KR100997888B1 - Method of installing base-plate to bear a heavy tank - Google Patents

Abstract

The present invention relates to a method for installing a base plate for supporting a high load tank, and more particularly, in the form of a ring having a longitudinal cross-section 'a' on the upper surface of a concrete structure installed so that the upper surface is flat by ground work. An angle is installed, and the upper surface of the ring-shaped angle having the 'B' shape is buried to be flat with the upper surface of the concrete structure, and the base plate made of steel is placed so as to contact the upper surface of the concrete structure and the embedded angle. The base plate for supporting the heavy load tank, characterized in that for mounting the angle and the base plate, the tank is mounted on the upper surface of the base plate and then fixed to the base plate as an anchor bolt to install the tank It relates to the installation method.

Description

Method of installing base-plate to bear a heavy tank}

The present invention relates to a method of installing a base plate for supporting a tank of high load, while installing a concrete structure on the ground of the lower base plate to support the lower portion of the tank, the angle of the steel material is installed flat to the upper surface of the concrete structure By combining the angle and the base plate by welding to prevent the rain water penetrates into the base plate, and to prevent the base plate and the angle from corrosion by rust due to the method of grounding the sacrificial anode to the base plate An object of the present invention is to provide a base plate that supports a tank with a higher load.

In general, a method of installing a base plate for supporting a heavy load tank is to install a concrete structure on the ground to support the lower part of the tank, and then install a steel base plate, and apply a heavy load tank on the upper surface of the base plate. By positioning it to join the baseplate and tank with an anchor bolt.

In the above-described method, by installing a concrete structure on the ground and installing a steel base plate on the upper surface of the concrete structure, there may be an effect of stably mounting a heavy load tank on a flat ground, but the base plate and concrete structure Rainwater seeps in between the steel baseplates and prevents rust from corroding.

As described above, the installation method of the base plate for supporting the tank of the high load of the present invention is to weld the base plate and the angle by inserting the angle of the steel material flat to the upper surface of the concrete, which is the base support for supporting the lower portion of the high load It prevents corrosion of the lower surface of the base plate by preventing rain from infiltrating the base plate and the concrete structure by combining with the sacrificial anode, and sacrificial anode that the base plate is corroded by grounding one end of the base plate with the sacrificial anode. By inducing the sacrificial anode to corrode to prevent corrosion of the tank and the base plate or angle, there is an effect that can support the tank of a relatively high load more robust.

The present invention relates to a method for installing a base plate for supporting a high load tank, and more particularly, in the form of a ring having a longitudinal cross-section 'a' on the upper surface of a concrete structure installed so that the upper surface is flat by ground work. An angle is installed, and the upper surface of the ring-shaped angle having the 'B' shape is buried to be flat with the upper surface of the concrete structure, and the base plate made of steel is placed so as to contact the upper surface of the concrete structure and the embedded angle. The base plate for supporting the heavy load tank, characterized in that for mounting the angle and the base plate, the tank is mounted on the upper surface of the base plate and then fixed to the base plate as an anchor bolt to install the tank It relates to the installation method.

The base plate installation method for supporting a high load tank having the above-described structure will be described in detail with reference to the accompanying drawings.

1 is a schematic view showing a method of installing a base plate for supporting a heavy load tank of the present invention, Figure 2 is a perspective view showing the angle of the base plate for supporting a heavy load tank of the present invention, Figure 3 is a present invention 4 is a view illustrating an installation method of a concrete structure and an angle and a base plate of a base plate for supporting a tank of high load of FIG. 4 is a base plate coupled to an angle of an installation method of a base plate for supporting a tank of a high load of the present invention. It is a perspective view which shows.

In order to settle the vacuum or non-vacuum tank 1 having a load of several hundred tons to thousands of tons, the concrete structure 4 is installed after the ground 9 is chopped in proportion to the diameter of the tank 1. .

At this time, the concrete structure 4 is buried in the upper surface of the angle of the ring-shaped '3' shape having a steel material as shown in Figure 2 flat with the upper surface of the concrete structure 4 and at the same time vertically A plurality of pipes 5 having a length enough to penetrate the structure 4 is embedded together.

The pipe 5 is to be a passage through which the sacrificial anode 6, which will be described later, and the grounded copper wire 7 pass.

In addition, the plurality of pipes 5 may later be arranged in a circular shape at equal intervals along the circumference of the angle 3.

The upper surface of the angle (3) is seated on the base plate (2) of the disc shape of the same material as the angle (3) is joined by welding.

