JP6788939B2 - How to install the filler pipe - Google Patents

Description

The present invention relates to a method for attaching a filler pipe by welding and attaching the filler pipe to the outer wall of a hollow molded product. In particular, it can be used for attaching a filler pipe to be attached to an automobile fuel tank formed by blow molding.

In the fuel tank for automobiles, a filler tube for injecting fuel into the fuel tank is attached to the fuel tank.
Conventionally, such fuel tanks are made of metal, but in recent years, fuel tanks made of thermoplastic resin are also available due to the weight reduction of the vehicle, the absence of rust, and the ease of molding into a desired shape. It has come to be used.

Since the production is easy, the fuel tank 1 which is a blow-molded product made of a thermoplastic resin manufactured by blow molding is used. In the fuel tank 1 which is a blow-molded product made of such a thermoplastic resin, as shown in FIG. 6, various tubes for injecting or discharging a liquid or gas into the fuel tank 1 together with various hoses and cables. A filler pipe 120 for attaching a hose or a pipe is attached to the tank outer wall 2 of the fuel tank 1.

For example, as shown in FIG. 7, there is a device in which the filler pipe tip member 140 is held on the outer wall 102 of the fuel tank 101 and the filler pipe 120 is attached to the fuel tank 101 (see, for example, Patent Document 1).
In this case, a filler pipe mounting surface 112 provided with a filler pipe insertion hole 111 is formed in the outer wall 102 of the fuel tank 101, and the filler pipe tip member 140 is inserted into the filler pipe insertion hole 111. A flange portion 141 that abuts on the filler pipe mounting surface 112 is formed on the outer periphery of the filler pipe tip member 140 to hold the filler pipe tip member 140 on the filler pipe mounting surface 112.

A filler pipe flange portion 124 is formed at the tip of the filler pipe 120, the filler pipe flange portion 124 covers the flange portion 141 of the filler pipe tip member 140, and the filler pipe flange portion 124 is attached to the filler pipe of the outer wall 102 of the fuel tank 101. It is welded to the surface 112 and attached to hold the flange portion 141 of the filler pipe tip member 140.

Further, as shown in FIG. 8, a filler pipe mounting surface 212 provided with a filler pipe insertion hole 211 is formed in the outer wall 202 of the fuel tank 201, and the filler pipe mounting member 240 is inserted into the filler pipe insertion hole 211. A flange portion 241 that abuts on the filler pipe mounting surface 212 is formed on the outer periphery of the filler pipe mounting member 240, and the flange portion 241 of the filler pipe mounting member 240 is welded to the filler pipe mounting surface 212.

At that time, the filler pipe 220 is inserted into the outer cylinder portion 242 of the filler pipe mounting member 240 in advance, and the filler pipe 220 is locked by the ridge 243 provided on the outer cylinder portion 242. In that case, a seal ring 244 may be provided between the ridges 243 and the ridges 243 to seal the ridges.
However, in either case, the filler pipe tip member 140 and the filler pipe mounting member 240 are used, which increases the number of parts and increases the cost and labor for assembly.

Japanese Unexamined Patent Publication No. 2014-231286

Therefore, the present invention is intended to provide a method for mounting a filler pipe with a small number of parts and reduced cost and labor.

In order to solve the above problems, the present invention according to claim 1 is a method for attaching a filler pipe by welding and attaching the filler pipe to the outer wall of a hollow molded product made of synthetic resin.
A filler pipe mounting portion for welding the filler pipe is provided in the hollow molded product, and the filler pipe mounting portion is provided with a filler pipe welding surface for welding the filler pipe and a filler pipe insertion hole for inserting the inner cylinder portion of the filler pipe.
The filler pipe has a filler pipe tip portion formed integrally with the filler pipe, and the filler pipe tip portion includes an outer cylinder portion located outside the outer wall of the hollow molded product and an outer wall of the hollow molded product. From the inner cylinder portion located inside the inner cylinder portion and the connection portion between the outer cylinder portion and the inner cylinder portion, the outer cylinder portion and the inner cylinder portion are integrally and integrally projected in a ring shape in the width direction of the outer surface, and the cross-sectional shape is lateral U. It has a flange part that is formed to protrude in a shape.
By heating the surface of the flange of the filler pipe that faces the welded surface of the filler pipe,
The heated flange is pressed against the welded surface of the filler pipe to weld it, and the inner surfaces of the upper and lower walls of the flange protruding in a horizontal U-shape are brought into close contact with each other and welded to the outer wall of the hollow molded product. It is a method of attaching a filler pipe, which is characterized by attaching a pipe.

