KR100431835B1 - Anchor for steel pier by using deformed bar - Google Patents

Abstract

The present invention relates to an anchor (ANCHOR) used for the pillar base of steel piers, more specifically, by mounting a plurality of studs to the release bar to integrate to the foundation concrete, eliminating the conventional anchor frame, convenience of construction and design It is related to the anchor for steel piers using an improved release bar so that the basic construction can be made economically by shortening the construction process.

The present invention is an anchor (ANCHOR) used for the pillar base of the steel piers,

The upper and lower ends of the body part made of the deformed bar are formed with threaded parts, each of which is equipped with a nut, and in the longitudinal direction, a plurality of studs are mounted at a predetermined interval and embedded in the base concrete, thereby improving the coupling performance with the base concrete. Provide pier anchors.

In the present invention, a plurality of studs to improve the structural performance by promoting the integral behavior with the foundation concrete, and using a prefabricated connecting frame, it is possible to construct only a few workers without the need for a crane as in the prior art to improve the construction and economic efficiency You can.

Description

Steel piers anchor using deformed bar {ANCHOR FOR STEEL PIER BY USING DEFORMED BAR}

The present invention relates to an anchor (ANCHOR) used for the pillar base of steel piers, more specifically, by mounting a plurality of studs to the release bar to integrate to the foundation concrete, eliminating the conventional anchor frame, convenience of construction and design It is related to the anchor for steel piers using an improved release bar so that the basic construction can be made economically by shortening the construction process.

In general, the steel piers foundation 100 according to the conventional method, as shown in FIG. 6, the steel pillars 110 are anchor frames 130a and 130b and anchor bolts 140 embedded in the foundation concrete 120. It is connected through and resists external force.

According to the conventional method of the steel piers foundation 100 as described above, a plurality of anchor bolts 140 as shown in Figure 7, the upper and lower anchors forming the upper and lower steel structures in the base concrete 120 Buried and fixed by the frame (130a, 130b), the head screw portion (140a) of these anchor bolts 140 is projected to the upper portion of the base concrete 120 and fixed to the lower frame 150 forming the bottom of the pier pillar portion do.

The lower frame 150 of the pier pillar portion has upper and lower plates 152, and a plurality of reinforcing ribs 154 are mounted therebetween, and upper and lower plates 152 in the space between the ribs 154. The head screws 140a of the anchor bolt 140 are fitted to penetrate through the pads, which are fixed to the nut 160 at an upper part thereof, and are formed while surrounding the lower frame 150 as shown in FIG. 8. do.

However, in such a conventional steel piers foundation 100, the fabrication and construction of the upper and lower anchor frames (130a, 130b) embedded in the foundation concrete 120 is a complicated and uneconomical structure, pillars of steel piers Depending on the fastening force of the anchor frame (130a) (130b) and the anchor bolt 140 embedded in the additional foundation concrete 120, a lot of surroundings are required when constructing the anchor frame (130a) (130b) and the anchor bolt (140) Done.

That is, in the conventional construction method of the anchor frame (130a, 130b) and the anchor bolt 140, each of the anchor frame (130a, 130b) is assembled in a horizontal state before the foundation concrete 120, respectively, By screwing a plurality of anchor bolts 140 vertically, these anchor frames (130a, 130b) is a heavy steel structure, so they are manufactured, or in order to level them in the field to separate them to move them A crane, etc. must be provided and a large number of workers are required.

In addition, the conventional anchor bolt 140 itself is weak coupling capacity with the base concrete 120, so they must be embedded in the base concrete 120 through the anchor frame (130a, 130b) and the base concrete 120 Any behavior is possible. Therefore, the conventional anchor bolt 140 is necessarily accompanied by the construction of the anchor frame (130a, 130b), making the construction of the steel piercing base portion 100 difficult.

That is, since the conventional steel piers foundation 100 is structurally complicated and poor in design, fabrication, and construction, it is uneconomical, and therefore, it is easy to construct and can be integrated with the foundation concrete 120. Development was in great demand.

The present invention is to solve the conventional problems as described above, the purpose is to omit the conventional anchor frame to facilitate the construction and design, and to shorten the construction process so that the economical basic work can be made It is to provide an anchor for steel piers using an improved release bar.

1 is a side cross-sectional view of the construction of the steel piers foundation using the steel piers anchor according to the present invention;

Figure 2 is a side view showing an anchor for a steel pier according to the present invention;

Figure 3 is a side view showing a steel pier anchor according to a modified embodiment of the present invention.

4 is a detailed view of a steel pier anchor according to the present invention shown in Figure 3,

a) is a sectional view along the line A-A of FIG. 3;

b) is a cross sectional view along line B-B in FIG. 3;

c) is a cross sectional view along line C-C in FIG. 3;

Figure 5 is an external view showing a connecting frame for vertical installation of the steel piers anchor of the present invention;

Figure 6 is a side view showing the base portion of the general steel pier pillars.

Figure 7 is a side cross-sectional view of the construction of the steel piers base using the steel piers anchor according to the prior art;

FIG. 8 is a cross-sectional view taken along the line D-D of FIG. 5.

