KR101996219B1 - Rotating bracket apparatus of sheathing structure and construction method of sheathing structure - Google Patents

Abstract

The present invention relates to a rotating bracket apparatus of a retaining wall and a construction method of a retaining wall, and more specifically, to a rotating bracket apparatus of a retaining wall and a construction method of a retaining wall, which allow a furring strip and a strut to have bearing capacity while allowing the strut to be stably supported against earth pressure. Furthermore, the present invention has a configuration to have a free rotating power in four directions to be movably connected between the furring strip and the strut. In addition, even when a deviation occurs in the coupling angle of the furring strip and the strut, the connecting and supporting state thereof is maintained. Not only that, strut installation work is easily performed, and construction work of a retaining wall is easily performed on site, thereby improving workability on site. Therefore, according to the present invention, the furring strip and strut have bearing capacity such that the strut is stably supported against earth pressure caused by the excavated ground. Furthermore, the present invention has a configuration to have a free rotating power in four directions to be movably connected between the furring strip and strut. Resultantly, even when a deviation occurs in the coupling angle of the furring strip and strut, the connecting and supporting state thereof is maintained. Not only that, strut installation work is easily performed, and construction work on a retaining wall is easily performed on site, thereby improving workability and constructability on site.

Description

ROTATING BRACKET APPARATUS OF SHEATHING STRUCTURE AND CONSTRUCTION METHOD OF SHEATHING STRUCTURE}

The present invention relates to a rotating bracket device for the retaining wall and a construction method of the retaining wall, and more particularly, to have a supporting force of the belt and the support, and to stably support the support from earth pressure. The configuration allows the connection between the belt and the brace in a flexible form, maintains the connection support even if there is a deviation in the coupling angle between the belt and the brace, and facilitates the installation of the brace in the field. The present invention relates to a construction of a retaining bracket and a retaining wall of the retaining wall for improving workability in the field, such as making it easy to perform the building work for the retaining wall.

In general, during the excavation of the ground for the construction of a structure (civil engineering / building site), a temporary earthquake construction is carried out to form the walls of the retaining wall in the usual way to maintain the safety of adjacent ground by preventing soil collapse and suppressing displacement of the back surface of the excavation. However, it is hypothesized through the construction of the earthen wall, and the earthen wall can be referred to as a temporary structure supporting the excavated ground, and is widely used for excavation construction for the construction of subways, pipelines and large underground structures, and excavation for the construction of large building structures. It is also used in the construction process.

In particular, recently, as the construction of urban centers is frequent, there has been a demand for settlement of adjacent ground due to ground excavation and safety of surrounding buildings, and thus, the importance of temporary wall construction is increasing.

The temporary wall constructed by such temporary cladding construction includes an earthquake wall supporting the wall surface of the excavated ground, a belt strip disposed on the outer surface of the earthquake wall in the horizontal and vertical directions, and an outer surface of the earthquake wall. It includes a brace that is used to connect and support the two straps.

The brace can be divided into a straight beam portion connecting two strips in the direction facing each other, and a sabot portion connecting two strips in different directions, the rotation is of the type that can be adjusted to the angle at both ends of the brace It is installed by connecting supporting means such as bracket.

Here, the brace effectively supports the earth pressure acting on the girdle to prevent the soil wall of the excavated earthen wall is eluted or collapsed, the support means such as the rotating bracket increases the bearing capacity of the girdle and brace In addition, it supports stable support from earth pressure and widens the interval between supports, thereby improving the workability of the site.

However, in view of the special situation of the field work, there is a problem that does not properly fasten the support means such as a rotating bracket, there is a problem that the installation work in the field is cumbersome and takes a long time.

Republic of Korea Patent Publication No. 10-2017-0065165 Republic of Korea Utility Model Registration No. 20-0478996

The present invention has been made in view of solving the above-mentioned conventional problems and in consideration of this, to provide a support for the belt and the support, and to support the support from the earth pressure stably, but to have a free rotation of all directions Through this, it is possible to connect in a flexible form between the gimbal and the brace, to maintain the connection support even if there is a deviation in the coupling angle between the girdle and the brace, and to facilitate the installation of the brace in the field. Of course, it is an object of the present invention to provide a rotary bracket device and a construction method of the retaining wall to improve the workability in the field, such as to facilitate the construction work on the retaining wall.

The present invention provides a supportive force that can flow freely between the strip and the support, so that even if the deformation occurs in earth pressure to be able to flexibly respond regardless of the direction and angle of the deformation to prevent the bending deformation of the support beam, as well as the wall It is an object of the present invention to provide a rotating bracket device and a construction method of the retaining wall to prevent the collapse of the retaining wall.

