JP4037963B2 - Check valve for filler pipe of fuel tank - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a filler pipe check valve mainly applied to a filler pipe of a vehicle fuel tank.
[0002]
[Prior art]
Conventionally, a fuel tank is provided with a float valve located at the inlet of a vent passage connected to the canister, and when the fuel tank is fully filled, the float valve is closed and breathing in the fuel tank is stopped. It has been. When the float valve is closed and breathing is stopped, the fuel from the refueling gun rises in the filler pipe, and when the fuel reaches the tip of the refueling gun, the refueling gun auto-stop mechanism works to automatically refuel. To be stopped.
[0003]
By the way, immediately after the float valve is closed, the tank internal pressure rises in a peak due to the inertia of the supplied fuel, and the reaction reversely causes the fuel to flow backward from the fuel tank to the filler pipe, causing the fuel to run up inside the filler pipe and auto-stop. There is a case in which fuel is blown out from the filler pipe immediately before the mechanism is operated, so-called blow-back.
[0004]
In order to prevent such blow-back, conventionally, according to Japanese Utility Model Laid-Open No. 63-88529, a check valve for preventing the back flow of fuel from the fuel tank side to the filler pipe side is provided at the end of the filler pipe on the fuel tank side. Things are known. This check valve includes a valve body that is urged by a spring toward a tapered valve seat formed on the filler pipe side of the valve casing, and the valve body is pushed by the dynamic pressure of fuel during refueling. When the fuel tank is opened and a backflow of fuel from the fuel tank side occurs, the valve body is seated on the valve seat portion to prevent the backflow of fuel.
[0005]
[Problems to be solved by the invention]
In the case where the check valve is provided as described above, it is desirable that the check valve has a large opening / closing stroke so that the fuel is smoothly injected into the fuel tank during refueling. When a coil spring interposed between the end wall on the fuel tank side and the valve body is used, if the open / close stroke is made large, the coil spring tends to fall. This fall can be prevented by projecting a spring guide that fits into the coil spring on the end wall and valve body of the valve casing, but this makes it difficult to make a large opening / closing stroke due to interference between the spring guides. become.
[0006]
In view of the above, the present invention has an object to provide a check valve for a filler pipe of a fuel tank that prevents a coil spring from collapsing and allows a large opening / closing stroke of a valve body.
[0007]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the present invention is a check valve provided at the end of the filler pipe communicating with the fuel tank on the fuel tank side to prevent the backflow of fuel from the fuel tank to the filler pipe, A coil spring that urges the valve body of the check valve toward the valve seat formed on the filler pipe side of the valve casing of the check valve is interposed between the fuel tank side end of the valve casing and the valve body. The valve body is formed in an umbrella shape having a rod, and a valve guide is inserted through the rod to support the valve body so as to be movable in the axial direction of the valve casing. provided parts, while providing the first spring guide in said valve guide and coaxially to the end wall of the valve casing, the rear side of the valve body A second spring guide disposed in said rod and coaxially, the causes is fitted one end periphery of the coil spring in the first spring guide and the other end of the coil spring to said second spring guide the inner peripheral is fitted, when the valve body is moved to the fully open state, the front end surface of the first spring guide in contact with the spring guide installation surface of the valve body, at least a portion of the coil spring Is sandwiched between the first and second spring guides, and an opening is formed in the peripheral wall portion of the valve casing so as to face the tip of the valve body in the fully open state. When a recess is formed between the two spring guides and the valve body moves to the fully open state, an end of the valve guide on the valve body side enters the recess and the spring It than Gugaido installation surface positioned on the filler pipe side, is characterized in.
[0008]
When the valve body is pushed open against the urging force of the coil spring by refueling from the filler pipe, the coil spring is guided by the first spring guide and the second spring guide to prevent the coil spring from falling down. There is no interference between the spring guides, and the opening and closing stroke of the valve element can be increased.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Referring to FIG. 1, reference numeral 1 denotes a fuel tank mounted on a vehicle, and a filler pipe 2 communicating with the inside of the fuel tank 1 is arranged so that a filler port 21 of the filler pipe 2 is positioned higher than the fuel tank 1. It is fixed to the fuel tank 1.
[0010]
A vent passage 11 connected to the canister 10 is connected to the fuel tank 1, and a float valve 12 located at the inlet of the vent passage 11 is provided in the fuel tank 1 so that the fuel tank 1 is filled with fuel. The float valve 12 is closed. The vent passage 11 is provided with a two-way valve 13 having a positive pressure valve 13a and a negative pressure valve 13b. When the internal pressure of the fuel tank 1 becomes a predetermined positive pressure or higher, the vapor in the fuel tank 1 is provided. Is introduced into the canister 10 through the vent passage 11 and adsorbed thereto, and when the tank internal pressure becomes a predetermined negative pressure or less, the atmosphere is introduced into the fuel tank 1 through the vent passage 11 so that the tank internal pressure is within a predetermined range. To fit in.
[0011]
As shown in FIG. 2A , the check valve 3 is configured by accommodating a valve body 31 in a valve casing 30 provided at an end 22 of the filler pipe 2.
