JPH09286485A - Forming of internal rib on tank of fiber-reinforced plastic and rib used therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable using plastics for the whole of a tank, mice it easy to form an internal rib, and restrain the manufacturing cost from increasing. SOLUTION: In a method for forming an internal rib circularly on the internal surface of a tank of fiber-reinforced plastic a ring-shaped rib body 1 formed of a fiber-reinforced plastic is severed at a part. This rib body 1 is spread wide inside the tank A so as to put the circumferential surface 1a of the rib body 1 in tight contact with the internal surface 4a of the tank. After fitting a filling piece 2 in the space 5 produced between the ends 1b, 1b of the severance in the rib body 1, the rib body 1 is joined to the internal surface 4a of the tank by secondary adhesion 6.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for forming an inner surface rib in a fiber reinforced resin tank and a rib body used for the method, and more particularly, to an inner surface of a fiber reinforced resin double shell tank for storing gasoline, light oil and the like. And a rib body used for the method.

[0002]

2. Description of the Related Art Conventionally, when a liquid dangerous substance such as gasoline or light oil is stored in a gas station, a steel plate tank has been used. A tank made of fiber reinforced resin with excellent corrosion resistance is used. The tank made of fiber reinforced resin is composed of a double structure of an inner shell that directly contacts the liquid dangerous substance inside and an outer shell that covers the inner shell. Is provided with a gap for detecting a leak of the leak sensor, and a leak sensor is arranged therein. And since these tanks are buried underground and used, they can be thickened to withstand pressures such as earth pressure,
Reinforcing ribs are provided on the inner surface or outer surface of the tank. The reinforcing rib is preferably attached to the inner surface of the tank in order to prevent earth pressure from being applied to the connection between the rib and the tank body in the direction in which the rib is separated.

[0003]

However, if the wall thickness of the tank is simply increased as a means for reinforcing the tank, the weight of the tank becomes large and the characteristic that the resin is lightweight is impaired. .. Further, after the tank is formed, the reinforcing ribs are formed by overlaying a bar-shaped steel material such as a square bar on the inner surface of the tank with a hand lay of a fiber-reinforced resin to form a reinforcing rib. However, there is a problem in that the weight of the tank increases and the resinification of the entire tank impairs the intended image of the corrosion-resistant product. Further, in this method, since the elastic modulus of the material of the tank (fiber reinforced resin) and the elastic modulus of the rib are different, the external pressure is almost completely received by the rib, and in the worst case, the stress is distorted, and the tank is damaged due to stress concentration. There is a risk. Therefore, it is necessary to reinforce the part in order to allow it, and there is a problem that the cost is increased due to the labor and material cost. In addition, a ring-shaped rib with a part cut out in advance with fiber reinforced resin is molded,
A pair of metal turnbuckle-type fittings are provided at both ends of the tank, which are arranged on the inner surface of the tank.
In the method in which the reinforcing ribs are formed by connecting with a buckle-type connecting device and overlaying the reinforcing ribs with a hand lay of a fiber-reinforced resin, the formation of the reinforcing ribs is easy, but the purpose is to convert the entire tank into resin. There is a problem that the image of the product having corrosion resistance is impaired. The present invention has been made in order to solve such a conventional problem, and an object of the present invention is to make it possible to make the entire tank resinous, and furthermore, it is easy to form the inner surface ribs and to reduce the manufacturing cost. It is an object of the present invention to provide a method for forming an inner surface rib in a fiber reinforced resin tank capable of suppressing an increase, and a rib body used therefor.

[0004]

According to the present invention, there is provided a method of forming an inner surface rib in a fiber reinforced resin tank according to the present invention, which comprises forming a circumferential inner surface rib on the inner surface of a fiber reinforced resin tank. Then, a part of a ring-shaped rib body formed of a fiber reinforced resin is cut, and the rib body is pushed and spread in a tank so that its outer surface is in close contact with the inner surface of the tank, and the rib body is formed between the cut end faces of the rib body. After the fitting piece was fitted into the space, the rib body was joined to the inner surface of the tank by secondary bonding.

