KR200413372Y1 - great capacity-complex storage tank and method for manufacturing the same - Google Patents

Abstract

The present invention is a coating layer coated on the inner and outer sides of a galvanized steel sheet formed of a spiral corrugated steel pipe with a thermoplastic synthetic resin of any one of the thermoplastic synthetic resin group consisting of polyethylene (PE), polypropylene (PP) and polyvinyl chloride (PVC) (10) to form a large diameter main body 1 in the form of a pipe, and then, as an accessory member, a cover plate member coated with the same material as the main body 1 and the same material coated on the main body 1 ( 2), the plate member 3, a manhole (4), and the pipe connection (6) to the body (1) CO ₂ welding layer 11 to face the vertical welding the abutting portion with the vertical to the CO ₂ welding machine in After forming and fixing them to the main body 1, the welding layer and its periphery are coated with the same material as the material coated on the main body 1.

Body, welding, thermoplastic resin, cover plate member, diaphragm, corrugated steel pipe

Description

Large capacity-complex storage tank and method for manufacturing the same

1 is a partial cutaway schematic cross-sectional view of a composite storage tank manufactured by the present invention.

The present invention relates to a method for manufacturing a large-capacity composite storage tank for underground laying which is separated into a plurality of storage spaces using recyclable materials such as galvanized steel sheet and thermoplastic synthetic resin.

Conventional large-capacity composite storage tanks for underground laying are large in size and cannot be manufactured through mold molds, and thus, polyethylene (PE), polypropylene (PP), Pieces of thermoplastic synthetic resin material such as polyvinyl chloride (PVC) are joined together by a butt-and-filled fusion method using a compression welding machine to form a hollow cylindrical shape, and then a plate is fixedly provided by welding or covers at both ends. The plate was made in such a way that it was provided by welding.

However, this method has a disadvantage in that a considerable amount of welding is required, and a high quality uniform welding part is required and its manufacturing cost is high.

Another method of manufacturing a large-capacity composite storage tank for underground buried is a method using a glass fiber reinforced plastic (FRP) material which is a thermosetting material.

Manufacturing method using glass fiber reinforced plastic (FRP) material is also impossible to be manufactured through a mold mold, it is manually molded into a hollow cylindrical shape by hand, then fitted with a plate of the same material therein or copper at both ends It is a method of sealing the fitting part with a glass fiber reinforced plastic made of the same material after fitting the cover plate of material, which requires a lot of manufacturing process time and manpower, as well as pollution and recycling problems caused by glass fiber. have.

Another method of manufacturing a large-capacity complex storage tank for conventional underground laying is to cast concrete material underground to make a tank shape, and then waterproof.

This method also requires a lot of manufacturing time and manpower due to the installation and dismantling of the formwork, waterproofing process, as well as having a problem that construction is limited by the freezing of concrete in winter.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a large-capacity composite storage tank for underground laying made using a large corrugated steel pipe coated with a thermoplastic resin and a method of manufacturing the same.

The present invention, in order to achieve the above object, any one of the thermoplastic synthetic resin group consisting of polyethylene (PE), polypropylene (PP) and polyvinyl chloride (PVC) on the inner and outer sides of the galvanized steel sheet formed of spiral corrugated steel pipe After coating with a thermoplastic resin to form a coating layer to form a large diameter body in the form of a pipe, as an accessory member, a cover plate member, a plate member, coated with the same material as the main body and the same material as the material coated on the main body, a manhole, settling tanks, and plumbing the connector face to the body vertically by welding the abutting portion with the vertical to the CO ₂ welding machine hayeoseo form a CO ₂ welding layer fixing them to the body, and then, the welding layer and the peripheral to the main body It is supposed to form a coating layer by coating with the same material as the coated material.

Hereinafter, a method and apparatus of an embodiment according to the present invention will be described with reference to FIG. 1.

First, a coating layer is coated on the inner and outer sides of a galvanized steel sheet formed of a spiral corrugated steel pipe with a thermoplastic synthetic resin of any one of thermoplastic synthetic resin groups consisting of polyethylene (PE), polypropylene (PP), and polyvinyl chloride (PVC). 10) to form a large diameter body 1 in the form of a pipe.

