KR20040052783A - Root Shaped Anchor Bolt - Google Patents

Abstract

PURPOSE: A tree root type anchor bolt is provided to increase the bearing force of an anchor bolt by a pressure plate looking like an umbrella. CONSTITUTION: The tree root type anchor bolt comprises a bolt casing(10), a pressure plate control unit(30) spreading in the shape of a root to the outside of the bolt casing(10), a main shaft compound(20) controlling the location of the pressure plate control unit(30), and a load control unit(40) providing compressive force to compress the surrounding soil of the bolt casing(10) strongly.

Description

Root Shaped Anchor Bolt

Conventional methods for anchoring anchor bolts and reinforcing bearing capacity in the soil include inserting a plate connected to the center of the plate into the soil and pulling the rope so that the plate rotates at right angles to the rope, or hard such as concrete. Where there is soil or rock, insert the bolt into the soil and push the dividing cylinder on the outside of the bolt into the inclined part of the bolt to press the soil or to bend the plate perpendicular to the bolt in the soil. I'm using methods. However, all of these methods have a large amount of sand, so that most of them are not able to apply strong compressive force to the soil as originally intended. Therefore, it is necessary to pull out a horizontal support plate like a tree root from a vertically bolted bolt.

In the present invention, when the anchor bolt is inserted into the soil, the cross section is put in a constant state like a normal nail, and after entering the soil, the pressure plate springs out to the surrounding soil of the anchor bolt, like an umbrella, by applying a compressive force toward the soil. The purpose of this study was to develop a method and a device to increase endurance of a patient.

1 is a conventional anchor bolt according to the present invention

2 is an embodiment of the operation concept of the pressure plate of the anchor bolt according to the present invention.

3 is an embodiment of the appearance and cross section of the anchor bolt according to the present invention

Figure 4 is an embodiment of a cross section of the pressure plate control element according to the present invention

5 is a perspective view of one embodiment of the bolt casing according to the present invention

Figure 6 is an embodiment of a cross section of the spindle assembly according to the present invention

7 is an embodiment of a cross section of a tree root-shaped pressure plate according to the present invention

Conventional methods for anchoring anchor bolts and reinforcing bearing capacity are inserted into the soil by inserting a plate connected to the center of the plate into the soil and pulling the rope to the right angle to the rope as shown in (1) of FIG. 1. If there is a hard soil or rock, such as concrete or concrete, the bolt is inserted into the soil as shown in (2) of FIG. 1 and the dividing cylinder on the outside of the bolt is driven into the inclined portion of the bolt. There are methods to press or to bend the knurled plate perpendicular to the bolt in the soil. However, all of these methods have a large amount of sand, so that most of them are not able to apply strong compressive force to the soil as originally intended. Therefore, it is necessary to pull out a horizontal support plate like a tree root from a vertically bolted bolt.

In the present invention, when the anchor bolt is inserted into the soil, the cross section is inserted into a constant state like a normal nail, and after entering the soil, the pressure plate springs out like an umbrella to the surrounding soil of the anchor bolt and applies a compressive force toward the soil. To increase the durability of the.

To this end, in the present invention

Inserting the bolt into the soil with the pressure plate positioned parallel to the outer surface of the bolt body of the bolt casing;

After the bolt casing reaches the required depth, adjust the distance between the bolt body support and the extension shaft support to move the spindle.

The pressing plate rotates around the hinge of the body support plate of the body support plate by the movement of the main shaft to go out of the pressure plate space and compress the surrounding soil into the shape of a tree root;

It consists of fixing the position of the pressure plate adjustment element by adjusting the spindle nut to maintain the pressure plate to apply a compressive force to the soil

It relates to a tree root type anchor bolt characterized by maintaining the anchor bolt strong bearing strength without being greatly affected by the condition of the soil.

The tree root-type anchor bolt according to the present invention is a bolt casing 10 and a pressing plate adjusting element 30 extending in a root shape to the outside of the bolt casing, such as a tree root, a spindle assembly 20 for controlling the position of the pressing plate adjusting element. ) And the pressure plate consists of a load control element 40 which provides a force for strongly compressing the surrounding soil of the bolt casing 10.

