JPH0298583A - Beam material for panel tank - Google Patents

Abstract

PURPOSE:To obtain a light-weighted material easy to install and produce sufficient reinforcement effect by a method wherein a beam is constituted of a long body integrally structured by hardening resin including fabric in a cross section whereby at least two belt-like pieces cross orthogonal widthwise and one of the belt-like pieces are provided with a plurality of bolt insertion holes drilled on both ends lengthwise respectively while a metal cylinder is attached to an inner face of the hole. CONSTITUTION:A beam material A consists of belt-like pieces 1, 2, 3. Among those, the belt-like piece 1 is orthogonal to the belt-like piece 2 in terms of widthwise directions, while the belt-like piece 2 is orthogonal to the belt-like piece 3 in terms of widthwise directions, the whole body presenting a long body whose lateral cross section is an I. Among the three belt-like pieces, the belt-like piece 2 is provided with a plurality of bolt insertion holes 4 drilled at both ends lengthwise. The belt-like pieces 1, 2, 3 is constituted of hardening resin including fabric, and portions 5, 6, 7 exposed to the surface include fabric made in a mat form. The interior includes fabric made in a thread form, said thread extending lengthwise of the belt-like pieces. The bolt insertion holes 4 are for installing the beam material onto a side wall of a tank and is equipped with metal cylinders.

Description

[Detailed description of the invention] (Industrial application field) The present invention relates to a beam material for a panel tank.

More specifically, the present invention relates to a reinforcing beam material that is strung between adjacent or opposing side walls in a tank whose side walls are constructed by connecting a large number of panels.

(Prior Art) Panel tanks are well known. A panel tank is a prefabricated tank in which at least a side wall is constructed by connecting a large number of unit panels with bolts. Such tanks had the disadvantage that the side walls were prone to bending at the panel joints. Therefore, in order to strengthen the side walls, beams were inserted between adjacent or opposing side walls to strengthen the tank.

Until now, elongated bodies made of metal or synthetic resin have been used as beam materials. Among these, shaped steel was often used as the metal beam material. However, metal beams have the disadvantage that they are difficult to handle due to their large weight, and since panel tanks are mainly used for water storage, they are prone to rust, thus contaminating the water during use. Because of this, it was considered undesirable. Therefore, instead of using the metal beam as is, it was proposed to coat the surface with amide resin or the like. However, products coated with amide resin still have the disadvantage of being heavy, and the coating resin is easily damaged and peeled off during handling, and in some cases, the coating resin has pinholes from the beginning, making it difficult to coat. It had the disadvantage of being useless.

On the other hand, with regard to making beams from synthetic resin, there were only vague proposals to make them from synthetic resin. In other words, what kind of resin is used for the beam material?
No concrete proposals were made regarding what kind of structure should be created.

(Problems to be Solved by the Invention) In order to improve the above-mentioned drawbacks of metal beams, the inventor intended to make beams for panel tanks from synthetic resin. Therefore, the inventor started by considering what kind of resin should be used to make the beam material, and in order to fully demonstrate the reinforcing effect and to facilitate installation to the panel tank, the inventor decided to We considered what kind of structure should be used.

Thus, the present invention was made in an attempt to provide a beam material for a panel tank (hereinafter simply referred to as a beam material) that is lightweight, easy to install, and exhibits a sufficient reinforcing effect.

(Means for Solving the Problems) The inventor has confirmed that a fiber-reinforced curable resin is suitable for making a beam material.

Furthermore, it was confirmed that the cross section of the beam material is such that at least two strips are perpendicular to each other in the width direction, and that a long body having such a cross section is suitable. Moreover, in the part where each strip is formed into a beam material, the fibers form a mat shape and extend two-dimensionally on the surface, and in the middle of the thickness direction, the fibers form a thread shape extending in the longitudinal direction. It has been confirmed that it is appropriate to do so. Furthermore, the beam material shall be provided with bolt insertion holes at both longitudinal ends of one strip, and shall be fixed to the tank side wall with bolts via fittings, and the bolt insertion holes shall be reinforced with a metal cylinder. It was confirmed. This invention was made based on such confirmation.

