KR100515246B1 - Expansion Type Filler Pipe - Google Patents

Abstract

The present invention relates to an expandable filler pipe having a fuel injection portion formed by expanding a pipe having a predetermined diameter.

The expansion filler pipe according to the present invention, the lower opening is connected to the fuel tank, the upper opening is formed with an expansion pipe so that the fuel injection can be inserted, the end of the expansion pipe is formed with a flare to be the seating portion of the oil cap A pipe main body integrally formed at a lower portion of the flare with a screw groove to which the screw portion of the oil cap is fastened; A valve body having a guide portion press-fitted into an inner circumference of the expansion pipe portion, and a valve plate rotatably installed at a lower portion of the valve body to seal a lower surface of the lower end opening of the valve body by an elastic force of a spring. And a valve assembly inserted into and fixed to the inner circumference of the expansion tube before the thread groove processing of the tube portion.

Description

Expansion Type Filler Pipe {Expansion Type Filler Pipe}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a filler pipe for automobiles, and more particularly, to an expandable filler pipe having a fuel injection portion formed by expanding a pipe of a predetermined diameter.

Filler pipe (Piller Pipe), the upper opening is fixed to the vehicle body of the vehicle and the lower opening is connected to the fuel tank, and serves as a passage for guiding fuel injected from the outside mounted on the bottom of the vehicle body to the fuel tank, The injection portion of the flare (Flare) and the screw is formed to fasten the oil cap, the lower end is connected to the fuel tank through a rubber tube or fixed directly to the fuel tank.

The inlet of the filler pipe should be formed with a diameter of a certain value or more so that the fuel gun can be easily inserted. If the diameter of the filler pipe is made larger, the layout of the filler pipe is not only problematic, but also discharged from the fuel gun. As the pressure of the fuel being rapidly depressurized inside the filler pipe, a considerable amount of fuel is evaporated into the atmosphere, and thus fuel waste and environmental pollution have been raised as a problem that cannot be overlooked.

Therefore, recently, a so-called expandable filler pipe which uses a pipe having a predetermined diameter and expands only the injection portion thereof is generally used. In particular, in North America, the problem of environmental pollution due to evaporated fuel is avoided. Importantly, the diameter and corrosion resistance of the filler pipe are strictly regulated by the law.

1 and 2 are views illustrating an example of a conventional expandable filler pipe, wherein an expansion pipe 1a is formed at an upper injection portion of a pipe body 1 having a predetermined diameter, and is separately provided at the expansion pipe 11. The fueling cap fastener 2 produced is inserted and welded.

The pipe body 1 is configured by expanding the end of the steel pipe of about 1 inch, but is easy to insert the fuel oil is eccentrically expanded pipe.

The fuel cap fastener 2 is formed by deep drawing the steel sheet to form the body 2a, and then press-processes the flare portion 2b on which the oil cap is seated at the upper end of the body. It consists of rolling the screw groove 2c to which the screw of the oil cap is fastened, and inserting the body 2a of the oil cap cap 2 into the expansion portion 1a of the pipe body 1, and then expanding the end of the expansion portion. Along the welding of the body of the fuel cap fastener along the (3) is to combine both.

On the other hand, a disk-shaped valve plate 2d that is elastically supported by a spring 2e is provided at the lower portion of the oil cap fastener. Usually, the lower opening of the oil cap fastener is closed by the closing action of the valve plate by the spring's elastic force. By closing the to prevent the inflow of rainwater or other foreign matter, and inserting the gas gun to inject the fuel to open the valve plate to enable fuel injection.

Reference numeral 2f denotes a bracket on which the valve plate is installed, and 2g denotes a hinge pin.

However, according to the conventional expandable filler pipe as described above, in order to form the flare and the screw groove, the lubrication cap fastener had to be formed to a predetermined depth or more, and therefore, the deep drawing process had to be carried out several times. There was a problem that it takes time and a lot of defects such as cracking or breaking occurred.

In addition, in the case of welding by inserting the filling cap fastener in which the flare portion and the screw groove are formed and the valve plate is assembled, into the expansion pipe portion of the pipe body, the fuel injection cap is formed along the entire circumference of the end portion of the expansion pipe to prevent leakage of fuel vapor. Since the body of the fastener was to be welded around the pole, the welding takes a lot of time, there is a possibility of poor welding, there is a problem that the oxidation scale is likely to occur around the weld.

In addition, since the elongation is relatively high, easy to expand the general steel is used, it is easily corroded when used for a long time, there is a problem that it is difficult to meet the strict evaporative gas regulations and warranty period in North America.

The present invention is to solve all the problems of the conventional expandable filler pipe as described above, and its object is to provide an expandable filler pipe that can improve productivity and reduce costs due to the simple structure and manufacturing process. .

It is another object of the present invention to provide an expandable filler pipe that can be used reliably for a long time with improved durability and corrosion resistance.