The present invention of claim 1 is a method of attaching a filler pipe by welding a filler pipe to the outer wall of a hollow molded product made of synthetic resin, wherein a filler pipe attaching portion for welding the filler pipe is provided on the hollow molded product. There is. Therefore, the filler pipe can be reliably welded to the filler pipe mounting portion on the outer wall of the hollow molded product.

The filler pipe mounting portion of the outer wall of the hollow molded product is provided with a filler pipe welding surface for welding the filler pipe and a filler pipe insertion hole for inserting the inner cylinder portion of the filler pipe. Therefore, the filler pipe can be attached by inserting the inner cylinder portion of the filler pipe into the filler pipe insertion hole and welding the filler pipe to the welding surface of the filler pipe.

The filler pipe has a filler pipe tip portion formed integrally with the filler pipe, and the filler pipe tip portion includes an outer cylinder portion located outside the outer wall of the hollow molded product and an outer wall of the hollow molded product. From the inner cylinder portion located inside the inner cylinder portion and the connection portion between the outer cylinder portion and the inner cylinder portion, the outer cylinder portion and the inner cylinder portion are integrally and integrally projected in a ring shape in the width direction of the outer surface, and the cross-sectional shape is lateral U. It has a flange portion formed by protruding in a character shape.
Therefore, when forming the filler pipe, the flange portion can be integrally formed by blow molding or the like, it is not necessary to form the flange portion with a separate member, the number of parts is reduced, and the labor for assembly is reduced. Can be reduced. The flange portion can be welded to the welded surface of the filler pipe, and the filler pipe can be attached to the outer wall of the hollow molded product.

The surface of the flange portion of the filler pipe facing the welded surface of the filler pipe is heated, and the heated flange portion is pressed against the welded surface of the filler pipe for welding. Therefore, the filler pipe can be welded to the outer wall of the hollow molded product simply by heating the surface of the flange portion facing the welded surface of the filler pipe and pressing it against the outer wall of the hollow molded product, and the filler pipe can be easily attached. Is.

While pressing the flange part of the filler pipe against the welded surface of the filler pipe, the inner surfaces of the upper and lower walls of the flange part protruding in a horizontal U shape are brought into close contact with each other and welded, and the filler pipe is attached to the outer wall of the hollow molded product. It is installed. Therefore, the upper and lower walls of the flange portion having a horizontal U-shaped cross section can be welded to improve the rigidity of the flange portion, and the welding strength between the flange portion and the outer wall of the hollow molded product can be secured. Can be done.

The present invention of claim 2 is a method of attaching a filler pipe in which a bellows portion is formed on the filler pipe in the vicinity of the flange portion of the filler pipe.

In the present invention of claim 2, a bellows portion is formed in the filler pipe in the vicinity of the flange portion of the filler pipe. Therefore, it is possible to improve the flexibility in the vicinity of the mounting portion of the filler pipe and prevent stress from being applied to the outer wall of the hollow molded product and the welded portion of the flange portion of the filler pipe due to vibration of the filler pipe or the like. Further, when the filler pipe is assembled to the vehicle body, the filler pipe can be bent along the vehicle body.

According to the third aspect of the present invention, the flange portion is a method for attaching a filler pipe formed so as to project in the width direction of the outer surface from the bellows portion.

In the present invention of claim 3, since the flange portion is formed so as to project in the width direction of the outer surface from the bellows portion, the area for welding the flange portion to the filler pipe mounting portion of the outer wall of the hollow molded product is increased. It is possible to improve the welding strength between the flange portion and the outer wall of the hollow molded product. When pressing the flange portion against the welded surface of the filler pipe, it is easy to apply a pressing force to the flange portion.

The present invention of claim 4 is a method of attaching a filler pipe that heats a filler pipe welding surface of a hollow molded product and a surface of the flange portion of the filler pipe facing the filler pipe welding surface.

