KR200410016Y1 - The steel sheet liner for the storage - Google Patents

Abstract

The present invention relates to a steel sheet liner for storage.

The present invention is a steel plate liner is coupled in the longitudinal direction to have a semi-circular shape, the steel plate liner is combined in a semi-circular shape in the manufacturing method of the steel plate liner for the storage is coupled in a direction perpendicular to the longitudinal direction, the steel plate liner is a predetermined A steel sheet cutting step of cutting a steel sheet having a thickness into a long rectangular shape; A steel sheet punching process in which coupling grooves are formed by punching to have a predetermined gap at edges of the steel sheet cut into rectangular shapes; A press-pressing process in which a reinforcing part of a convex shape is formed by pressing the center of the steel sheet on which the coupling groove is formed by a press; Pressing the front surface of the steel sheet formed with the reinforcement portion by a bending press is a bending process that the steel sheet is bent in a curved form and the fine wrinkle molding process for forming the fine wrinkles in the convex reinforcement of the steel sheet bent in the curved form .

Steel plate liner, storage, cutting, punching, reinforcing part, bending, fine line

Description

Steel Plate Liner for Storage {THE STEEL SHEET LINER FOR THE STORAGE}

1 is a flow chart illustrating a method for manufacturing a steel sheet liner for storage according to the present invention.

Figure 2 is a block diagram showing a method for manufacturing a steel sheet liner for storage according to the present invention.

Figure 3 is a perspective view of the steel plate liner for the storage according to the present invention.

Figure 4 is a state of use of the steel plate liner for storage according to the present invention.

5 is a longitudinal cross-sectional view of FIG.

6 is an enlarged sectional view taken along the line A-A of FIG.

<Brief description of symbols for the main parts of the drawings>

S10: Steel plate cutting process S20: Steel plate punching process

S30: Press-pressing process S40: Bending process

S50: fine wrinkle forming process 10: steel liner

11: Steel plate 12, 12 ': Coupling groove

13: Reinforcement part 14: Fine lines

30: Punching 40: Press

50: bending press

The present invention relates to a steel plate liner for storage, in particular, by cutting the steel plate having a flat plate shape into a rectangular shape, and the cut steel sheet to be curved by punching, pressing and bending process, thereby acting from the upper and lower sides The load is easily distributed to increase the strength to obtain a stable storage.

In general, in the case of the structure using the steel plate is used because of the advantages that can be smoother than the concrete structure and shorten the construction period.

The steel plate used in the structure is a method for increasing the strength of the steel plate in the form of a flat plate in general in many forms of elastic deformation and assembling the deformed steel sheet to have a continuous tunnel in the axial direction in the underground passage, water, drainage passages It is used for many purposes such as other coastal cells, drains, roofs and warehouses.

When the structure is small, the steel plate uses one bent steel plate, and when the size is large, the steel plate is manufactured by dividing into several pieces at the same time with different diameters in the bending process, and using the fabricated processes such as overlapping or bolting the manufactured sheets. It will install the structure to fit.

In addition, in order to distribute the load or impact force acting from the lateral, transverse, longitudinal and multi directions to various places in a thin steel sheet so as to act evenly, Corrugated steel sheet is used.

When constructing a structure using such a corrugated steel sheet, excavate the floor to a certain depth, reinforce the foundation ground and reinforce the formwork and reinforcing bars.

After the formwork is dismantled, make the lower part of corrugated steel plate at right angles and fix it with bolts and nuts, which are fasteners, and repeat the bolting process of joining other corrugated steel plates in the same way between corrugated steel plates joined to the channel. The obtained steel plate structure can be obtained.

However, as the depth of the corrugation is very low in the process of forming the corrugation on the steel sheet to obtain the steel sheet structure, the strength of the upper and lower portions is weakened, which makes it impossible to construct a relatively large storage cell. In addition, in order to solve this problem, when the depth of the wrinkles only deepen the strength of the upper and lower parts but there was a problem that the side strength is lowered.

And when installing a separate reinforcement in the upper portion of the corrugated steel plate to reinforce the upper, lower and lateral strength, there is a problem that the air is delayed as the work process is increased, thereby increasing the construction cost.

The present invention was created in order to solve such a problem, by cutting a steel plate having a flat plate shape into a rectangular shape, and having the curved steel plate bend through punching, pressing and bending processes, from the upper and lower sides It is an object of the present invention to provide a steel plate liner for storage, which can easily disperse a load to increase the strength thereof, thereby quickly obtaining a stable storage.

The present invention for achieving the above object is that the steel plate liner 10 is coupled in the longitudinal direction to have a semi-circle shape, the steel plate liner 10 is coupled in a semi-circular shape is coupled to the direction perpendicular to the longitudinal direction for storage In the method of manufacturing a steel sheet liner, the steel sheet liner 10 is a steel sheet cutting step (S10) for cutting a steel sheet 11 having a predetermined thickness into a long rectangular shape; A steel sheet punching process (S20) in which coupling grooves 12 and 12 ′ are formed by punching 30 to have a predetermined gap at the edge of the steel sheet 11 cut into the rectangular shape; A press-pressing step (S30) of pressing the center of the steel plate (11) on which the coupling grooves (12) (12) 'are formed by pressing (40) to form a reinforcing portion (13) of a convex shape downward; A bending step (S40) of pressing the entire surface of the steel plate 11 in which the reinforcing portion 13 is formed by a bending press 50 to bend the steel plate 11 in a curved form; The fine wrinkles forming step (S50) of forming the fine wrinkles 14 to the convex reinforcement portion 13 of the steel sheet 10 bent in the curved form.