This invention consists of a long body integrally made of a curable resin containing fibers and having a cross-sectional shape in which at least two strips are perpendicular to each other in the width direction. in the form of a mat extending along each surface, and within the strips in the form of threads extending longitudinally, one of the strips having a plurality of bolts at each longitudinal end. The gist is a beam material for a panel tank that has an insertion hole bored therein and a metal tube attached to the inner surface of the hole.

(Example) An example of the implementation of the beam material according to the present invention will be described below based on the drawings. FIG. 1 is a perspective view of a beam material according to the present invention, which is used as a girder material. FIG. 2 is an enlarged cross-sectional view of the beam material shown in FIG. 1.

FIG. 8 is an enlarged cross-sectional view of the vicinity of the bolt insertion hole of the beam material according to the present invention. FIG. 4 is a partially cutaway perspective view of the side wall of the tank to which the beam material is attached. Figures 5 to 7 are
It is a perspective view of another beam material based on this invention. FIG. 8 is a partially cutaway perspective view of a tank to which a beam member according to the present invention is attached. FIGS. 9 and 10 are plan views of a tank showing how the beam material according to the present invention is used.

In FIG. 1, a beam A according to the present invention is composed of eight strips 1.2.8. Among them, the strip L is orthogonal to the strip 2 in the width direction, and the strip 2 is perpendicular to the strip 2 in the width direction.
is perpendicular to the width direction of the strip 8, and the whole is an elongated body with a character-shaped cross section. Among the three strip pieces, the strip piece 2 has a plurality of bolt insertion holes 4 bored at both longitudinal ends thereof.

The strip 1.2.3 is composed of a curable resin containing fibers. Each strip 1.2.8 contains fibers in the form of a mat on both the front and back surfaces, especially in the portion 5.6.7 that appears on the surface as a beam material, and the mat extends along the surface of the strip. It extends.

The interior of each strip 1.2.8 contains fibers in the form of threads, which extend in the longitudinal direction of the strip.

As the fiber, it is preferable to use glass fiber or carbon fiber, but other fibers such as aramid fiber, carbon fiber, etc.
Amide fibers can be used.

Further, as the resin, unsaturated polyester resin is suitable, but epoxy resin, phenol resin, melamine resin, etc. can also be used.

If high strength is required for the beam material, the thickness and width of the strip should be increased, and the proportion of fibers included should be increased; however, if high strength is not required, the thickness and width should be reduced. Furthermore, the proportion of fibers can be reduced. The proportion of fibers in the strip is 40 to 70% by weight.
It is desirable that the ratio be 50 to 60%.

The bolt insertion holes 4 are for attaching the beam material to the side wall of the tank. As shown in FIG. 4, when the side wall of the tank is constructed by connecting panels 18, a fixture 14 is used to attach the beam A to the side wall of the tank. The fixture 14 has a locking plate 16 erected and fixed in the center of a plate 15, and the plate 15 is fixed to the side wall with bolts, and the locking plate 16 is made to protrude from the side wall. Beam material A is
It is mounted on the side wall by bolting to the locking plate 16.

A metal tube is attached to the bolt insertion hole (hereinafter simply referred to as hole) 4 of the beam material. The manner in which the metal cylinder is attached is sectional, and FIG. 3 shows the sectional aspect. In FIG. 8(A), the metal cylinder 8 has an axial length corresponding to the thickness of the strip 2, and completely covers the wall surface of the hole 4 from one end to the other.

In FIG. 3(B), the metal tube 9 has a flange at one end, the flange is in close contact with the surface of the strip 2, and the other end of the metal tube 9 is just above the strip 2.
It is flush with the other side. In this way, the metal tube 9 completely covers the wall surface of the tension hole 4. Figure 3, e
In l), two metal cylinders lO are installed in the hole 4. The metal tube 10 is similar to the metal tube 9 in that it has a flange at one end, but the axial length of the tube portion is half that of the metal tube 90.
The wall surface of the hole 4 is exactly covered by the two metal tubes 10, and the outer surfaces of each of the metal tubes 8 to 10 are bonded to the wall surface of the hole 4 with resin. Metal cylinder 8 or 1
Various materials such as stainless steel and brass, which are not easily corroded by water, can be used as the material for the material. If the hole 4 is provided too close to the longitudinal end of the beam A, it will weaken the tensile force of the beam, and if it is placed too far from the end, the purpose of the beam's existence will be diminished. Installation becomes a hassle. Also, if the holes are too large, the strength of the arrow beam material will be reduced, and conversely, if the holes are too small,
The strength of the bolts becomes poor and the beam becomes useless. Therefore, the position and size of the hole 4 must be appropriately selected in light of the dimensions and strength of each part of the beam.