In the present invention of claim 4, the filler pipe welding surface of the hollow molded product and the surface of the flange portion of the filler pipe facing the filler pipe welding surface are heated. Therefore, both the filler pipe welding surface of the hollow molded product and the surface of the flange portion of the filler pipe facing the filler pipe welding surface can be melted to more reliably weld the flange portion and the hollow molding. The welding strength with the outer wall of the product can be improved.

The present invention of claim 5 is a method of attaching a filler pipe in which the filler pipe is formed of a plurality of layers and has a barrier layer inside.

In the present invention of claim 5, since the filler pipe is formed of a plurality of layers, a material having excellent durability against the liquid injected into the blow-molded product is selected for the inner layer, and the outer layer is the blow-molded product. A material that is easily welded to the outer wall, a material with high rigidity, a material with excellent weather resistance, etc. can be selected.
Since it has a barrier layer inside, it is possible to prevent fuel gas from leaking to the outside from the filler pipe. At the flange portion of the filler pipe, the barrier layer can be doubled, and leakage of fuel gas from the flange portion can be reliably prevented.

According to the sixth aspect of the present invention, the hollow molded product is an automobile fuel tank, and the outer wall of the automobile fuel tank is a method of attaching a filler pipe formed of a multilayer structure.

In the present invention of claim 6, the hollow molded product is an automobile fuel tank, and the outer wall of the automobile fuel tank is formed of a multi-layer structure. Therefore, a material having high rigidity and a material having high fuel oil resistance can be used in combination, and a barrier layer can also be provided.
Therefore, it is possible to improve the rigidity of the fuel tank for automobiles and prevent the permeation of fuel from the fuel tank.

Since the surface of the flange of the filler pipe facing the welded surface of the filler pipe is heated and the heated flange is pressed against the welded surface of the filler pipe for welding, the filler pipe can be welded to the outer wall of the hollow molded product. It can be installed and is easy to install.
Since the inner surfaces of the flanges protruding in a horizontal U shape are brought into close contact with each other and welded, the upper and lower walls of the flanges protruding in a horizontal U shape are welded to the flange portion. The rigidity can be improved, and the welding strength between the flange portion and the outer wall of the hollow molded product can be ensured.

It shows the embodiment of this invention and is sectional drawing of the attachment part of the filler pipe. It shows the embodiment of this invention and is sectional drawing of the part which attached the filler pipe to the outer wall of a fuel tank. It shows the embodiment of this invention and is sectional drawing which shows the process of attaching a filler pipe to the outer wall of a fuel tank. (A) is a cross-sectional view of a flange portion in a state before heating the hot plate. (B) is a cross-sectional view of the flange portion in a state where the flange portion is heated by a hot plate. (C) is a cross-sectional view of a flange portion in a state where the flange portion is welded to the filler pipe mounting portion. It shows another embodiment of this invention, and is sectional drawing of the part which provided the bellows part near the attachment part of a filler pipe. The embodiment of the present invention is shown, and it is an exploded perspective view which shows the process of attaching a filler pipe to the outer wall of a fuel tank. It is sectional drawing of a fuel tank. It is sectional drawing of the filler pipe attachment part of the conventional fuel tank. It is sectional drawing of the filler pipe attachment part of another conventional fuel tank.

The present invention will be described by taking as an example an attachment method of attaching the filler pipe tip 21 of the filler pipe 20 to the tank outer wall 2 of the fuel tank 1 which is a hollow molded product, but the filler pipe is attached to a hollow molded product other than the fuel tank 1. It can also be widely implemented when installing 20.
Embodiments of the present invention will be described with reference to FIGS. 1 to 6.
First, the fuel tank 1 according to the embodiment of the present invention will be described with reference to FIG.
FIG. 6 is a cross-sectional view of the fuel tank 1 used in the method of attaching the filler pipe 20 according to the embodiment of the present invention.

As shown in FIG. 6, the fuel tank 1 is formed by blow molding, and the tank outer wall 2 is integrally formed. The tank outer wall 2 may be formed of one layer of the thermoplastic synthetic resin, or may be formed so as to have a plurality of layers of the thermoplastic synthetic resin. Further, the fuel tank 1 and the hollow molded product molded by a molding method other than blow molding can also be used.
When formed of a plurality of layers, it can be formed by combining a rigid layer, a fuel oil resistant layer, and a layer having low fuel permeability.