The present invention is to provide a construction method of the rotating bracket device and the retaining wall of the retaining wall so as to simply install the fastening to the support and the strip to support the support of the support and the strip, as well as to reduce the work time according to the installation. There is this.

The present invention for achieving the above object is in the bracket device of the earth wall wall connected to both ends of the brace 20 to be used to connect and support the band long 10 and the band long installed on the wall surface of the earth wall 30 The first spherical joint part 120 is mounted on the brace 20 and has a first spherical joint part 120 having a first spherical body 121 and a first support part 110 supporting the spherical joint part 120. A first rotating bracket unit 100 having a rotational movement of freedom with respect to; The second spherical joint portion 220 is mounted on the strip 10 and has a second spherical joint portion 220 having a second spherical body 221 and a second support portion 210 supporting the second spherical joint portion 220. A second rotating bracket unit 200 fastened to the first rotating bracket unit 100 and having a rotational motion freely; It includes an elastic rigid connection portion 300 to absorb and offset the force between the strip 10 and the support 20, the first rotating bracket unit 100, the first spherical body 121 with respect to A first support part 110 of the housing structure for supporting the rotational movement of the free material and preventing the separation thereof; A first spherical body 121 inserted into the first support part 110 to expose an inner portion and a part thereof and having a rotational movement, and a first connection part 122 extending and protruding from the first spherical body 121; And a first spherical joint part 120 formed of a first fastening plate 123 extending to the first connection part 122. The first fastening part 130 extending to the first support part 110 and coupled to the brace 20 through the fastening of the fastening bolt 101 in a state where the end of the brace 20 is inserted into and disposed. The second rotating bracket unit 200 includes a support housing 211 for supporting the second spherical body 221 to be prevented from being released while enabling free movement of the second spherical body 221. A second support part 210 extending from the support housing 211 and composed of a second fastening part 212 coupled to the strip 10 through fastening of the fixing bolt 221; The second spherical body 221 is inserted into the support housing 211 of the second support portion 210, the inner material and a part of which is exposed and rotated, and extends and protrudes from the second spherical body 221. And a second spherical joint portion 220 formed of a second connection portion 222 and a second fastening plate 223 extending to the second connection portion 222, wherein the elastic rigid connection portion 300, A plurality of elastic rigid bodies 310 having both ends fixed between the first fastening plate 123 and the second fastening plate 223 disposed to be spaced apart by a distance; Fixing bolts 320 for fixing both ends of the elastic rigid body 310 to the first fastening plate 123 and the second fastening plate 223, respectively.

The elastic steel 310 is characterized in that it is made of any one material of carbon steel material including a spring, synthetic resin material containing rubber or urethane.