The bolt casing 10 is a pressure plate space (31) from which the outer surface is removed from a predetermined portion of the bolt body so that the bolt tip (12) and the pressure plate (31) having a conical shape can be easily inserted into the bolt body (11) and the soil (31). ) And an extension shaft support 24 and a bolt body support 15 capable of controlling relative movement, and a body intermediate plate 14 serving as a center of the rotating shaft of the pressure plate.

The pressure plate adjusting element 30 is integrated with the body arm 32 so as to move outwardly of the bolt body 11 to become a tree root shape around the body support plate hinge FH of the body intermediate plate 14. The plate plate is in the form of a pressing plate 31 and the lower end of the body arm 32 is fastened with a connecting hinge (CH) and a pin, the other end is coupled to the spindle arm hinge (RH) at the lower end of the spindle ( 33) and the main shaft 21 is a structure that can lead to the top of the anchor bolt so as to control the height of the main shaft arm hinge (RH) in the center of the bolt body (11).

The spindle assembly 20 has a spindle nut 22 corresponding to a screw machined along the surface T of the spindle on the upper side of the spindle 21 and an extension shaft which is machined and connected to the threads of the spindle at the upper end of the spindle. 23) and an extension shaft support 24 capable of receiving a load of a load control element on the upper end of the extension shaft, and having a larger inner diameter than the extension shaft 23 to surround the extension shaft and rotate the main shaft nut 24. It consists of a main shaft nut control barrel 25 and a rotating arm 28 that can transmit the rotational force to the main shaft nut control barrel.

The load control element 40 is composed of the bolt body support 15 and the extension shaft support 24 and the length adjuster 41 which can adjust the gap therebetween.

Inserting the bolt into the soil while the pressure plate is located parallel to the outer surface of the bolt body of the bolt casing, the outer contour straight line of the bolt body 11 and the pressure plate 31 is almost straight line as shown in (1) of FIG. The main shaft 21 is pushed downward so that the main shaft arm hinge (RH) is completely lowered to the bottom, and then the bolt casing is pushed into the soil.

After the bolt casing arrives to the required depth, in the step of adjusting the distance between the bolt body support and the extension shaft support to move the main shaft, the length of the length adjuster 41 after the bolt casing is buried in the soil to the desired depth. When the length is adjusted in the extending direction, the extension shaft 23 comes up, and comes up along the main shaft 21 connected in a straight line with the extension shaft 23, so that the main shaft 21 raises the spindle arm hinge RH up. A series of lifting is done. 2 shows an embodiment of using the hydraulic jack as the length adjuster 41, but the length adjuster 41 does not necessarily need to be a hydraulic jack, such as a screw type using a bolt and a nut. Also available.

The compression plate is rotated about the body support plate hinge of the body support plate by the movement of the main shaft to go out of the pressure plate space and compress the surrounding soil in the shape of a tree root as shown in (2) of the bolt casing ( 10) it means that the movement of the pressing plate out. The spindle arm hinge RH rises as the spindle 21 moves up in the axial direction from the center of the bolt casing 10, and when the spindle arm hinge RH moves up, the spindle arm 33 connected with a pin is connected thereto. The body arm 32 is changed into a diamond shape. This rotates the body arm 32 pinned to the body intermediate plate 14 with the body support plate hinge FH in the horizontal direction, and rotates the pressure plate 31 integrated in the lower end of the body arm 32 in the horizontal direction. Let's go. At the same time as the main shaft 21 is moved upward, the pressure plate 31 rotates in the horizontal direction, so that the pressure plate compresses the surrounding soil. If the surrounding soil is hard and dense, a lot of force is required to open the platen 31, and if the soil is soft and not high, the platen 31 can easily rise to a position perpendicular to the bolt body 11. will be. By maximizing the compressive force applied to the surrounding soil in this way, the compressive force eventually maximizes the bearing strength of the anchor bolt according to the present invention, it can be seen that the anchor bolt according to the present invention can obtain a higher bearing force than the conventional anchor bolt. .