The position of the hole 4 on the beam material is preferably as follows. That is, assuming the diameter of the hole 4 is d, the hole 4 is located at least 4d away from the edge of the beam in the longitudinal direction of the beam, and at least 3d away from the edge of the beam in the width direction of the beam. position it somewhere.

In addition, when a plurality of holes 4 are arranged in a row in the longitudinal direction of the beam material, the distance between the holes is 4d or more, and when a plurality of holes 4 are arranged in a row in the width direction of the beam material, the distance between the holes is distance 6d
The above shall apply. Therefore, when the beam is a simple plate with a linear cross section, the width of the beam needs to be 7d or more.

If the beam is an I-shaped beam as shown in Figure 2, the flange provided below will strengthen the beam, so if the width of the flange is W, then the width will be 1/2 of W. can be added to the height. Therefore, the width of the beam material, that is, the minimum distance from one end of the flange to the other end of the flange, can be 7d-W.

FIG. 1 shows a beam material used as a girder material.

The girder is the largest and strongest beam used for reinforcement inside the panel tank. In other words, the girder is a beam that interconnects opposing side walls approximately in the center of the tank, as indicated by the symbol A in FIGS. 8 to 10. 1 of the size of the girder material
For example, referring to FIGS. 1 and 2, strip 1
The width W of and 3 is 70-130mm, and the overall height H
is 130-170 mm, and the thickness T is 4-7 mm. At this time, the holes 4 are lined up apart from each other in the direction of the height H, and have a diameter of 5-8 marks, and are 44 mm from the longitudinal end.
Located 0 to 100 beats apart, 60 to 150 in the vertical direction
They are located mm apart.

FIG. 5 shows a beam material used as a small beam material.

The small beam material is a beam material arranged orthogonally to the above-mentioned large beam material. Specifically, in FIGS. 8 to 10, the symbol B indicates the small beam material. The reason why the small beam material B is different from the large beam material A is that the small beam material B has a shorter length in the longitudinal direction than the large beam material A, and is smaller overall, and the bolt insertion holes 4 are spaced apart in the longitudinal direction. The only two points are that they are lined up. Regarding the size of the small beam material B, the width W of the strips 1 and 3 is 30-70mm, the overall height H is 70120mm, and the thickness T is 4-7mm, which is almost the same. . At this time, the first hole is provided at a distance of 40 to 70 mm from the longitudinal end of the hole 4, and the first hole is further 40 to 70 mm away from the first hole.
A second hole is provided 0 mm apart.

FIG. 6 shows another small beam C, which is used instead of the small beam B. The small beam material C differs from the small beam material B only in that the cross section has a U-shape. To be more specific, in the aforementioned small beam material B, the strip piece 2 connected one side edge of the strip piece 1 at the center in the width direction, whereas in the small beam material C, the strip piece l They differ in that at one side edge a strip 2 connects the one side edge, and
The only difference is that the strip 2 and the strip 3 are connected at the same point.

To attach the beams B and C to the tank, a fitting similar to the fitting 14 used to attach the beam A is used. FIG. 8 shows a panel tank in which the side walls are constructed by connecting panels 11 and the lid is constructed by connecting panels 12, in which beam B is
The state in which it is attached to the beam material A and the side wall is shown.

Since the beam B has holes 4 arranged in the longitudinal direction, the locking plate of the fixture 17 is provided with bolt holes arranged in the protrusion direction accordingly.