The present invention according to another embodiment in the construction method using a bracket device for connecting the braces 20 and the belt length 10 in the construction method of constructing the temporary wall 30, which is a temporary structure installed to prevent the collapse of the ground when ground excavation In the step (A) excavating the ground; (B) forming a retaining wall (30) for supporting the wall surface of the excavated ground; (C) installing a strip (10) on the outer surface of the retaining wall (30); (D) installing a brace 20 to connect and support the two strips 10 installed on different surfaces of the retaining wall 30; In the step (D), (D- 1) one bracket of the one side portion and the one side of the belt strip 10 adjacent to the brace 20 is composed of the first rotating bracket unit 100, the second rotating bracket unit 200, the elastic rigid connection portion 300 Connecting using the device; (D-2) the other side of the brace 20 and the other side strip 10 adjacent thereto is composed of the first rotating bracket unit 100, the second rotating bracket unit 200, the elastic rigid connection portion 300 And connecting using another bracket device; wherein, in the step (D-1), support of the first spherical body 121 is prevented from being released while enabling free movement of the first spherical body 121. A first support 110 of the housing structure; A first spherical body 121 inserted into the first support part 110 and having an inner portion and a part exposed and having a rotational movement, and a first connection part 122 extending and protruding from the first spherical body 121; And a first spherical joint part 120 formed of a first fastening plate 123 extending to the first connection part 122. One end of the brace 20 is inserted into the first fastening part 130 of the first rotating bracket unit 100 provided as the first fastening part 130 extending from the first support part 110. Connecting and mounting the first rotating bracket unit 100 to one side of the brace 20 through the fastening of the fastening bolt 101 in the arranged state, freely with respect to the second spherical body 221. A support housing 211 that supports rotational movement while allowing rotational movement, and a second fastening portion extending to the support housing 211 and coupled to the band long 10 through the fastening of the fixing bolt 221 ( A second support portion 210 composed of 212; The second spherical body 221 is inserted into the support housing 211 of the second support portion 210, the inner material and a part of which is exposed and rotated, and extends and protrudes from the second spherical body 221. Second fastening of the second rotating bracket unit 200 provided with a second spherical joint portion 220 consisting of a second connecting portion 222, and a second fastening plate 223 extending to the second connecting portion 222. Fastening the fixing bolt to the part 212 to connect and mount the second rotating bracket unit 200 to one side of the strip 10, and in the step (D-2), with respect to the first spherical body 121 A first support part 110 of the housing structure for supporting the rotational movement of the free material and preventing the separation thereof; A first spherical body 121 inserted into the first support part 110 and having an inner portion and a part exposed and having a rotational movement, and a first connection part 122 extending and protruding from the first spherical body 121; And a first spherical joint part 120 formed of a first fastening plate 123 extending to the first connection part 122. The other end of the brace 20 is inserted into the first fastening part 130 of the first rotating bracket unit 100 provided with the first fastening part 130 extending from the first support part 110. Connecting and mounting the first rotating bracket unit 100 to the other side of the brace 20 through the fastening of the fastening bolt 101 in the arranged state, and freely with respect to the second spherical body 221. A support housing 211 that supports rotational movement while allowing rotational movement, and a second fastening portion extending to the support housing 211 and coupled to the band long 10 through the fastening of the fixing bolt 221 ( A second support portion 210 composed of 212; The second spherical body 221 is inserted into the support housing 211 of the second support portion 210, the inner material and a part of which is exposed and rotated, and extends and protrudes from the second spherical body 221. Second fastening of the second rotating bracket unit 200 provided with a second spherical joint portion 220 consisting of a second connecting portion 222, and a second fastening plate 223 extending to the second connecting portion 222. Fastening the fixing bolt to the part 212 to connect and mount the second rotating bracket unit 200 to the other side strip 10, and the elastic rigid connector 300 is spaced apart by a predetermined distance. Between the first fastening plate 123 and the second fastening plate 223 is provided a plurality of elastic rigid body 310 is fixed to both ends, the both ends of the elastic rigid body 310 to the first fastening plate 123 and fixing to the second fastening plate 223 by using the fixing bolt 320, respectively.

The elastic steel 310 is characterized in that it is made of any one material of carbon steel material including a spring, synthetic resin material containing rubber or urethane.

According to the present invention, it is possible to stably support the brace from the earth pressure of the excavated ground while having a support for the girdle and the brace, and can be connected in a flowable form between the girdle and the brace through a configuration that has a free rotation of all directions Therefore, even if there is a deviation in the coupling angle between the belt and the brace, it is possible to maintain the connection support state, not only to facilitate the installation of the brace in the field, but also to facilitate the construction work on the retaining wall. It is possible to achieve useful effects to improve workability and workability in the field.

According to the present invention, even if a deformation occurs in the excavation ground-side earth pressure by having a supportive force that can flow freely between the belt and the support, it can flexibly cope with it regardless of the direction and angle in which the deformation occurs. Of course, it is possible to achieve a useful effect to prevent the collapse of the retaining wall as well.

The present invention can be installed by simply fastening to the brace and the belt, can be connected and supported in a state arranged at intervals, it is possible to achieve a useful effect that can reduce the work time according to the site installation.

1 is a perspective view showing a rotating bracket device of the retaining wall according to an embodiment of the present invention.
Figure 2 is a cross-sectional view showing a rotary bracket device of the retaining wall according to an embodiment of the present invention.
Figure 3 is an exploded perspective view showing the structure of the elastic rigid connector.
Figure 4 is a cross-sectional view showing the structure of the coupling state of the elastic rigid connector.
5 to 7 is a view showing a rotation state of the elastic rigid connector.
Figure 8 is an exemplary view showing a construction state using a rotating bracket device of the retaining wall according to an embodiment of the present invention.
9 to 11 is a schematic process flow diagram shown to explain the construction method of the retaining wall according to an embodiment of the present invention.
12 is a perspective view showing the structure of the light emitting means.
Figure 13 is a cross-sectional view showing a state in which the light emitting means is installed inside the elastic rigid body.
14 is a cross-sectional view showing a state in which the LED emits light according to the deformation of the elastic rigid body.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings, and the detailed description will provide a better understanding of the purpose, configuration, and features thereof.