The step of fixing the position of the pressure plate adjusting element by adjusting the main shaft nut so that the pressure plate maintains a state in which the pressing force is applied to the soil, the main shaft 21 to maintain the state that the pressure plate 31 gives the maximum pressing force to the surrounding soil. The position of the main shaft is fixed by rotating the main shaft nut 22 at the original position by the operation of the length adjuster 41 so that the lower surface of the main shaft nut contacts the body intermediate plate 14. Even if the length adjuster 41 is removed, the pressure plate maintains the state of pressurizing the surrounding soil. The main shaft nut 22 rotates the main shaft nut with a sieve wrapped around the main shaft nut 22 with an extension shaft shaped like a box wrench having an hexagonal cross section at a lower end thereof so as to correspond to the outer circumference of the main shaft nut. The rotating arm 26 of the can rotate the nut.

7 illustrates an example in which the pressure plate 31 according to the present invention is disposed symmetrically about the center of the bolt body and forms two or more pairs. The plate may be arranged in a plurality of rows along the axial length of the bolt body, as shown in Figure 2, in the same section it is advantageous to distribute the force plate to the symmetry of the center of the cross section as the axis of symmetry.

In addition, the bolt body in the present embodiment is a circular cross-sectional example, but may be implemented in a variety of cross-sectional structure, such as a pair of square structures or flat plates, and the space between them as a different structural material.

In the present invention, when the anchor bolt is inserted into the soil, the cross section is put in a constant state like a normal nail, and after entering the soil, the pressure plate pops out like an umbrella toward the surrounding soil of the anchor bolt and applies a compressive force toward the soil by applying a compressive force toward the soil. By developing a method and a device to increase the bearing strength of anchor bolts by placing a pressure plate that extends in the horizontal direction at each vertical position of the anchor bolts, we develop an anchor bolt with the strongest bearing strength in spite of soil composition and condition. In the shortest time in the world, I had a fault tolerance.

Claims (3)

Inserting the bolt into the soil with the pressure plate positioned parallel to the outer surface of the bolt body of the bolt casing; After the bolt casing reaches the required depth, adjust the distance between the bolt body support and the extension shaft support to move the spindle. The pressing plate rotates around the hinge of the body support plate of the body support plate by the movement of the main shaft to go out of the pressure plate space and compress the surrounding soil into the shape of a tree root; It consists of fixing the position of the pressure plate adjustment element by adjusting the spindle nut to maintain the pressure plate to apply a compressive force to the soil How to build a tree root type anchor bolt, characterized in that the anchor bolt maintains a strong bearing force without being greatly affected by the soil condition A device for inserting the bolt into the soil with the pressure plate positioned parallel to the outer surface of the bolt body of the bolt casing; After the bolt casing arrives at the required depth, the main body moves by adjusting the distance between the bolt body support and the extension shaft support. A device for compressing the surrounding soil in the shape of a tree root by rotating the pressure plate around the body support plate hinge of the body support plate by the movement of the main shaft. It consists of a device to fix the position of the pressure plate adjustment element by adjusting the spindle nut so that the pressure plate maintains the state of applying a compressive force to the soil Tree root-type anchor bolt device, characterized in that the anchor bolt maintains a strong bearing force without being greatly affected by the soil condition. The pressing plate adjusting element according to claim 2 is a plate-shaped pressing plate and the body arm which are integrated with the body arm so as to move in an outward direction of the bolt body to become a tree root shape around the body support plate hinge of the body intermediate plate. It is fastened with a connecting hinge and a pin at the bottom, and the other end is connected to the top of the anchor bolt to control the height of the spindle arm hinge at the center of the bolt body and the spindle arm coupled with the spindle arm hinge at the lower end of the spindle. Apparatus characterized in that the main shaft is a structure that can be