The shape of the angle (3) is the most ideal shape of the ring shape of the vertical cross-sectional shape of the '' shape.

This is because rainwater is sufficiently prevented from penetrating between the angle 3 and the base plate 2 when the angle 3 made of steel is embedded only in the portion welded to the bottom edge of the base plate 2, This is because the production cost is much less than the production of the disc-shaped angle.

When the tank 1 is seated on the base plate 2 and the tank 1 is fixed as an anchor bolt, the seating operation of the primary tank 1 is finished.

Since the anchoring operation of the above-described anchor bolt is a general operation, it is not shown in detail in the drawings of the present invention.

Figure 5 is a partial detailed cross-sectional view of the vertical section of the base plate for supporting the high load tank of the present invention.

Base plate (2) and the angle (3) for supporting the tank (1) installed by the above-described installation method is a steel material can support the tank (1) firmly, but it is a fatal weakness that is well corroded over time Because of this material, more effective corrosion prevention methods are required.

Therefore, in order to permanently prevent the corrosion of the base plate (2) and the angle (3) to pass through the copper wire (7) through a plurality of pipes (5) embedded in the installation of the concrete structure (4) and the copper wire (7) One side of the both ends of the fixed to the lug (8) configured in the base plate (2) or the angle (3) to enable energization, the other side is fixed to the sacrificial anode (6) the lower ground of the concrete structure (4) Grounded at 9).

Since the base plate 2 and the angle 3 are bonded to each other by the same material, the lug 8 may be configured on one side of the base plate 2 and the angle 3 so as to enable energization. The same result can be obtained by the same sacrificial anode 6.

In the figure of the present invention is shown that the lug 8 is configured on the base plate 2, it can have the same effect even if the lug 8 is configured on the angle (3) as described above.

The dictionary meaning of the sacrificial anode is a molten anode used for the cathode method of a metal material. If a metal having a lower potential than the object is connected to the object directly or with a conductor, an electrical reaction is formed between the metals and a low potential metal ion An electric current flows into this to-be-tested body.

At this time, the metal of the low potential is consumed as a sacrificial electrode instead of the object, and corrosion of the object is completely stopped.

In the above-described configuration, the to-be-processed object indicates the base plate 2 and the metal of the low potential becomes the sacrificial anode 6.

It is ideal to use zinc (Zn) to magnesium (Mg) as the sacrificial anode 6 and copper wire 7 as the conductive wire.

This is because zinc (Zn) to magnesium (Mg) is the most efficient low-potential metal used as the sacrificial anode 6, which is combined with the base plate 2 and the anchor bolt to effectively prevent corrosion of the tank 1. .

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing a method of installing a base plate supporting a tank of high load of the present invention.

Figure 2 is a perspective view showing the angle of the base plate for supporting the heavy load tank of the present invention.

Figure 3 is a perspective view showing the installation method of the concrete structure and the angle and the base plate of the installation method of the base plate supporting the high load tank of the present invention.

Figure 4 is a perspective view showing that the base plate is coupled to the angle of the base plate installation method for supporting a high load tank of the present invention.

Figure 5 is a partial detailed cross-sectional view of the vertical section of the base plate for supporting the heavy load tank of the present invention.

<Description of Drawing Reference for Main Parts>

1. Tank 2. Baseplate 3. Angle

4. Concrete Structure 5. Pipe 6. Sacrificial Anode

7. Copper wire 8. Lug 9. Soil

Claims (2)

In the method of installing a base plate for supporting a tank of high load, On the ground (9) based on the upper surface of the concrete structure (4) installed so that the top surface is installed in the ring-shaped angle (3) having a longitudinal section of the 'b' shape, the ring-shaped having the 'b' shape The upper surface of the angle 3 is embedded so as to be flush with the upper surface of the concrete structure 4, and the base plate 2 made of steel is placed so as to contact the upper surface of the concrete structure 4 and the embedded angle 3 to be welded. After coupling the angle 3 and the base plate 2, the tank 1 of the high load is seated on the upper surface of the base plate 2, and then the tank 1 as an anchor bolt to the base plate 2 The base plate installation method for supporting a heavy load tank, characterized in that the fixed to the). The method of claim 1, When the concrete structure 4 is installed, a plurality of pipes 5 are embedded so as to penetrate the concrete structure 4 up and down to pass copper wires through the embedded pipes 5, and the Both ends are fixed to the lug 8 installed at the base plate 2 or the angle 3 and the other side is fixed to the sacrificial anode 6 composed of one of zinc (Zn) to magnesium (Mg) on the ground. Base plate installation method for supporting heavy load tank.

Images