"Rotating bracket device for the retaining wall of the retaining wall" according to an embodiment of the present invention (hereinafter referred to as "bracket device"), as shown in Figures 1 to 4, the strip 10 and the strip (10) installed on the retaining wall ) Is connected to both ends of the brace 20 is used to support the connection, the first rotating bracket unit 100 is connected to the brace 20 is mounted and connected to the strap 10 and the first rotating bracket It consists of a configuration including a second rotating bracket unit 200 coupled to the unit 100.

The first rotating bracket unit 100 is mounted to the support 20, the first spherical joint portion 120 having a first spherical body (121) to improve the coupling, workability and workability and The first support portion 110 to support this is configured to have a rotational movement of the free material with respect to the first spherical joint portion 120.

Specifically, the first rotating bracket unit 100 and the first support portion 110 of the housing structure for preventing the departure while allowing the free movement of the rotation relative to the first spherical body 121; A first spherical body 121 inserted into the first support part 110 to expose an inner portion and a part of the first support part 110 and having a rotational movement, and a first connection part 122 extending and protruding from the first spherical body 121; And a first spherical joint part 120 formed of a first fastening plate 123 extending to the first connection part 122. And a first fastening part 130 extending to the first support part 110 and coupled to the brace 20 through the fastening of the fastening bolt 101 in a state where the end of the brace 20 is inserted into and disposed. You can have a configuration that includes;

The first support 110 is a rectangular box-shaped housing body having an opening for providing a part of the exposure of the first spherical body 121 and easy rotational force, and the separation of the first spherical body 121 in the interior thereof. The upper end portion is bent inward to prevent the diameter is provided to reduce the configuration.

The length of the first connector 122 connected to the first spherical body 121 may be increased or decreased depending on the site conditions and the installation form of the retaining wall.

The first fastening portion 130 may be configured as a box-shaped body that can be wrapped around the "D (귿) -shaped" frame body or brace 20, the fastening hole for fastening with the brace 20 side Is formed.

The fastening bolt 101 can have a slight flow to the braces 20 by penetrating the braces 20 to form a hinge, sometimes by forming a corresponding screw to the braces 20 side to form a fastening force It can also be made to increase the configuration.

Here, a coupling method such as welding may be used to configure the first rotation bracket unit 100.

The second rotating bracket unit 200 is mounted to the belt length 10, which also has a second spherical joint portion 220 having a second spherical body (221) for improving the bonding, workability and workability ) And a second support part 210 supporting the same, to have a rotational movement of a free material with respect to the second spherical joint part 220.

In detail, the second rotating bracket unit 200 supports the second spherical body 221 to allow the free movement of the free rotation while preventing the separation from the support housing 211 and the support housing 211. A second support part 210 formed to extend and formed of a second fastening part 212 coupled to the strip 10 through fastening of the fixing bolt 201; A second spherical body 221 inserted into the support housing 211 of the second support part 210 to expose the inner material and a part thereof and having rotational movement; And a second spherical joint part 220 formed of a second connection part 222 and a second fastening plate 223 extending to the second connection part 222.

A fastening hole for fastening the fixing bolt 201 is formed in the second fastening portion 212.

Here, the components having the same or similar configuration as that of the first rotating bracket unit 100, that is, the supporting housing 211 and the second connecting portion 222, and the like, are already described with the first support 110 as described above. The first connection portion 122 may be configured to meet the installation conditions and provision conditions.

Here, a coupling method such as welding may be used to configure the second rotating bracket unit 200.

By this configuration, the first rotating bracket unit 100 and the second rotating bracket unit 200 are configured to be freely rotated by the first spherical body 121 and the second spherical body 221, respectively. Compared with the conventional orientation is limited to horizontal or vertical and only a slight flow function, it is possible to rotate 360 ° and there is no limitation in the orientation so that the field fastening work with the brace 20 and the strip 10 It can be done more easily, making it simpler to install and significantly improving field workability, such as reducing work time.

In addition, through the configuration of the first rotating bracket unit 100 and the second rotating bracket unit 200, respectively, since the rotational movement of the individual free material, even if the deformation occurs in earth pressure regardless of the direction in which the deformation occurs It can be flexibly coped while maintaining the supporting force, thereby providing the advantage of preventing the bending deformation of the brace 20 and preventing the collapse of the retaining wall.

In some cases, in addition to the flow and rotation through the first rotating bracket unit 100 and the second rotating bracket unit 200 absorbs the rotational force, compression force, tensile force, etc. applied to the brace 20, the structural strength of the brace 20 There is an additional need for means to maintain.