When formed of a plurality of layers, for example, a barrier layer in which the central layer is made of ethylene vinyl alcohol copolymer (EVOH) or nylon to prevent fuel permeation, and modified polyethylene are formed above and below the barrier layer. It is composed of an adhesive layer to be formed and an outer layer formed of high-density polyethylene (HDPE) on the outer surface of each of the adhesive layers.
The surface layer of the tank outer wall 2 can be formed of a conductive material. The conductive material is, for example, a synthetic resin mixed with carbon powder. In this case, the static electricity generated in the fuel tank 1 can be reliably released to the outside from the tank outer wall 2.

A filler pipe tip 21 of the filler pipe 20 shown in FIG. 1 is provided on the upper portion of the tank outer wall 2. In the present invention, there is no need for a mounting member of the filler pipe 20 for mounting the filler pipe tip 21 to the tank outer wall 2 which is a blow-molded product, and there is no need to attach the filler pipe 20 to the mounting member. It can be reduced.

A breather port mounting portion 7 is also formed on the upper portion of the tank outer wall 2. The breather port mounting portion 7 mounts a breather hose (not shown) in order to allow the gas in the fuel tank 1 to escape to the outside of the tank when refueling. Reference numeral 8 denotes a cut-off valve for preventing fuel leakage from the fuel tank 1 when the vehicle falls.
A hose clamp for holding various hoses such as a fuel transfer hose may be provided on the upper surface of the tank outer wall 2.

An opening 6 is further formed on the upper surface of the tank outer wall 2, and the sub tank 5 is attached to the inner surface of the lower portion of the tank outer wall 2 from the opening 6. The opening 6 is closed by the lid 60, and the lid 60 is screwed around the opening 6 by the lock plate 51. A seal ring 52 is attached between the opening 6 and the lid 60 to seal between the opening 6 and the lid 60.

Then, the fuel pump unit 4 is installed in the sub tank 5. The sub tank 5 is provided so that the fuel pump unit 4 can reliably deliver the fuel in the fuel tank 1 to the engine when the vehicle tilts or vibrates. The fuel pump unit 4 is attached to the lid 60 for repair and maintenance. A pipe extends from the fuel pump unit 4, and the fuel main port mounting portion 9 is connected to the lid 60 at the upper part of the tank outer wall 2. A fuel pipe (not shown) for feeding fuel to the engine is attached to the fuel main port attachment portion 9.

As shown in FIG. 5, a filler pipe mounting portion 10 is formed on the upper portion of the tank outer wall 2 of the fuel tank 1. The filler pipe mounting portion 10 is formed with a filler pipe insertion hole 11. The outer surface around the filler pipe insertion hole 11 forms a flat filler pipe welding surface 12 to which the filler pipe tip portion 21 is welded.
The filler pipe mounting portion 10 is formed on the tank outer wall 2 of the fuel tank 1 when the fuel tank 1 is blow-molded.

Next, the filler pipe 20 and the filler pipe tip 21 used in the embodiment of the present invention will be described with reference to FIG.
The filler pipe 20 is formed separately from the fuel tank 1 by blow molding, extrusion molding, or the like. As the material, a fuel-resistant oil-resistant thermoplastic synthetic resin is used. For example, synthetic resins such as modified polyethylene, high-density polyethylene (HDPE), polypropylene, polyacetal, and polyamide can be used, but the fuel tank 1 is molded. Materials and meltable materials are used.

Further, the filler pipe 20 can be formed from a plurality of layers composed of different materials. In this case, the inner layer is selected from a material having excellent durability against the fuel injected into the fuel tank 1, and the outer layer is made of a material that easily welds to the tank outer wall 2 of the fuel tank 1, a highly rigid material, or weather resistance. Excellent materials and the like can be selected.