In the method of forming an inner surface rib in a fiber-reinforced resin tank according to the present invention, a part of a ring-shaped rib formed of a fiber-reinforced resin is cut, and the rib is pushed and spread in the tank to form an outer surface of the tank. After the fitting piece is fitted into the space created between the cut end faces of the rib body while being in close contact with the inner surface, the rib body is joined to the tank inner surface by secondary bonding, so that the outer diameter of the rib body Does not match the inner diameter of the tank as in the related art, the ribs can be easily formed on the inner surface of the tank even if it does not match the inner diameter of the tank.

In order to achieve the above object, the rib body of the present invention uses a roving glass obtained by impregnating a resin formed by adding a low-shrinkage agent or a filler to a tough thermosetting resin, In the rib body forming mold installed on the mandrel,
A configuration in which the film was wound into a glass fiber rich shape and formed into a ring shape was employed.

In the rib body of the present invention, since it is configured as described above, the molding shrinkage can be reduced, and even if a thick rib body is molded, cracks can be prevented from occurring during molding. it can.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a method for forming an inner surface rib in a fiber reinforced resin tank of the present invention and a rib body used for the same will be described with reference to the drawings. Hereinafter, in the present embodiment, a double shell tank which is a so-called F / F tank made of glass fiber reinforced resin for both the inner shell and the outer shell will be described as an example of the fiber reinforced resin tank.

FIG. 1 is an explanatory view showing a step of forming an inner surface rib on the inner surface of a double shell tank, FIG. 2 is an explanatory view showing a manufacturing step of a rib body, and FIG. 3 is a state in which the rib body is removed from a mandrel. FIG.

When the inner ribs are formed in the double shell tank A by the inner rib forming method in the fiber reinforced resin tank of the present embodiment, first, as shown in FIGS.
A ring-shaped rib body 1 is formed of fiber reinforced resin, and a part thereof is cut to remove the fitting piece 2. Next, FIG.
As shown in (e), the rib body 1 is put into the inner shell 4 of the body 3 of the double shell tank A, where the rib body 1 is spread and the outer surface 1a is brought into close contact with the inner shell inner surface 4a. After the fitting piece 2 is fitted into the space 5 formed between the cut end surfaces 1b, 1b of the rib body 1, the rib body 1 is joined to the inner shell inner surface 4a by secondary bonding 6 using fiber reinforced resin. . In this manner, as shown in FIG.
After forming a plurality of inner ribs 7 on both ends of the body 3,
A head plate (not shown) made of fiber reinforced resin, which has been formed in advance by spraying or the like, is secondarily bonded to manufacture a double shell tank. The head plate is formed in a double shell structure composed of an inner shell and an outer shell, similarly to the body. In the drawing, reference numeral 8 denotes a rib 1
, 9 is a brush, 10 is a cloth, and 11 is an outer shell.

Therefore, according to the method for forming the inner surface rib of the present embodiment, the outer surface 1a of the rib body 1 is brought into close contact with the inner surface 4a of the inner shell while the fitting piece 2 is fitted into the space portion 5 and joined. Even if the outer diameter of the rib 1 does not match the inner diameter of the inner shell 4, the operation of adjusting the outer diameter of the rib to the inner diameter of the inner shell as in the related art is not necessary, and the productivity is improved, and accordingly, ,
Manufacturing costs can be reduced. Further, since the inner rib 7 is in close contact with the inner shell inner surface 4a, it can sufficiently withstand the earth pressure. Further, the inner rib 7 is completely formed on the inner shell inner surface 4a.
The inner shell 4 and the inner ribs 7 can evenly disperse and support stress against external pressure, so that damage to the tank A due to stress concentration can be prevented. Can be.

