KR20000014906U - Connection structure of steel pipe pylon - Google Patents

Abstract

The present invention relates to an optimized structure for easy and safe steel pipe steel tower connection, and more specifically, the method of connecting the steel pipe members between the bolt connection structure using the cross-type easy to assemble, and the anti-bird plate at the end of the steel pipe Combining to prevent the flow of wind as well as to prevent the entry of algae relates to the production of a safe steel pipe pylon.

As steel tower structure for UHV class overhead power transmission line is enlarged in transmission line, the load applied to the structure is not able to endure the load with general EQUAL ANGLE.

The front cross-shaped reinforcement plate (1) of the steel pipe member portion and the overlapping plate (3) for connection are inserted into grooves of a predetermined length formed in the steel pipe member (4), and then welded and welded to the steel pipe main member (10). Make sure that the load curve matches the flat cross-shaped reinforcement plate (5) of the main part and the flat cross-shaped reinforcement plate (9) of the main part, and connect the overlapping plate (3) for connecting with a cross-connection connecting bolt (6). An easy-to-assemble and safe steel pipe pylon connection structure consisting of coupling to the front cross reinforcement plate 5 of the main part is an optimized structure.

Description

Connection structure of steel pipe pylon

The present invention relates to an optimized structure for easy and safe steel pipe steel tower connection, and more specifically, the method of connecting the steel pipe members between the bolt connection structure using the cross-type easy to assemble, and the anti-bird plate at the end of the steel pipe Combining to prevent the flow of wind as well as to prevent the entry of algae relates to the production of a safe steel pipe pylon.

As steel tower structure for UHV class overhead power transmission line was enlarged in transmission line, the load applied to the structure could not endure the load with general EQUAL ANGLE.

In general steel structures, when connecting the steel pipe and the steel pipe, a groove is formed at the end of the steel pipe, and the general plate is inserted and welded inside the steel pipe, or the steel pipe and the steel pipe are beveled and welded directly to the members of the steel pipe. The pylon structure separates all members separately and is assembled together by bolts in the field.

However, the UHV-class steel pipe steel tower has a large working load so that the connection between the members can not easily withstand the working load by a general straight plate.

In other words, it is difficult to connect the joints of the node when the joint of the steel pipe steel tower for power transmission is used as a steel pipe in the case of a large load. It is possible, however, due to the change of the central axis where the axial force of the sand material is joined to the steel pipe main material, it is difficult to secure the stability of the structure due to the movement of force due to the secondary eccentricity.

In addition, when the sand is used instead of steel pipe, the weight of the structure is increased and the wind pressure of the steel tower is increased, which increases the weight of the steel tower and increases the foundation load. As shown in 1 and 2, when connecting the sand material (steel pipe) 102 to the main material 100, the groove 104 is formed in the sand material (steel pipe) 102, the reinforcing plate 106 is inserted and combined, and the reinforcing plate When it is fastened to the hole formed in the 106 by the connecting bolt 108 and installed in a straight shape, the shape becomes strange, and it has a great influence on securing the safety of the local buckling of the joint, so that it is difficult to secure the transmission line.

In addition, when constructing a steel tower using steel pipes, the main column of the steel tower is connected by forging flanges. When joining the steel bars, a groove is inserted into the end of the steel pipe and a spherical or cross plate is inserted to weld the reinforcement plate of the steel pipe main material The steel tower is constructed by joining with bolts.

However, if the end of the steel pipe consists of spherical or cross-shaped seams, there is an extra hole in the end of the steel pipe. Therefore, depending on the local conditions, strong winds pass through it, causing vibration to the steel pipe structure, adversely affecting the welded area of the structure, It caused the anxiety of the people who lived through the tower.

In addition, the construction of birds can lead to corrosion of the tower members due to deposits, which can cause serious damage to the entire track, such as damage to the tower and short circuits.

In other words, strong winds pass through the steel pipe material, which generates tremendous noise, vibrations are generated in the members through which the wind passes, and the repetitive vibration promotes destruction at the welding site, and damages the inhabitants by roaring noises. Several complex problems have arisen.

The present invention was devised to solve the above problems, and the shape of the connecting part is beautiful and concise, and the axial force generated in the sand material does not act as an eccentric force and only the axial force acts as a structure to analyze the structure in the truss method. The concise and secure transmission steel pipe structure ensures safe transmission of high-quality transmission power over long distances, and prevents the flow of wind and prevents the flow of air by blocking the end of the steel pipe of the transmission steel pipe tower with anti-bird plates. The purpose is to prevent and prevent the noise generated by the passage of the wind by preventing entry and prevention and suppression of vibration generated in the absence.

In order to achieve the above object, the front cross reinforcement plate of the steel pipe member part and the connecting overlap plate are inserted into a groove of a predetermined length formed in the steel pipe member, and then welded, and the flat cross reinforcement of the main part part welded to the steel pipe main member. The load curve and the flat cross-shaped reinforcement plate of the main body couple and the load curve are matched, and the connecting overlapping plate is connected to the front cross-shaped reinforcement plate of the main body part with cross-connection connecting bolts,

Spherical plate for connecting and fixed by welding and cross-shaped cross plate for connecting the material and anti-bird plate in the space of steel pipe material is inserted into the groove formed in the steel pipe material to prevent noise from entering the inside of the steel pipe main material. It is to provide that can prevent and prevent vibration.

