularly in a fastening portion of a power steering hydraulic hose used in an automotive steering system. Regarding the structure,

Nipples formed at regular intervals on the outer periphery delta groove; A sleeve coupled to one side of the nipple and having a waveform formed on an outer circumference thereof; A high pressure rubber hose inserted into a space where the nipple and the sleeve come into contact with each other; The delta grooves are formed symmetrically with respect to an imaginary central axis;

The present invention provides an effect of preventing oil leakage by designing a plurality of delta grooves to prevent oil leakage occurring at the fastening portion of the high pressure hose, so that the stress concentration at the contact portion on the tip surface is increased.

Delta, Groove, Automotive High Pressure Hose

Description

High Pressure Hose Assembly for Vichiles Having Nipple Structure of Delta Groove Shape}

1 is a cross-sectional view of a high pressure hose assembly structure used in the prior art.

Figure 2 is an embodiment of the configuration of the delta groove nipple structure of the present invention.

Figure 3 is another embodiment of the present invention configuration of the delta groove nipple structure.

Figure 4 is an installation example of the delta groove nipple structure of the present invention installed on the high pressure hose assembly.

Figure 5a is an illustration of the sealing pressure applied to the nipple before leakage occurs in the experimental example using the delta groove nipple of the present invention.

Figure 5b is an exemplary view of the sealing pressure applied to the nipple after leakage occurs in the experimental example using the delta groove nipple of the present invention.

Explanation of symbols on the main parts of the drawings

10: sleeve 20: high pressure rubber hose

22: rubber inner surface 24: reinforcing yarn layer

26: outer rubber 30: nipple

31: Delta groove

The present invention relates to a delta groove nipple of a high pressure hose for automobiles that prevents oil leakage to the outside of a nipple constituting a metal coupling portion of a high pressure rubber hose, particularly in a fastening portion of a power steering hydraulic hose used in an automotive steering system. It's about structure.

Vehicle power steering system (Power Steering System) is a device that can easily adjust the steering device of the vehicle by the hydraulic pressure generated by the rotation of the pump by the engine drive.

1 is a cross-sectional view of a conventional high pressure hose assembly structure, as shown in the high pressure hose assembly 1 is made of a portion of the nipple 30 is inserted into one end of the high pressure hose (20).

One end of the nipple 30 has a constant diameter, and the outer circumference of the nipple 30 is coupled to the high pressure hose 20, and the sleeve 10 is coupled to the outer circumference of the high pressure hose 20. .

The high pressure hose 20 is a hollow cylindrical shape, the inner rubber 22 of a rubber material of a predetermined thickness is formed in contact with the nipple 30 inserted into one end of the high pressure hose 20, the high pressure hose ( Auditing the outer circumferential surface of 20) forms an outer rubber 26 of rubber material. The reinforcing layer 24 is formed between the inner rubber 22 and the outer rubber 26.

One end of the sleeve 10 has a waveform in the axial direction, and the other end is gently bent to surround a portion of the high pressure hose 20 into which the nipple 30 is inserted.

However, when the pressurized force generated by the engine acts on the nipple 30, friction occurs due to the slip of the outer periphery of the nipple 30 and the inner rubber 22 of the high pressure hose 20. 22) there was a problem that the thickness of the thin and the crack is generated finally the oil leakage occurs.

On the other hand, to solve this problem, the rectangular concave is placed on the nipple surface, and a rubber hose is inserted between the sleeves, and the compressive stress is applied to the sleeve in a curved direction so that the high stress is generated at the tip of the nipple by plastic deformation of the sleeve. In order to prevent oil from leaking, this is to prevent oil from moving over the gap by simply compressing the rubber material strongly on the nipple surface to prevent oil leakage. Considering the deterioration, the formation of only a large number of irregularities on the nipple surface can be a problem in manufacturing the nipple.

Therefore, the present invention solves this problem, and instead of considering the optimization of the dimensions, the dimensions are designed in consideration of the aging of the rubber, and provides a more effective tooth groove shape than the rectangular groove by the method of preventing oil leakage. Its purpose is to.

As a means for achieving the above object,

The present invention provides a nipple having a delta groove formed at a predetermined interval on an outer circumference; A sleeve coupled to one side of the nipple and having a waveform formed on an outer circumference thereof; It is made of a high-pressure rubber hose which is inserted into the space where the nipple and the sleeve abut; The delta grooves are characterized in that they are arranged symmetrically with respect to the virtual central axis.

In addition, the nipple having a delta groove formed at a predetermined interval on the outer periphery; A sleeve coupled to one side of the nipple and having a waveform formed on an outer circumference thereof; It is made of a high-pressure rubber hose which is inserted into the space where the nipple and the sleeve abut; The delta grooves are characterized by being aligned in one direction.

In addition, the height of the delta groove is characterized in that the triangular shape is 0.8-1mm, the width is 1.5-2mm.

In addition, the high pressure rubber hose is characterized by consisting of the inner rubber, the reinforcing yarn layer and the outer rubber.