[0012]
The valve casing 30 includes a cylindrical main body 300 made of a hard resin having a tapered valve seat portion 300a whose diameter decreases upward in a portion on the filler pipe 2 side, that is, in an upper portion, and a cylindrical main body. The end portion of the fuel tank 1 on the side of the fuel tank 1, that is, the end wall portion 301 made of the same hard resin that is fixed to the lower end portion by the locking claw 301 a, extends from the valve body 31 to the end wall portion 301. A cylindrical valve guide 301b that passes through the rod 31a is formed, and the valve body 31 is supported by the valve guide 301b so as to be movable in the axial direction of the valve casing 30, and between the valve body 31 and the end wall portion 301. A cylindrical coil spring 32 as an urging spring is interposed to urge the valve body 31 toward the valve seat portion 300a. A cylindrical first spring guide 32a fitted on the outer periphery of the end portion of the coil spring 32 is provided on the end wall portion 301 so as to be concentric with the valve guide 301b. A plurality of openings 301c through which fuel flows are formed in the outer end wall portion 301. A plurality of openings 300b through which fuel flows are also formed in the peripheral wall portion of the cylindrical main body portion 300 extending from the valve seat portion 300a to the end wall portion 301 side. At the upper end of the cylindrical main body 300, a connection portion 300 f is formed that is fitted to the end portion 22 of the filler pipe 2 via an O-ring 300 e, and the lower end of the joint sleeve 302 that is attached to the outer periphery of the filler pipe 2. The valve casing 30 is attached to the end portion 22 of the filler pipe 2 by inserting the connection portion 300 f into the portion and engaging the locking piece 300 g formed on the connection portion 300 f with the joint sleeve 302.
[0013]
The valve body 31 includes an umbrella-shaped main body member 310 integrally formed with the rod 31a and a spring receiving member 311 with which the coil spring 32 is brought into contact, and between the main body member 310 and the spring receiving member 311. The seal member 312 is sandwiched between the two. The main body member 310 and the spring receiving member 311 are formed of hard resin, but the seal member 312 is formed of an elastic material such as NBR, and a lip portion 312 a is formed on the outer periphery of the seal member 312. The main body member 310 includes a flat flange portion 310a at the peripheral portion of the umbrella shape, and an engagement protrusion 310b protruding from the back surface of the flange portion 310a is inserted into an engagement hole formed in the spring receiving member 311 through the seal member 312. By fitting and locking, the valve body 31 can be assembled with one touch. The outer diameter of the flange portion 310a is larger than the minimum diameter portion of the valve seat portion 300a and smaller than the outer diameter of the lip portion 312a. Thus, the lip portion 312a is seated on the valve seat portion 300a to ensure sealing performance, and excessive bending of the lip portion 312a is prevented by the contact of the flange portion 310a with the valve seat portion 300a, and the lip portion 312a. Durability is also ensured. It is possible to form a concave groove on the outer peripheral surface of the valve body 31 and attach the seal member 312 to the groove. However, as described above, the seal member 312 is sandwiched between the main body member 310 and the spring receiving member 311. This advantageously prevents the seal member 312 from falling off.
[0014]
The spring receiving member 311 and the sealing member 312 are formed in an annular shape having an inner diameter larger than the outer diameter of the valve guide 301b. When the valve body 31 is opened downward, the spring receiving member 311 and the sealing member 312 The guide 301b is not interfered with. In addition, a cylindrical second spring guide 32b fitted to the inner periphery of the end of the coil spring 32 is provided on the inner peripheral edge of the spring receiving member 311, and the coil is formed by the first spring guide 32a and the second spring guide 32b. The spring 32 can be prevented from falling down. Both the first and second spring guides 32a and 32b can be formed so as to be fitted to the inner circumference or the outer circumference of the end of the coil spring 32. Interferes with each other, and the opening / closing stroke of the valve body 31 cannot be increased. In contrast, in the present embodiment, the first spring guide 32a is fitted to the outer periphery of the end of the coil spring 32, and the second spring guide 32b is fitted to the inner periphery of the end of the coil spring 32. 2B, the valve body 31 is pushed and opened until the spring receiving member 311 comes into contact with the end surface of the first spring guide 32a, as shown in FIG. I can take it. A first spring guide 32 a that fits on the outer periphery of the end of the coil spring 32 is formed in the spring receiving member 311 on the outer periphery of the end of the coil spring 32, and a second spring guide that fits on the inner periphery of the end of the coil spring 32. You may form 32b in the end wall part 301. FIG.
[0015]
Further, the valve body 31 is formed with a bypass hole 31 b that communicates the upstream portion and the downstream portion of the valve body 31. In the present embodiment, a bypass hole 31 b penetrating the front and back of the main body member 310 is formed in the counterbore-shaped portion in the umbrella-shaped slope portion of the main body member 310 of the valve body 31. The diameter of the bypass hole 31b should be set small so as not to impair the fuel backflow prevention function, which is the original function of the check valve 3.