In the present invention, for this purpose, an elastic body is inserted between the first fastening plate 123 and the second fastening plate 223 so that the two fastening plates are relatively rotated or compressed to offset the external force.

The first rotating bracket unit 100 and the second rotating bracket unit 200 are coupled to each other with the first fastening plate 123 and the second fastening plate 223 facing each other. The second fastening plates 223 are disposed to be spaced apart by a predetermined distance. The plurality of elastic rigid bodies 310 are inserted between the first fastening plate 123 and the second fastening plate 223. Both ends of the elastic rigid body 310 are fixed to the first fastening plate 123 and the second fastening plate 223, respectively. The elastic rigid body 310 is fixed to the first fastening plate 123 and the second fastening plate 223 by fixing bolts 320, respectively.

In the present invention, the elastic rigid body 310 and the fixing bolt 320 is defined as the elastic rigid connection portion 300.

As shown in Figure 3 and 4, the end portion of the elastic rigid body 310 is formed with a through groove 311 is inserted into the fixing bolt 320. The fixing bolt 320 passes through the through holes formed in the first fastening plate 123 and the second fastening plate 223, respectively, and is provided between the first fastening plate 123 and the second fastening plate 223. Fix the distal end of 310). Thus, the first fastening plate 123 and the second fastening plate 223, the elastic rigid body 310, the fixing bolt 320 is fixed to one body.

The elastic steel 310 is made of a material having an elastic force capable of absorbing external forces while being twisted or changed in shape by elasticity, preferably made of a carbon steel material such as a spring. In addition, it may be made of a synthetic resin material having high strength and high elasticity such as rubber or urethane.

And to form a mounting groove on the surface of the first fastening plate 123 and the second fastening plate 223 to couple the first fastening plate 123 and the second fastening plate 223 and the elastic rigid body 310, Both ends of the elastic rigid body 310 may be inserted into and fixed to the seating grooves. In this case, the first fastening plate 123 and the second fastening plate 223 is preferably provided with a separate fixing means at the edge or the center so as not to be separated.

5 to 7 is a view showing a rotation state of the elastic rigid connector.

As shown in FIGS. 5 to 7, the first rotating bracket unit 100 and the second rotating bracket unit 200 attached to both ends of the brace 20 according to the twist or rotation force applied to the brace 20. As the angle changes, the external force is removed. In addition, the elastic rigid connector 300 absorbs the external force, while the first fastening plate 123 and the second fastening plate 223 rotate or tilt freely to absorb the external force, as well as the support 20 To prevent breakage or bending under pressure.

This configuration can further improve workability and workability in the field.

On the other hand, with reference to Figures 1 to 11 with respect to the construction method of the retaining wall using the bracket device 1 according to the present invention having the above-described configuration as follows.

The present invention relates to a construction method for constructing a retaining wall, which is a temporary structure that is installed to prevent the collapse of the ground during excavation of the ground, and supports the bracket device 1 having the above-described structure by connecting the support 20 and the belt 10 together. It is a method of construction by using.

Specifically, the construction method of the retaining wall according to the present invention, as shown in Fig. 9, basically ground excavation step (S10), the retaining wall forming step (S20), the installation of the girders (S30), the support step connection step ( S40) is configured to include.

The ground excavation step (S10) is a step of digging and excavating the ground before building the underground structure in the ground.

The blocking wall forming step (S20) is a step of forming the blocking wall 30, as shown in Figure 8 to support the wall surface of the excavated ground.

The strip installation step (S30) is a step of installing the strip 10 on the outer surface of the earth wall (30).

In this case, the ground excavation step (S10), the earth wall forming step (S20) and the strip installation step (S30) can be constructed using a variety of known construction methods.

The brace support installation step (S40) is a step of installing the braces 20 so as to connect and support the two strips 10 in the state installed on the different surface of the retaining wall (30).

At this time, the brace 20 is connected to the strip 10 using the bracket device (1) having the above-described configuration, and can be installed in the straight line and the sabot unit connected in a diagonal form according to the site connected in a straight form. 8 shows an example of the saboteur type.

As shown in FIG. 10, in the support structure installation step S40, one side of the support 20 and one side strip 10 adjacent thereto are connected to the first rotating bracket unit 100 and the second rotating bracket unit 200. And connecting (S41) and constructing using one bracket device (1) consisting of, and the other side of the braces 20 and the other side strip 10 adjacent to the first rotating bracket unit 100 and It is a step (S42) for the connection construction using the other bracket device (1) consisting of a second rotating bracket unit (200).