1 is a schematic diagram of a straight bolt connection structure method for connecting a conventional steel pipe pylon

Figure 2 is a cross-sectional view of a conventional steel pipe pylon connected state

Figure 3 is a schematic diagram of a straight bolt connection structure method for connecting the steel pipe pylon of the present invention

4 is a partial cross-sectional view of a state in which the steel pipe pylon of the present invention is connected

5 is a configuration diagram of the spherical connection of the steel pipe steel tower of the present invention

6 is a configuration diagram of the cross-shaped connecting portion for the steel pipe pylon of the present invention

Figure 7 is a schematic diagram of the anti-bird plate for the steel pipe pylon of the present invention

8 is another model of the anti-bird plate for steel pipe pylon of the present invention

<Explanation of symbols for main parts of the drawings>

(1): Reinforcing cross reinforcement plate of steel pipe member part

(2): Flat cross reinforcement plate of steel pipe member part

(3): overlap plate for connection (4): steel pipe member

(5): Reinforcing plate for front cross reinforcement of main part.

(6): cross bolt for connecting cross

(7): Assassination Welding (8): Assassination Welding

(9): Flat cross reinforcement plate of main part

10: steel pipe main body (11): anti-bird plate

(12): bolt hole for sand connecting (13): spherical plate for sand connecting

(14): cross plate for sander connection

Referring to the configuration and operation of the present invention in detail based on the accompanying drawings as follows.

Figure 3 is a schematic diagram of a straight bolt connection structure method for connecting the steel pipe pylon of the present invention,

4 is a partial cross-sectional view of a state in which the steel pipe pylon of the present invention is connected;

5 is a configuration diagram of the spherical connection of the steel pipe steel tower of the present invention,

6 is a mounting configuration of the cross-shaped connecting portion for the steel pipe pylon of the present invention,

Figure 7 is a model of the anti-bird plate for steel pipe pylon of the present invention,

Figure 8 shows another model of the anti-bird plate for steel pipe pylon of the present invention.

The front cross-shaped reinforcement plate 1 of the steel pipe member portion and the overlapping plate 3 for connection are inserted into a groove of a predetermined length formed in the steel pipe member 4, and then welded and welded to the steel pipe main member 10 by welding. Make sure that the load curve matches the flat cross-shaped reinforcement plate (5) of the main part and the flat cross-shaped reinforcement plate (9) of the main part, and connect the overlapping plate (3) for connecting with a cross-connection connecting bolt (6). Coupled to the front cross reinforcement plate 5 of the main part,

Spherical plate 4 for sand connection or cross-shaped plate 5 for sand connection and steel pipe sand 4, which is fitted into the groove formed in the steel pipe sand material 4 and fixed and welded, and the anti-bird plate 2 It is configured so that the wind does not flow into the steel pipe main assembly (1).

The operation of the present invention is as follows.

Where the front cross reinforcement plate 1 of the steel pipe member and the flat cross reinforcement plate 2 of the steel pipe member meet in a crosswise fashion (perpendicular to each other), they are mounted by means of an inclined weld (7).

The front cross reinforcement plate 1 of the extended steel pipe yarn portion and the flat cross reinforcement plate 2 of the steel pipe yarn portion are inserted in the grooves formed in the steel pipe yarn 4 and subjected to the firing welding 8.

Weld the front cross reinforcement plate (1) of the main body part and the flat cross reinforcement plate (2) of the main body part to the steel pipe main body, and the front and flat cross reinforcement plate (1) (2) of the main body part. Covering the overlapping plate (3) for the connection to the plate (1) (2) on the connecting overlap plate (3) and the front cross reinforcement plate (1) of the steel pipe member portion and the front cross reinforcement of the main casting portion The plate for the cross was connected in a cross-shaped connection structure that connects the steel pipe main body 10 to the steel pipe material (4) to the connecting bolt (6) for the cross-shaped connection.

In addition, a semicircular anti-bird plate 11 or an anti-bird plate 11 divided into quarters in the space between the steel pipe main body 10 and the yarn connecting spherical plate 13 or the yarn connecting cross plate 14. ) To prevent the inflow of wind can prevent and suppress noise and vibration.

Therefore, the present invention is beautiful and concise when joining the reinforcing plate connected to the main pipe of the steel pipe, and the axial force generated in the sand material does not act as eccentric force. As it secures safety of transmission steel pipe structure, it can be used as a driving force to safely transmit high-quality power transmission power to a long distance. It is a very useful design that can prevent and suppress the noise generated by preventing and suppressing the vibration generated in the member and thereby secure the safety line of the welded part and the structure.

Claims (2)

The front cross-shaped reinforcement plate 1 of the steel pipe member portion and the overlapping plate 3 for connection are inserted into a groove of a predetermined length formed in the steel pipe member 4, and then welded and welded to the steel pipe main member 10 by welding. Make sure that the load curve matches the flat cross-shaped reinforcement plate (5) of the main part and the flat cross-shaped reinforcement plate (9) of the main part, and connect the overlapping plate (3) for connecting with a cross-connection connecting bolt (6). Connection structure of a steel pipe pylon, characterized in that it is configured to couple to the front cross-shaped reinforcement plate (5) of the main portion. Spherical plate 4 for sand connection or cross-shaped plate 5 for sand connection and steel pipe sand 4, which is fitted into the groove formed in the steel pipe sand material 4 and fixed and welded, and the anti-bird plate 2 Connection structure of the steel pipe pylon, characterized in that the steel pipe is made so that the main body (1) is inserted into the wind.