The filler pipe tip 21 for attaching the filler pipe 20 to the tank outer wall 2 of the fuel tank 1 is located inside the outer cylinder portion 22 located outside the tank outer wall 2 of the fuel tank 1 and inside the tank outer wall 2 of the fuel tank 1. It has an inner cylinder portion 23 and a flange portion 24 integrally formed by projecting from a connecting portion between the outer cylinder portion 22 and the inner cylinder portion 23 in a ring shape in the width direction of the outer surface.

The flange portion 24 has a horizontal U-shape in the cross-sectional shape of a portion of the flange portion 24 that projects in a ring shape in the width direction of the outer surface. Therefore, before welding, the upper side portion 24a of the flange portion and the lower side portion 24b of the flange portion are connected by the flange portion bent portion 24c to be formed substantially in parallel. Since the lower flange portion 24b is formed in a plane parallel to the filler pipe welding surface 12 of the tank outer wall 2 of the fuel tank 1, the filler pipe welding surface 12 and the lower flange portion 24b are in close contact with each other to achieve welding strength. Can be improved.

As shown in FIG. 2, after the flange portion 24 is welded to the filler pipe welding surface 12 of the tank outer wall 2 of the fuel tank 1, the flange portion bent portion 24c is crushed and the flange portion upper portion 24a and the flange portion lower side are collapsed. Part 24b is in close contact and welded.
When the flange portion 24 is welded to the filler pipe welding surface 12 of the tank outer wall 2 of the fuel tank 1, the flange portion 24 is strongly attached to the tank outer wall 2 because the upper flange portion 24a and the lower flange portion 24b are in close contact with each other. It can be pressed against the outer surface, the flange portion 24 can be reliably welded, and the welding strength can be improved.
Further, the upper side portion 24a of the flange portion and the lower portion 24b of the flange portion can be brought into close contact with each other to improve the rigidity of the flange portion 24 and improve the strength of the flange portion 24 holding the filler pipe tip portion 21.

Next, the filler pipe 20 and the filler pipe tip 21, which are other embodiments of the present invention, will be described with reference to FIGS. 4 and 5.
In this embodiment, a bellows portion 25 is formed on the filler pipe 20 in the vicinity of the flange portion 24 of the filler pipe 20. Even if the bellows portion 25 is formed adjacent to the flange portion 24 as shown in FIG. 4, the bellows portion 25 is formed at a portion slightly spaced from the flange portion 24 and close to the flange portion 24 as shown in FIG. The bellows portion 25 may be provided.

When the bellows portion 25 is provided, the bellows portion 25 can be bent. Therefore, when the filler pipe 20 is attached to the fuel tank 1 by improving the flexibility in the vicinity of the filler pipe tip portion 21 of the filler pipe 20. Further, even if the filler pipe 20 vibrates due to the vibration of the automobile after mounting, it is possible to prevent stress from being applied to the welded portion between the tank outer wall 2 of the fuel tank 1 and the flange portion 24 of the filler pipe 20. Further, when the filler pipe 20 is assembled to the fuel tank 1 or the vehicle body, the filler pipe 20 can be bent along the vehicle body.

When the bellows portion 25 is provided on the filler pipe 20, it is preferable that the flange portion 24 is formed so as to project from the bellows portion 25 in the width direction of the outer surface. In this case, the area of the flange portion 24 for welding the flange portion 24 to the filler pipe welding surface 12 of the tank outer wall 2 of the fuel tank 1 can be increased, and the flange portion 24 and the filler pipe of the fuel tank 1 can be attached. The welding strength with the portion 10 can be improved. Further, when the flange portion 24 is pressed against the filler pipe welding surface 12, the flange portion 24 is easily pressed.

Next, a method of welding the filler pipe tip portion 21 of the filler pipe 20 to the filler pipe mounting portion 10 of the fuel tank 1 will be described with reference to FIGS. 3 to 5.
As shown in FIG. 3A, the flange portion 24 before heating has a horizontal U-shape in cross section.
Next, as shown in FIG. 3B, the lower flange portion 24b of the flange portion 24 of the filler pipe tip portion 21 is brought into contact with the hot plate 30 to be heated.

As shown by the arrow in FIG. 3B, the flange portion 24 is pressed during or after heating to bring the upper flange portion 24a and the lower flange portion 24b into close contact with each other. As a result, the upper flange portion 24a and the lower flange portion 24b are welded together. Welding of the upper flange portion 24a and the lower flange portion 24b can also be performed when the flange portion 24 is pressed against the filler pipe welding surface 12 of the next tank outer wall 2.