At this time, the step S41 and the step S42 is performed only in the same construction method only having a difference only in the connection position of the brace 20 and the strip 10.

On the other hand, referring to step S41 and step S42 with reference to Figure 11, the first support portion 110 for supporting the rotational movement of the free material with respect to the first spherical body 121; A first spherical body 121 having an inner portion and a portion of the first support unit 110 exposed and rotating in the first support part 110, a first connection part 122 extending and protruding from the first spherical body 121, and the A first spherical joint part 120 formed of a first fastening plate 123 extending to the first connection part 122; And a first fastening part 130 extending from the first support part 110; and inserting one end of the brace 20 into the first fastening part 130 of the first rotating bracket unit 100. Fastening the fastening bolt 101 in one state to connect and mount the first rotating bracket unit 100 on one side of the support 20 (S51) and the second spherical body 221 of the freely A second support part 210 composed of a support housing 211 for enabling a rotational movement and a second fastening part 212 extending from the support housing 211; A second spherical body 221 having an inner portion and a part of the second housing part 211 exposed and disposed in the support housing 211 of the second support part 220, and a second connection part that extends and protrudes from the second spherical body 221. 222, and a second spherical joint 220 formed of a second fastening plate 223 extending to the second connection part 222; and a second fastening part on the side of the second rotating bracket unit 200. 212) by fastening the fixing bolt 201 and mounting the second rotating bracket unit 200 to one side of the strip (10) (S52), and the first fastening plate 123 and the second fastening plate 223 The first rotating bracket by fixing both ends of the elastic rigid body 310 to the first fastening plate 123 and the second fastening plate 223 with fixing bolts 320, respectively, in a state spaced apart from each other by a predetermined distance from each other. The unit 100 and the second rotating bracket unit 200 may be connected to each other by the step 53 of supporting one side of the brace 20 and one side strip 10 adjacent thereto.

Here, the first fastening plate 123 and the second fastening plate 223 is provided with a plurality of elastic rigid body 310 on the surface facing each other and the two fastening plates are rotated or inclined to each other by the external pressure to the outside Will absorb the pressure.

On the other hand, Figure 12 is a perspective view showing the structure of the light emitting means, Figure 13 is a cross-sectional view showing a state in which the light emitting means is installed inside the elastic body, Figure 14 is a cross-sectional view showing a state in which the LED emits light according to the deformation of the elastic body.

In the present invention, the deformation of the elastic rigid body 310 further includes a light emitting means for notifying the worker outside. The light emitting means is installed in the elastic rigid body 310, and the elastic rigid body 310 is made of a structure that emits light while the length of the elastic rigid body 310 is elongated or inclined while the deformation of the inner elastic body. The light emitted from the light emitting means is exposed to the outside and informs the worker whether it is deformed.

To this end, as shown in FIG. 12, the light emitting unit includes a central circuit board 331, and a tension block 332 is installed at both sides of the circuit board 331. In addition, an LED 333 is installed on the circuit board 331. One side of the tension block 332 is connected to a piezoelectric element (not shown) installed in the circuit board 331. The current generated in the piezoelectric element is transmitted to the LED 333 and used to emit light.

Springs 334 are respectively connected to the other side of the tension block 332. The other side of the spring 334 is connected to the opposite end in the interior of the elastic rigid body (310). The spring 334 is connected between the tension block 332 and the end of the elastic rigid body 310.

The piezoelectric element has a structure in which a current is produced by a pressure that the tension block 332 pulls outward. Since the structure and current generation principle of the piezoelectric element are the same as in the conventionally disclosed apparatus, detailed description is omitted.

As shown in Figure 13 and 14, the light emitting means having such a configuration is installed inside the elastic rigid body (310). When the elastic body 310 is bent or rotated by the external pressure after the brace 20 is installed, the spring 334 therein also increases. As the spring 334 extends, the tension block 332 is pulled outward, and a current is generated while the force is transmitted to the piezoelectric element. At this time, the generated current is transmitted to the LED 333, and thus light emission is performed.

In some cases, the amount of generated current is changed according to the magnitude of the pressure applied to the piezoelectric element, and the brightness of the LED 333 may be changed. Since the LED 333 increases in brightness as the pressure applied to the piezoelectric element increases, the operator may visually confirm that greater pressure is applied.

In addition, the LED 333 may be configured in a multi-color so that the color may vary depending on the magnitude of the current generated in the piezoelectric element. That is, the LED 333 is configured to be turned on in four stages, and yellow, green, blue, and red light may be sequentially emitted as the magnitude of the pressure changes from a small state to a large state. For this purpose, it is preferable to configure the LED 333 as a multi-color LED.