FIG. 7 shows a tension beam. The beam material is the 8th
As shown in the figure, it is attached below the small beam B or C, close to it, and parallel to the large beam A. The beam is an elongated body in which two strip pieces 1 and 2 are connected at their side edges and have a cross-sectional shape. The beam is attached to the side wall of the tank with the width direction of the strip 1 facing horizontally. Further, holes 4 are attached to the horizontally oriented strip 1 of the beam, and the holes 4 are spaced apart from each other and lined up in the longitudinal direction of the beam. Therefore, in a fixture for attaching a beam, locking plates are arranged horizontally, and holes are provided on the locking plates in line in the protruding direction.

Figure 9 shows how the beam material according to the present invention is used inside the tank when a tank with a side wall length of about 6 m is assembled using square panels with a side of about 1 m. It shows. Two large beams A are attached and supported by pillars in the middle, ten small beams B or C are attached between the large beams A and the side wall, and further below small beams B or C are used for tension. Four beams are attached. In this way, the lid of the tank is supported by the main beam A or the small beam B or C, and the side wall is supported by the beams A to D, making the tank strong.

FIG. 10 shows a mode in which the beam material according to the present invention is used in a rectangular parallelepiped tank with side walls having lengths of 3 m and 4 m. The main beam A is attached to the tank wall so as to extend parallel to the side wall with a length of 3 m, and the small beam B or C is attached perpendicular to this, and the beam is attached below the small beam B or C. is attached. The beam material according to the present invention thus reinforces the panel tank.

(Effects of the Invention) According to the present invention, since the beam material is made of a long body in which at least two strips have cross-sectional shapes perpendicular to each other, the beam material does not bend or flex. It has become difficult. In addition, since the beam material is integrally made of a hardening resin containing fibers, it is reinforced with fibers, making it difficult to bend or bend, and it will not rust or corrode due to water. , which can withstand long-term use. Furthermore, the fibers are in the form of a mat on both the front and back sides of each strip, and the fibers are in the form of threads inside and extend in the longitudinal direction, making it easy to form the beam material, and the surface of the beam material is flat. It has high strength and is particularly strong against tension, making it ideal for reinforcing panel tanks.

Furthermore, one of the strips has a plurality of bolt insertion holes drilled at each end in the longitudinal direction, so by inserting bolts into these holes, the beam can be easily attached to the tank. Also, since a metal tube was attached to the inner surface of the hole,
The beam is reinforced with a metal tube around the hole, so when the beam is attached to the tank with bolts,
The beam material is hard to be destroyed at the attachment part, and therefore the panel tank can be sufficiently reinforced. The present invention provides such advantages.

In addition, various types of beam materials such as large beam material A, small beam materials B and C1, and tension beam materials are used as beam materials. By reinforcing the space between A and A and further installing a tension beam below the small beam, the space occupied by the beam can be reduced and the panel tank can be efficiently reinforced.

[Brief explanation of the drawing]

FIG. 1 is a perspective view of a beam material according to the present invention. FIG. 2 is an enlarged cross-sectional view of the beam material shown in FIG. 1. FIG. 3 is an enlarged partial cross-sectional view of the beam material shown in FIG. 1. FIG. 4 is a partially cutaway perspective view of the side wall of the tank to which the beam shown in FIG. 1 is attached. 5 to 7 are perspective views of other beam members according to the present invention. FIG. 8 is a partially cutaway perspective view of a tank to which a beam member according to the present invention is attached. FIGS. 9 and 10 are plan views of a tank showing how the beam material according to the present invention is used. In the figure, 1.2.3 is a strip, 4 is a bolt insertion hole,
5.6.7 is a resin layer containing matte fibers, 8.9
．． 10 is a metal tube. Patent applicant Sekisui Chemical Co., Ltd. Sekisui Construction Co., Ltd.

Claims (1)

[Claims] At least two strips have cross-sectional shapes perpendicular to each other in the width direction, and are made of a long body integrally made of a curable resin containing fibers, and the fibers are in the form of a mat on both the front and back surfaces of each strip. The threads extend longitudinally inside the strips, and one of the strips is provided with a plurality of bolt holes at each longitudinal end. A beam material for panel tanks that has a metal tube attached to the inner surface of the hole.