[0016]
When the fuel gun G is inserted into the filler port 21 of the filler pipe 2 and fuel is poured, the valve element 31 is biased by the coil spring 32 by the dynamic pressure of the fuel flowing in the filler pipe 2 as shown in FIG. The fuel is injected into the fuel tank 1 through the opening 300 b of the cylindrical main body 300 of the valve casing 30.
[0017]
Here, when the valve body 31 is opened, the first spring guide 32 a and the second spring guide 32 b are close to each other while guiding the coil spring 32, and finally the first spring guide on the outer peripheral side of the coil spring 32. Since the coil spring 32 is sandwiched from the inside and outside by the second spring guide 32b on the inner peripheral side of the coil spring 32, the coil spring 32 can be prevented from falling down and the first and second spring guides 32a and 32b can be prevented. There is no mutual interference, and the opening / closing stroke of the valve body 31 can be made large, so that fuel is smoothly injected into the fuel tank.
[0018]
When the fuel is injected, a breathing action in the fuel tank 1 is obtained via the vent passage 11, but when the fuel tank 1 is full and the float valve 12 closes the vent passage 11 and the breathing action is stopped. Immediately thereafter, the tank internal pressure rises peakly due to the inertia of the supplied fuel, and the reaction causes the fuel to flow backward from the fuel tank 1 side to the filler pipe 2, but the opening of the end wall portion 301 of the valve casing 30. The valve body 31 is pushed up by the tank internal pressure acting on the back surface of the valve body 31 via the portion 301c, and the check valve 3 is closed to prevent the back flow of fuel. Thus, the so-called blow-back, in which the fuel rapidly rushes through the filler pipe 2 and the fuel is blown out from the fuel filler port 21 before the auto-stop mechanism of the fuel gun G is activated, is prevented. Here, when the check valve 3 is closed, the lip portion 312a of the seal member 312 is seated on the valve seat portion 300a, and the impact when the valve is closed is alleviated by the elasticity of the seal member 312. Deterioration of durability due to 300a hitting wear is suppressed.
[0019]
After refueling, the filler port 2 of the filler pipe 2 is covered with a filler cap (not shown). The filler cap is provided with a relief valve having a valve opening set pressure higher than that of the positive pressure valve 13a of the two-way valve 13. An excessive increase in the tank internal pressure due to clogging of the vent passage 11 or the like causes the relief valve to function. However, if the check valve 3 is closed and the communication between the fuel tank 1 and the filler pipe 2 is blocked, the relief function by the relief valve cannot be obtained. However, in this embodiment, since the bypass hole 31b is formed in the valve body 31 of the check valve 3 as described above, even if the check valve 3 is closed, the inside of the fuel tank 1 and the filler pipe 2 are bypass holes. It communicates via 31b.
[0020]
When the internal pressure of the tank rises due to clogging of the vent passage 11, fuel bypasses when the check valve 3 is positioned below the liquid level in the tank, or vapor bypasses when the check valve 3 is positioned above the liquid level. It flows into the filler pipe 2 through the hole 31b, and an excessive increase in the tank internal pressure is prevented by the function of the relief valve of the filler cap.
[0021]
【The invention's effect】
As is apparent from the above description, according to the present invention, the coil spring can be prevented from falling over, and the valve element can be opened and closed in a large stroke, so that fuel can be smoothly supplied into the fuel tank.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing an example of a check valve for a filler pipe of a fuel tank according to the present invention. FIG. 2A is a side cross-sectional view showing a shut-off state of a communication passage when a valve body is closed. Side sectional view showing the communication state of the communication passage by opening the valve 【Explanation of symbols】
DESCRIPTION OF SYMBOLS 1 Fuel tank 2 Filler pipe 22 End part 3 Check valve 30 Valve casing 31 Valve body 31b Bypass hole 300a Valve seat part 32 Coil spring 32a 1st spring guide 32b 2nd spring guide

Claims (1)

A check valve provided at an end of a filler pipe communicating with the inside of the fuel tank on the fuel tank side to prevent backflow of fuel from the fuel tank to the filler pipe, and a portion of the check valve valve casing on the filler pipe side A coil spring that urges the valve body of the check valve toward the valve seat portion formed between the end of the valve casing on the fuel tank side and the valve body,
The valve body is formed in an umbrella shape having a rod, and a valve guide is provided on an end wall portion of the valve casing for inserting the rod and supporting the valve body movably in the axial direction of the valve casing. A first spring guide is disposed concentrically with the valve guide on the end wall portion of the valve casing, while a second spring guide is disposed concentrically with the rod on the back side of the valve body. ,
Together is fitted one end periphery of the coil spring in the first spring guide, the by fitting the other end portion inner periphery of the coil spring to the second spring guide, when the valve body is moved to the fully open state On the other hand, the tip surface of the first spring guide abuts against the spring guide installation surface of the valve body, and at least a part of the coil spring is sandwiched between the first and second spring guides.
In the peripheral wall portion of the valve casing, an opening is formed so as to face the tip of the valve body in a fully open state,
A concave portion is formed between the rod and the second spring guide, and when the valve body moves to a fully open state, an end portion of the valve guide on the valve body side enters the concave portion and comes from the spring guide installation surface. Is also located on the filler pipe side,
The fuel tank filler pipe check valve.

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