Next, the rib body 1 used in the above forming method will be described. The rib body 1 of the present embodiment is shown in FIG.
As shown in FIG. 5, the rubbing glass 13 is immersed in the resin tank 12 containing a resin obtained by adding a low-shrinkage agent or a filler to a tough thermosetting resin to impregnate the rubbing glass 13 with the resin. This is wound around a rib body forming die 16 between the rib body forming flanges 15 and 15 installed on the mandrel 14. Roving glass 13 impregnated with resin is
The resin is squeezed down through a bent bar (not shown) before being wound into the rib forming mold 16, and after being wound around the forming mold 16, the resin is scraped off with a rubber spatula or the like to make the glass fiber rich. By making the glass fiber rich and reducing the molding shrinkage, the occurrence of cracks during molding can be prevented. The resin is compounded by adding 15 parts of a low-shrinkage agent to 100 parts (parts by weight, the same applies hereinafter) of the iso-unsaturated polyester resin, or
To 10 parts of calcium carbonate. Also,
The bing glass used has 20 pieces with a count of 4500 g / km. Iso-unsaturated polyester resins have toughness, and low shrinkage can be achieved by adding a low-shrinkage agent or calcium carbonate to the resin. This makes it possible to reduce the molding shrinkage and prevent the occurrence of cracks during molding. Next, as shown in FIG. 2B, a film 17 is applied from above the roving glass wound in the mold 15 and then cured. Next, as shown in FIG. 3, after the thermosetting resin is cured, the rib-forming ribs 15 are removed from the mandrel 14, and the ring-shaped rib 1 is taken out. In the drawing, reference numeral 18 denotes a bolt for detaching the rib 15 for forming the rib body.

Therefore, in the rib body 1 of the present embodiment,
A roving glass impregnated with a resin formed by adding a low-shrinkage agent or a filler to a tough thermosetting resin is wound in a glass fiber-rich form in a rib-forming mold set on a mandrel. Since it is formed in a ring shape, the molding shrinkage can be reduced, and no cracks occur even when a thicker rib body is formed.

Although the embodiments of the present invention have been described above, the specific configuration of the present invention is not limited to the embodiments, and there may be design changes or the like within a range not departing from the gist of the invention. This is also included in the present invention.

For example, in this embodiment, the method of forming the inner surface rib on the inner surface of the inner shell of the fiber-reinforced resin double shell tank has been described, but the present invention can be applied to a fiber-reinforced resin single shell tank.

Although the fitting piece 2 is cut from the rib body 1, another piece may be used. In this case, it is preferable to use a material made of the same material as the rib body 1 from the viewpoint of strength, but a material formed of another fiber reinforced resin or resin may be used.

[0017]

According to the method for forming an inner surface rib in a fiber-reinforced resin tank of the present invention, since the structure is as described above, even if the outer diameter of the rib body does not match the inner diameter of the tank inner surface,
An inner rib can be efficiently formed on the inner surface of the tank. Therefore, the work is easy, and the manufacturing cost can be reduced accordingly. Further, since the inner rib is in close contact with the inner surface of the tank, it can sufficiently withstand the earth pressure. The inner ribs are completely in close contact with the inner surface of the tank and match the inner diameter.The tank body and inner ribs can evenly distribute stress against external pressure, so the tank can be concentrated by stress. Can be prevented from being damaged.

Further, since the rib body of the present invention is configured as described above, cracks do not occur even if a thicker rib body is formed. Therefore, there is an effect that a rib body joined to the inner surface of the fiber reinforced resin tank can be efficiently obtained.

[Brief description of drawings]

FIG. 1 is an explanatory view showing a step of forming an inner surface rib on an inner surface of a double shell tank.

FIG. 2 is an explanatory view showing a manufacturing process of a rib body.

FIG. 3 is an explanatory view showing a state where a rib body is released from a mandrel.

[Explanation of symbols]

 A Double shell tank 1 Rib body 1a Outer surface of rib body 1b Cut end face of rib body 2 Fitting piece 3 Body 4 Inner shell 4a Inner shell inner surface (tank inner surface) 5 Space 6 Secondary bonding 7 Inner rib 13 Bing glass 14 Mandrel 15 Flange for forming rib body 16 Rib body forming die

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁶ Identification code Agency reference number FI Technical display location B29K 105: 08

Claims (2)

[Claims] 1. A method for forming a circumferential inner rib on an inner surface of a fiber-reinforced resin tank, comprising cutting a part of a ring-shaped rib body formed of a fiber-reinforced resin, and placing the rib body in the tank. It is characterized in that the rib body is joined to the tank inner surface by secondary bonding after fitting the fitting piece into the space created between the cut end surfaces of the rib body while pushing the outer surface into close contact with the tank inner surface. Of forming inner ribs of a tank made of fiber reinforced resin. 2. A roving glass in which a resin formed by adding a low-shrinking agent or a filler to a tough thermosetting resin is impregnated into a rib body forming die installed on a mandrel, and a glass fiber is formed. A rib body characterized by being wound into a rich shape and formed into a ring shape.