The reason why the corrugated steel pipe is plated with zinc and the thermoplastic synthetic resin is coated is to give corrosion resistance to the corrugated steel sheet.

In addition, the reason for manufacturing the main body 1 using a spiral corrugated steel sheet is as follows.

Corrugated steel sheet, as is known, has a cross-sectional coefficient of 10 to 30 times higher than that of a general steel sheet having the same thickness, galvanized such a corrugated steel sheet can be simply completed in the field as a bolt connection in the field, so the air shortening and Can reduce the cost of construction.

In addition, when the corrugated steel sheet structure is used as the underground structure, it is able to withstand the external load by the composite action of the ground and the corrugated steel sheet, and thus has the same effect as the structure receiving the ground, which was considered only as a load, and the structure itself is ductile. As a structure, it also has the advantage that it can flexibly cope with inequality settlement and make up for the shortcomings of existing concrete underground structures.

Then, as an accessory member, the cover plate member 2, the plate member 3, the manhole 4, the sedimentation tank having the same material as the main body 1 and coated with the same material as the main body 1 (5) and the pipe connector 6 is perpendicularly abutted to the main body 1, and a portion of the vertical abutment contacted with the CO ₂ welder to form a CO ₂ welding layer 11, and these are connected to the main body 1. Fix it. Here, the settling tank 5 is not necessarily provided in the main body 1, and may be optionally provided as needed.

Here, the cover plate member 2 abuts on both ends of the main body 1 to be welded and fixed, the diaphragm member 3 is longitudinally so that the inner space of the main body 1 can be partitioned in an oil-tight manner. It is arranged in plural and the circumferential surface is abutted and fixed to the inner surface of the longitudinal portion of the main body 1, the manhole (4), the sedimentation tank (5) and the pipe connector 6 is the main body ( It is disposed in the internal space of 1) so that the circumferential surface of the longitudinal portion thereof abuts on a portion of the main body 1 to be welded and fixed fluidly inside and outside the abutment portion.

Then, the welding layer 11 and its surroundings are coated with the same material (thermoplastic resin) as the material coated on the main body 1, so that the coating layer 12 is formed.

In the above method, the CO ₂ welding layer 11 and the periphery thereof are coated with the same material (thermoplastic resin) as the material coated on the main body 10 because the main body 10 and the accessory member during CO ₂ welding. This is because the thermoplastic resin coated on the melt melts in the welded portion and the coating layer of the welded portion is peeled off.

According to the method and the composite storage tank as described above, the main body is made of corrugated steel pipe can provide a body strength higher than the strength of the body of the conventional composite storage tank, and at the same time, a large number of manual labor to create a cylindrical shape It can be made by hand, which is significantly smaller than the main body of the synthetic storage material, glass fiber reinforced plastic material, or concrete composite storage tank, it is possible to provide the effect that the manufacturing cost is low.

Claims (2)

The coating layer 10 is coated on the inner and outer sides of the galvanized steel sheet formed of spiral corrugated steel pipe with a thermoplastic synthetic resin of any one of thermoplastic synthetic resin groups consisting of polyethylene (PE), polypropylene (PP) and polyvinyl chloride (PVC). Large diameter body 1 of the pipe shape made by forming a; Members that are the same material as the main body 1 and coated with the same material as the material coated on the main body 1, where the parts are abutted perpendicularly to the main body 1 and contacted vertically with the CO ₂ welder. The cover plate member 2, the diaphragm member 3, the manhole 4, the sedimentation tank 5, and the piping connector 6, which are welded to form a CO ₂ welding layer 11 and are fixed to the main body 1, are fixed. ; And  And a coating layer (12) formed by coating the welding layer and its periphery with the same material (thermoplastic resin) as the material coated on the main body (1). The method of claim 1, The cover plate member 2 abuts on both ends of the main body 1 to be welded and fixed, and the diaphragm member 3 is provided in a plurality of longitudinal directions so as to oil-tightly partition the inner space of the main body 1. The peripheral surface is abutted and fixed to the inner surface of the longitudinal portion of the main body 1, the manhole 4 and the pipe connector 6 is disposed in the inner space of the main body 1 A large capacity composite storage tank, characterized in that the circumferential surface of the longitudinal portion is in contact with a portion of the main body (1) to be fluidly welded in and out of the abutted portion.

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