Expansion pipe filler pipe according to the present invention for achieving the above object, the lower opening is connected to the fuel tank, the upper opening and the pipe body is formed with an expansion pipe so that the fuel injection can be inserted; A valve assembly comprising a valve body having a guide part press-fitted into the inner circumference of the expansion pipe portion, and a valve plate rotatably installed at a lower portion of the valve body to seal a lower surface of the lower end opening of the valve body by an elastic force of a spring; In the expansion-type filler pipe provided, a flare portion which is a seating portion of the oil filling cap is formed at the end of the expansion pipe portion, and a screw groove to which the screw portion of the oil filling cap is fastened is formed integrally under the flare portion of the screw groove. The valve body of the valve assembly is inserted and fixed to the inner circumference of the expansion pipe before forming, characterized in that the screw groove of the expansion pipe is formed integrally with the expansion pipe after fixing the valve assembly,

According to the present invention, since the flare portion and the screw groove are integrally formed at the end of the expansion portion of the pipe body, there is no need for a separate oil cap fastener, and the valve body on which the valve plate is installed is easily formed and formed by a short length. It is possible to minimize the decrease in strength due to, and also, since it is installed completely inserted into the expansion pipe, there is no fear of evaporation gas leak even without welding the pole.

Therefore, the structure and the manufacturing process are simple, the productivity is improved, the manufacturing cost is reduced, and the durability and the corrosion resistance are improved.

It is preferable that the pipe body is made of stainless steel to further improve corrosion resistance. Until now, stainless steel has been known to be hardly applied to expansion filler pipe because of its hard work hardening, but at least three times of expansion and annealing heat treatment processes are performed. It was confirmed through a long period of production test that by forming the expansion pipe step by step to effectively prevent cracking or bursting phenomenon due to work hardening during stainless processing.

Hereinafter, a preferred embodiment of the expandable filler pipe according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a cross-sectional view of an expanded state of the expandable filler pipe according to an embodiment of the present invention, Figure 4 is a cross-sectional view of the coupling state.

The expandable filler pipe according to the present invention is largely composed of a pipe body 10 and a valve assembly 20.

The lower opening of the pipe body 10 is directly connected to the fuel tank or connected to the fuel tank through a rubber tube, and the expansion opening 11 is formed in the upper opening so that the fuel gun can be inserted. A flare portion 12, which is a seating portion of the cap, is formed, and a screw groove 13 to which the screw portion of the oil cap is fastened is integrally formed under the flare portion.

The pipe body 10 is preferably made of stainless steel to improve corrosion resistance. The pipe body 10 is subjected to at least three times of expansion and annealing heat treatment to form the expansion pipe 11 step by step, thereby hardening work during stainless processing. It was confirmed through a long period of production test that can effectively prevent the occurrence of cracks or rupture phenomenon.

If the screw groove 13 is immediately formed in the pipe main body 10 in which the expansion pipe 11 is formed, it is impossible to insert and install the valve assembly 20, so that the screw groove 13 is molded after installation of the valve assembly. , Flare 12 is also preferably molded after installation of the valve assembly.

The valve assembly 20 is composed of a valve plate 22, a valve body 21 on which the valve plate is rotatably supported, and a spring 23 for applying upward elastic force to the valve plate.

In the upper portion of the valve body 21, a linear guide portion 21a press-fitted into the inner circumference of the expansion pipe 11 is formed, and the expansion pipe portion 11 of the pipe main body is formed by using the valve assembly 21, which has been assembled, using the guide portion. ) After being press-fitted into the inner circumference, the spot assembly 30 of the upper part of the guide part is spot welded to the inner wall of the expansion pipe 11, thereby coupling the valve assembly to the pipe main body. As described above, the valve assembly is coupled to the expansion pipe. After that, the screw groove and the flare portion are formed on the upper portion of the pipe body.

Reference numeral 24 denotes a bracket for installing the valve plate, and 25 denotes a hinge pin.

According to the expansion-type filler pipe of the present invention as described above, the flare portion and the screw groove are integrally formed at the end portion of the expansion portion of the pipe body, so that a separate oil cap cap is not required.

In addition, the valve body in which the valve plate is installed can be easily molded due to its short length, and can minimize the decrease in strength due to the molding. Also, since the valve body is completely inserted into the expansion part, the evaporation gas may leak even if the electric pole is not welded. Since there is no concern, the molding and welding processes can be dramatically simplified, and durability and corrosion resistance can be prevented from being exposed to the welded portion.

1 is an exploded cross-sectional view of a conventional expandable filler pipe.

Figure 2 is an assembled state cross-sectional view of a conventional expandable filler pipe.

3 is an exploded cross-sectional view of the expandable filler pipe according to the present invention.

Figure 4 is an assembled state cross-sectional view of the expandable filler pipe according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10 pipe body 11: expansion pipe

20 valve assembly 21 valve plate

Claims (2)

A lower opening is connected to the fuel tank, and a pipe main body having an expansion pipe formed at the upper opening so as to allow the fuel oil to be inserted therein; A valve assembly comprising a valve body having a guide part press-fitted into the inner circumference of the expansion pipe portion, and a valve plate rotatably installed at a lower portion of the valve body to seal a lower surface of the lower end opening of the valve body by an elastic force of a spring; In the expansion-type filler pipe provided, The flare part is formed at the end of the expansion portion to be a seating portion of the oil cap, and a screw groove to which the screw portion of the oil cap is fastened is integrally formed under the flare portion, and the valve body of the valve assembly is formed before the screw groove is formed. It is inserted into the inner circumference of the expansion pipe portion is fixed, the screw groove of the expansion pipe portion, characterized in that formed in the expansion pipe portion after the fixing of the valve assembly. The pipe filler pipe of claim 1, wherein the pipe body is made of stainless steel, and the pipe portion is expanded in stages by performing at least three times of expansion and annealing heat treatment processes.