In addition, the fine wrinkles 14 of the fine wrinkle forming process (S50) is a steel sheet 11 bent by the pressing force of the pressing portion 60 and the iron portion 61 and the groove portion 62 having an axial length in the outer peripheral portion The object is achieved by providing a method for manufacturing a steel sheet liner for a storage, characterized in that it is molded in a direction perpendicular to the longitudinal direction of the.

On the other hand, the steel plate liner 10 is coupled to the longitudinal direction to have a semi-circular shape, the steel plate liner for storage, in which the steel plate liner 10 is coupled in a direction perpendicular to the longitudinal direction, the steel plate liner 10 is a flange 15 having convex grooves 12 and 12 'formed at regular intervals at both ends of the reinforcement part 13 while being convex downwardly. It is characterized in that formed integrally.

In addition, the reinforcing portion 13 and the flange 15 of the steel plate liner 10 is bent in a convex shape toward the flange 15 from the center of the reinforcing portion 13, the middle length of the reinforcing portion 13 The object is achieved by providing a steel sheet liner for storage, characterized in that the fine wrinkles 14 having a direction perpendicular to the direction are formed to be continuous in the longitudinal direction.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

Steel plate liner 10 for a storage according to the present invention is to increase the strength to easily distribute the load acting from the upper and lower and lateral direction to obtain a stable storage structure as shown in Figures 3 to 6 It is configured to have a semicircular shape coupled to the longitudinal direction, and the steel liner 10 coupled in the semicircular shape is coupled in a direction perpendicular to the longitudinal direction.

Here, the steel sheet liner 10 is configured so that the convex reinforcement portion 13 which is convex downwardly is continuous in the longitudinal direction, and coupling grooves 12 and 12 formed at predetermined intervals at both ends of the reinforcement portion 13. The flange 15 having a ') is integrally formed symmetrically.

In addition, the reinforcement portion 13 and the flange 15 of the steel plate liner 10 is bent in the convex shape toward the flange 15 from the center of the reinforcement portion 13, when a plurality of in the longitudinal direction is coupled to the arch form It is configured to be connected to.

In order to prevent the reinforcement part 13 from being deformed by a load or an impact force acting from the lateral direction, the fine wrinkles 14 having a direction perpendicular to the longitudinal direction of the center of the reinforcement part 13 are in the longitudinal direction. It is formed to be continuous.

In the manufacturing method of the steel plate liner 10 having such a configuration, as shown in Figs. 1 and 2, first, the steel sheet 11 having a predetermined thickness is cut to have a long rectangular shape by a steel sheet cutting process (S10). Coupling grooves 12, 12 'are formed on both sides of the edge of the steel sheet 11 cut into a rectangular shape using the punching 30 of the punching process (S20).

Next, by pressing the center of the steel sheet 11, the coupling grooves 12, 12 'is formed through the press-pressing step (S30) with a press 40 so that the reinforcing portion 13 of the convex shape to the bottom is molded. Subsequently, the steel sheet 11 is bent in a curved form by pressing the front surface of the steel sheet 11 on which the reinforcing portion 13 is formed by the bending press 50 in the bending process S40.

And fine wrinkles 14 are formed in the convex reinforcement portion 13 of the steel sheet 10 bent in the curved form through the fine wrinkles forming step (S50), the fine wrinkles 14 is shown in Figure 2, It is molded in a direction perpendicular to the longitudinal direction of the bent steel sheet 11 by the pressing force of the pressing portion 60 with the iron portion 61 and the groove portion 62 having an axial length in the outer peripheral portion.

As such, the present invention can cut the steel plate having a flat plate shape into a rectangular shape and increase the productivity by automating the cut steel plate to have a curved form through punching, pressing, and bending processes, and from the upper and lower sides and from the lateral direction. Easily disperse the load acting to increase the strength.

It also allows for a faster and more stable storage.

Claims (2)

In the steel plate liner for storage, in which the steel plate liner 10 is coupled in the longitudinal direction to have a semicircle shape, and the steel plate liner 10 coupled in the semicircle shape is coupled in a direction perpendicular to the longitudinal direction. The steel plate liner 10 is a convex reinforcement portion 13 is formed to be continuous in the longitudinal direction, the flange 15 having a coupling groove 12 formed at regular intervals at both ends of the reinforcement portion 13 is integral. Steel plate liner for the storage, characterized in that formed. The method of claim 1, The reinforcement part 13 and the flange 15 of the steel plate liner 10 are bent in a convex shape from the center of the reinforcement part 13 toward the flange 15, and in the middle longitudinal direction of the reinforcement part 13. Steel plate liner for storage, characterized in that the fine wrinkles having a direction perpendicular to the (14) is formed to be continuous in the longitudinal direction.

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