This configuration can further improve workability and workability in the field.

The embodiments described above are merely illustrative of the preferred embodiments of the present invention and are not limited to these embodiments, and various modifications may be made by those skilled in the art within the spirit and scope of the present invention. Modifications and variations or step substitutions may be made, which will fall within the technical scope of the present invention.

1: Bracket device 10: Belt length
20: brace 100: first bracket bracket unit
110: first support portion 120: first spherical joint
121: first spherical body 122: first connection portion
123: first conclusion plate 130: first conclusion part
200: second rotating bracket unit 210: second support
211: support housing 212: second connection
220: second spherical joint 221: second spherical body
222: second connection portion 223: second fastening plate
300: elastic steel connection portion 310: elastic steel
320: fixing bolt 331: circuit board
332: tension block 333: LED
334 spring

Claims (4)

In the bracket device of the retaining wall connected to both ends of the support 20, which is used to connect and support the strip 10 and the strip 10 installed on the wall surface of the retaining wall 30,
The first spherical joint portion 120 is mounted to the brace 20 and has a first spherical joint portion 120 having a first spherical body 121 and a first support portion 110 supporting the first spherical joint portion 120. A first rotating bracket unit 100 having free rotational motion;
The second spherical joint portion 220 is mounted on the strip 10 and has a second spherical joint portion 220 having a second spherical body 221 and a second support portion 210 supporting the second spherical joint portion 220. A second rotating bracket unit 200 fastened to the first rotating bracket unit 100 and having a rotational motion freely;
It includes an elastic rigid body connecting portion 300 for absorbing and offset the force between the strip 10 and the brace 20,
The first rotating bracket unit 100,
A first support part 110 of the housing structure for supporting the first spherical body 121 to be freely prevented from being detached while enabling rotational movement of the free material;
A first spherical body 121 inserted into the first support part 110 to expose an inner portion and a part thereof and having a rotational movement, and a first connection part 122 extending and protruding from the first spherical body 121; And a first spherical joint part 120 formed of a first fastening plate 123 extending to the first connection part 122.
The first fastening part 130 extending to the first support part 110 and coupled to the brace 20 through the fastening of the fastening bolt 101 in a state where the end of the brace 20 is inserted into and disposed. );
The second rotating bracket unit 200,
The support housing 211 and the support housing 211 to prevent the departure and to prevent the separation while enabling the rotational movement of the free material with respect to the second spherical body 221 is fastened to the fixing bolt 221 A second support part 210 composed of a second fastening part 212 coupled to the strip 10 through;
The second spherical body 221 is inserted into the support housing 211 of the second support portion 210, the inner material and a part of which is exposed and rotated, and extends and protrudes from the second spherical body 221. And a second spherical joint part 220 formed of a second connection part 222 and a second fastening plate 223 extending to the second connection part 222.
The elastic rigid connection portion 300,
A plurality of elastic steels 310 made of carbon steel material at which both ends thereof are fixed between the first fastening plate 123 and the second fastening plate 223 disposed to be spaced apart by a predetermined distance;
Fixing bolts 320 for fixing both ends of the elastic rigid body 310 to the first fastening plate 123 and the second fastening plate 223, respectively,
Seating grooves are formed in a region where the elastic steel body 310 is fixed on the surfaces of the first fastening plate 123 and the second fastening plate 223, and both ends of the elastic steel body 310 are inserted and fixed.
The interior of the elastic rigid body 310 further includes a light emitting means for emitting light as the length increases,
The light emitting means
A circuit board 331 on which the LED 333 is installed;
Two tension blocks 332 installed on both sides of the circuit board 331;
Two piezoelectric elements installed in the circuit board 331 and connected to one side of the two tension blocks 332;
The other side of the two tension blocks 332 are connected to one side, respectively, the other side; two springs 334 fixed inside the elastic body 310;
When the elastic rigid body 310 is extended by an external force and the length is increased, the spring 334 is stretched and the tension block 332 is pulled out, and the piezoelectric element is pulled out to draw the current. The LED (333) is turned on when produced, the bracket bracket of the earth wall. delete In the construction method using the bracket device connecting the braces 20 and the strip 10, the construction of the earth retaining wall 30, which is a temporary structure installed to prevent the collapse of the ground during excavation of the ground,
(A) excavating the ground;
(B) forming a retaining wall (30) for supporting the wall surface of the excavated ground;
(C) installing a strip (10) on the outer surface of the retaining wall (30);
(D) installing a brace 20 to connect and support the two strips 10 are installed on different surfaces of the retaining wall 30;
In the step (D),