At this time, when the filler pipe 20 is formed of a plurality of layers and a barrier layer is provided on the inner layer, a material having excellent durability against the liquid injected into the fuel tank 1 is selected for the inner layer, and the outer layer is provided. A barrier layer that does not allow fuel to permeate can be provided inside by selecting a material that easily welds to the tank outer wall 2 of the fuel tank 1, a material with high rigidity, a material with excellent weather resistance, and the like.

In this case, the flange portion 24 also has a double layer in which the upper flange portion 24a and the lower flange portion 24b are in close contact with each other and has a barrier layer inside, so that fuel gas can be prevented from leaking to the outside from the flange portion 24. The flange portion bent portion 24c at the tip of the flange portion 24 also has a barrier layer, so that fuel gas leakage from the tip of the flange portion 24 can be reliably prevented.

Next, as shown in FIG. 5, the inner cylinder portion 23 of the filler pipe tip portion 21 is inserted into the filler pipe insertion hole 11 of the tank outer wall 2, and as shown in FIG. 3C, the flange portion lower side portion 24b is inserted. Press against the filler pipe welding surface 12 of the tank outer wall 2 to bring it into close contact. By this pressing, the filler pipe tip 21 can be welded to the tank outer wall 2.

At this time, the lower side portion 24b of the flange portion can be heated, and the filler pipe welding surface 12 of the tank outer wall 2 can also be heated. In this case, the filler pipe welding surface 12 of the tank outer wall 2 and the lower flange portion 24b of the flange portion 24 of the filler pipe 20 can be welded more reliably, and the flange portion 24 and the filler pipe mounting portion 10 can be welded together. The welding strength can be improved.

1 Fuel tank 2 Tank outer wall 10 Filler pipe mounting part 12 Filler pipe welding surface 20 Filler pipe 21 Filler pipe tip 22 Outer cylinder 23 Inner cylinder 24 Flange 25 Bellows

Claims (6)

It is a method of attaching a filler pipe by welding a filler pipe to the outer wall of a hollow molded product made of synthetic resin.
A filler pipe mounting portion for welding the filler pipe is provided in the hollow molded product, and the filler pipe mounting portion is inserted into a filler pipe welding surface for welding the filler pipe and a filler pipe for inserting the inner cylinder portion of the filler pipe. Make a hole,
The filler pipe has a filler pipe tip portion that is continuously and integrally formed with the filler pipe, and the filler pipe tip portion includes an outer cylinder portion located outside the outer wall of the hollow molded product and the filler pipe portion. The inner cylinder portion located inside the outer wall of the hollow molded product and the connection portion between the outer cylinder portion and the inner cylinder portion are continuously and integrally ringed in the width direction of the outer surface with the outer cylinder portion and the inner cylinder portion. It has a flange portion that protrudes in a shape and has a horizontal U-shaped cross section.
The surface of the flange portion of the filler pipe facing the welded surface of the filler pipe is heated.
The heated flange portion is pressed against the welding surface of the filler pipe to be welded, and the inner surfaces of the upper and lower walls of the flange portion projecting in a horizontal U shape are brought into close contact with each other and welded to form the hollow molded product. A method of attaching a filler pipe, which comprises attaching the filler pipe to the outer wall of the above. The method for attaching a filler pipe according to claim 1, wherein a bellows portion is formed on the filler pipe in the vicinity of the flange portion of the filler pipe. The method for attaching a filler pipe according to claim 2, wherein the flange portion is formed so as to project from the bellows portion in the width direction of the outer surface. The filler pipe according to any one of claims 1 to 3, which heats the welded surface of the filler pipe of the hollow molded product and the surface of the flange portion of the filler pipe facing the welded surface of the filler pipe. Mounting method. The method for attaching a filler pipe according to any one of claims 1 to 4, wherein the filler pipe is formed of a plurality of layers and has a barrier layer inside. The method for attaching a filler pipe according to any one of claims 1 to 5, wherein the hollow molded product is an automobile fuel tank, and the outer wall of the automobile fuel tank is formed of a multilayer structure.

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