Explanation of symbols on the main parts of the drawings

10 ..... Body 12 ..... Stud

17 ... Thread 20 ... Nut

30 ..... Connection frame 32 ..... Clamp

40 ..... Slope 100 ... Foundation

120 .... Foundation concrete 130a, 130b ... Upper and lower anchor frames

140 .... Anchor Bolt

In order to achieve the above object, the present invention, the upper and lower ends of the body portion made of a release bar is formed with a thread for each nut is mounted, a plurality of studs are installed at a predetermined interval in the longitudinal direction is embedded in the foundation concrete by In the anchor (ANCHOR) used for the pillar base of the steel pier to improve the coupling performance with the, A longitudinal cut surface is formed on each side of the body portion, characterized in that the stud is formed on the cut surface By providing anchors for steel piers using deformed bars.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

Steel pier anchor (1) of the present invention was developed for the economic and efficient construction of steel pier used in the substructure of the bridge, consisting of an anchor frame (130a) (130b) and the anchor bolt 140 of the bolt Compared with the conventional method, which relies on the fastening force, it is possible to omit the anchor frames 130a and 130b and to improve the integrated behavior with the foundation concrete 120 by using studs, deformed bars, and large nuts, and simplify the installation and construction, thereby improving economic efficiency. It can be done.

The present invention is installed in place of the conventional anchor bolt 140 and the anchor frame (130a, 130b) to the base portion 100 of the steel piers, the present invention is the body portion 10 of the release bar is installed stud 12 Equipped with a large nut 20 and steel pipe (or reinforcing bar) and the anchor structure is composed of a prefabricated connecting frame 30 using a joint.

In the present invention, as shown in Figure 2, the upper and lower ends of the body portion 10 made of a deformed bar is formed with a screw portion 17 to which the nut 20 is mounted, respectively, a plurality of studs 12 in the longitudinal direction Mounted at a predetermined interval is embedded in the foundation concrete (120).

Therefore, due to the body portion 10 of the deformed bar with the studs 12 installed to improve the integral behavior with the base concrete 120 and the level is aligned as shown in Figure 1 by the prefabricated connecting frame 30, the base concrete 120 When pouring, prevent movement by pouring pressure.

3 shows a steel piers anchor 1 'according to a modified embodiment of the present invention. This forms a cutting surface 40 in the longitudinal direction on each side surface of the body portion 10, the stud 12 has a structure formed on the cutting surface (40).

In this modified embodiment, the cut surface 40 is formed to make the connection of the body portion 10 and the stud 12 more easily during the manufacturing operation of connecting the stud 12 to the body portion 10. Cutting surface 40 is formed in the body portion 10 side by side in the opposite direction.

Steel piercing anchor (1) (1 ') using the release bar of the present invention configured as described above is the body portion 10 of the release bar with the stud 12 and the lower threaded portion 17 of the body portion 10 Using a large nut 20 coupled to the) improves the integral behavior with the foundation concrete 120 and promotes the convenience of manufacturing and construction.

Steel pier anchors (1) (1 ') using a release bar of the present invention is mounted vertically using a connecting frame 30, as shown in Figure 5, the connecting frame 30 in the middle As known in the art having a plurality of clamps 32, the connecting frames 30 are assembled into a square using these clamps 32, and the body is formed using the clamps 32 in a rectangular assembly structure of the connecting frame 30. By connecting the part 10 vertically, a plurality of anchors 1, 1 ′ of the present invention can be assembled as shown in FIG. 1 and the foundation concrete 120 can be poured and embedded.

In addition, the anchor (1) (1 ') of the present invention protrudes to the upper portion of the base concrete 120, the upper threaded portion 17 of the body portion 10 embedded in the base concrete 120, which is the same as conventional It is coupled to the lower frame 150 of the steel pier pillars. That is, the upper threaded portions 17 of the body portion 10 are fitted to penetrate the upper and lower plates 152 in the space between the reinforcing ribs 154 of the lower frame 150, and they are the nut 20 at the upper portion thereof. It is fixed to, and is coupled while surrounding the lower frame 150.

According to the present invention as described above, it is installed as a prefabricated connecting frame 30 using a steel pipe (or reinforcing bar) and a clamp 32, omitting the conventional anchor frame (130a, 130b) of difficulty in construction, The concrete 120 is poured and embedded, and even in the buried state, the plurality of studs 12 of the body part 10 may have excellent coupling performance with the base concrete 120, thereby enabling integral behavior with the base concrete 120.

Therefore, in the present invention, a plurality of studs 12 improve the structural performance by promoting the integral behavior with the base concrete 120, and using a prefabricated connecting frame 30, so as to require only a few workers without a crane as in the prior art Construction is possible to improve workability and economics.

Claims (2)

Upper and lower ends of the body portion 10 made of a release bar are formed with a threaded portion 17 on which the nut 20 is mounted, and a plurality of studs 12 are mounted at regular intervals in the longitudinal direction to the foundation concrete 120. In the anchor (ANCHOR) used in the pillar foundation of the steel pier is to be buried to improve the coupling performance with the foundation concrete 120, Longitudinal cutting surface 40 is formed on both sides of the body portion 10, respectively, and a stud 12 is formed on the cutting surface 40, wherein the anchor for steel piers using a deformed bar. delete