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 an embodiment of the configuration of the delta groove nipple structure of the present invention.

Figure 3 is another embodiment of the present invention configuration of the delta groove nipple structure.

4 is an installation example in which the delta groove nipple structure of the present invention is installed in the high pressure hose assembly, and as shown, a nipple 30 having delta grooves 31 formed on the outer circumference at regular intervals; A sleeve 10 having one side coupled to the nipple 30 and having a waveform formed on an outer circumference thereof; The nipple 30 and the sleeve 10 are made of a high-pressure rubber hose 20 is inserted into the space formed in contact.

In addition, the delta groove 31 may be arranged in two forms, and may be configured to be symmetrically arranged around an imaginary central axis as shown in FIG. 2, and also arranged to have directionality in one direction as shown in FIG. 3. You may.

The high pressure rubber hose 20 is generally made of an inner rubber, a reinforcing yarn layer and an outer rubber.

The biggest feature of the present invention made as described above is to provide a new groove shape in order to prevent the oil from leaking, and to stop the oil leakage of the oil with only a few grooves.

That is, the present invention has a rubber hose 20 where the nipple 30 and the sleeve 10 are enclosed by the nipple 30 when swaging the sleeve 10, and the delta grooves protruding from the nipple 30 surface ( By placing 31) it is possible to form a higher sealing pressure as a whole by adding the sealing pressure in the vertical direction and the sealing pressure at the tip to the flow of oil.

In addition, the cause of leakage is due to the fact that a large number of sealing points of high sealing pressure is not formed and not maintained at an appropriate sealing pressure bar, in the present invention, in order to give a maze effect that delays the movement of oil. A plurality of delta grooves can be formed, and even when the oil is passing through, a greater compression force is formed on the mountain side when the rubber at the bottom is lifted upward in the process of oil leakage from the bottom to the mountain direction. That is, it is a structure which can generate a higher sealing point by oil leaked.

5A is a view in which the acid stress of the grooves 31 formed in the nipples 30 before leakage is generated, and FIG. 5B shows the acid stress of the grooves formed in the nipples 30 when leakage occurs. As shown in the figure, when oil leakage occurs, the rubber is lifted up and at the same time, the point stress generated in the acid becomes larger, thereby preventing the oil from leaking to the outside.

That is, the high pressure hose assembly for automobiles applied to the present invention is an industrial hose for power steering used in a steering system for automobiles, and is composed of gears or vanes, and the flow rate discharged from the pump forms a high pressure in proportion to the load of the system. The high pressure oil flows through the hose 20 formed of the rubber part and the metal fastening part configured for mounting with the other part.

The fastening part maintains the high-strength nipple 30 and the swaging phenomenon of the outer surface so as not to be recessed in the rubber hose 20 according to the external swaging process in order to fasten the rubber hose 20 and the nipple 30. It consists of a low-strength sleeve, where the pressure of the flowing oil is less than 100 (kgf / cm ² ) by the relief pressure of the pump, typically 80-90 (kgf / cm ² ), and the oil temperature is 120 It is below ℃, and it is about 60 ℃ or less when driving on the asphalt city road, and about 50 ℃ or less when driving on the highway, but it can be raised to a considerable temperature in the steered state by severe steering operation. The gap of the nipple surface is created, and the oil gradually leaks to the outside. To prevent this, the delta groove is formed on the contact surface of the nipple and rubber to maximize the stress dam + maze effect. It is possible to delay the time for oil leakage by forming a stress jaw to prevent oil from leaking high and causing the oil flow path to fall into the labyrinth.

In particular, the shape of the delta groove may have various arrangements such as symmetrical and asymmetrical, but the size of one delta shape is preferably 0.8-1mm in height and 1.5-2mm in width, and is triangular in shape. Even if the same.

As a result, the present invention can form a very high sealing point, it is possible to obtain the effect of delaying the oil leakage by forming a plurality of delta grooves on the nipple surface.

As described above, the present invention is formed by forming a plurality of delta grooves to prevent oil leakage occurring at the fastening portion of the high-pressure hose, thereby preventing oil leakage by designing to increase the stress concentration of the contact portion on the tip surface Provide effect.

In addition, although the present invention has been described in connection with the above-mentioned preferred description, other various modifications and variations may be made without departing from the spirit and scope of the present invention. Accordingly, the appended claims may be determined to include such modifications and variations as fall within the true scope of the invention.

Claims (4)

 Nipples (30) formed on the outer periphery with delta grooves at regular intervals; A sleeve 10 having one side coupled to the nipple 30 and having a waveform formed on an outer circumference thereof; The nipple 30 and the sleeve 10 is made of a high-pressure rubber hose 20 is inserted into the space made contact with; The delta groove is a high-pressure hose assembly for a vehicle having a delta groove nipple structure, characterized in that the symmetrical arrangement is arranged around a virtual central axis. delete The method of claim 1, The high-pressure hose assembly for a vehicle having a delta groove nipple structure, characterized in that the delta groove of the triangular shape is 0.8-1mm, the width is 1.5-2mm. delete

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