(D-1) one side of the brace 20 and one side of the strip 10 adjacent thereto is composed of the first rotating bracket unit 100, the second rotating bracket unit 200, the elastic rigid connection portion 300 Connecting using one bracket device;
(D-2) the other side of the brace 20 and the other side strip 10 adjacent thereto is composed of the first rotating bracket unit 100, the second rotating bracket unit 200, the elastic rigid connection portion 300 It includes; connecting using another bracket device;
In the step (D-1),
A first support part 110 of the housing structure for supporting the first spherical body 121 to be freely prevented from disengaging while allowing rotational movement of the free material; A first spherical body 121 inserted into the first support part 110 and having an inner portion and a part exposed and having a rotational movement, and a first connection part 122 extending and protruding from the first spherical body 121; And a first spherical joint part 120 formed of a first fastening plate 123 extending to the first connection part 122. One end of the brace 20 is inserted into the first fastening part 130 of the first rotating bracket unit 100 provided as the first fastening part 130 extending from the first support part 110. Connecting and mounting the first rotating bracket unit 100 to one side of the brace 20 through the fastening bolt 101 in the arranged state;
Support housing 211 and the support housing 211 that prevents the separation while enabling the rotational movement of the free material with respect to the second spherical body 221 and is formed through the fastening of the fixing bolt 320 A second support part 210 composed of a second fastening part 212 coupled to the belt length 10; A second spherical body 221 inserted into the support housing 211 of the second support part 210, the inner material and a part of which is exposed, and which extends and protrudes from the second spherical body 221; The second fastening portion of the second rotating bracket unit 200 provided with a second spherical joint portion 220 composed of a second connecting portion 222 and a second fastening plate 223 extending to the second connecting portion 222. Fastening the fixing bolt to the 212, the step of connecting and mounting the second rotating bracket unit 200 to the one side of the strip (10), and
In the step (D-2),
A first support part 110 of the housing structure which supports rotational movement of the free material with respect to the first spherical body 121 and prevents separation thereof; A first spherical body 121 inserted into the first support part 110 and having an inner portion and a part exposed and having a rotational movement, and a first connection part 122 extending and protruding from the first spherical body 121; And a first spherical joint part 120 formed of a first fastening plate 123 extending to the first connection part 122. The other end of the brace 20 is inserted into the first fastening part 130 of the first rotating bracket unit 100 provided with the first fastening part 130 extending from the first support part 110. Connecting and mounting the first rotating bracket unit 100 to the other side of the brace 20 through the fastening bolt 101 in the arranged state;
Support housing 211 and the support housing 211 that prevents the separation while enabling the rotational movement of the free material with respect to the second spherical body 221 and is formed through the fastening of the fixing bolt 320 A second support part 210 composed of a second fastening part 212 coupled to the belt length 10; A second spherical body 221 inserted into the support housing 211 of the second support part 210, the inner material and a part of which is exposed, and which extends and protrudes from the second spherical body 221; The second fastening portion of the second rotating bracket unit 200 provided with a second spherical joint portion 220 composed of a second connecting portion 222 and a second fastening plate 223 extending to the second connecting portion 222. Fastening the fixing bolts to the 212 to connect and mount the second rotating bracket unit 200 to the other side strip 10;
The elastic rigid connection portion 300,
A plurality of elastic steels 310 made of carbon steel material at which both ends thereof are fixed between the first fastening plate 123 and the second fastening plate 223 disposed to be spaced apart by a predetermined distance;
Fixing bolts 320 for fixing both ends of the elastic rigid body 310 to the first fastening plate 123 and the second fastening plate 223, respectively,
Seating grooves are formed in a region where the elastic steel body 310 is fixed on the surfaces of the first fastening plate 123 and the second fastening plate 223, and both ends of the elastic steel body 310 are inserted and fixed.
The interior of the elastic rigid body 310 further includes a light emitting means for emitting light as the length increases,
The light emitting means
A circuit board 331 on which the LED 333 is installed;
Two tension blocks 332 installed on both sides of the circuit board 331;
Two piezoelectric elements installed in the circuit board 331 and connected to one side of the two tension blocks 332;
The other side of the two tension blocks 332 are respectively connected to one side, the other side; two springs 334 fixed in the elastic steel 310;
When the elastic rigid body 310 is extended by an external force and the length is increased, the spring 334 is stretched and the tension block 332 is pulled out, and the piezoelectric element is pulled outward to draw a current. The LED 333 is turned on when produced, construction method of the wall. delete

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