KR100714041B1 - Structure for install strut - Google Patents

Abstract

The present invention is to install and support the earth anchors installed on the earth wall, or to install a belt for supporting the inclined brace when the earth wall structure such as earth wall, the installation angle of the different earth anchors or inclined brace The present invention relates to a belt mounting structure for easily adjusting the vertical mounting angle of the belt according to the installation angle.

In the present invention, as a structure for installing the strip 20 on the front surface of the thumb pile 41 of the earth wall, the convex portion 11 is formed in the semi-circular convex shape is formed on the front surface of the thumb pile 41 Rotating member 10 is assembled and coupled to the front; It comprises a belt length (20) provided on the back with a rotation receiving member (21) corresponding to the convex portion (11) of the rotating member (10); The convex portion 11 is located in the rotation receiving member 21 when the belt sheet 20 is installed, thereby rotating the belt sheet 20 to free the belt sheet 20 at a vertical installation angle required in the field. It is provided with a stripe mounting structure characterized in that it can be installed.

 Sash, Earth Anchor, Earth Wall, Earth Block

Description

Installation structure of stripe for easy adjustment of vertical installation angle {Structure for Install Strut}

Figure 1 is a schematic perspective view showing the shape of the belt is installed on the earth wall in accordance with an embodiment of the present invention for fixing the earth anchor.

FIG. 2A is a schematic exploded perspective view of the circle B portion in the embodiment shown in FIG. 1; FIG.

FIG. 2B is a schematic exploded perspective view in the direction of the arrow in FIG. 2A.

2C and 2D are exploded perspective views of still another embodiment of the present invention, corresponding to FIGS. 2A and 2B.

3A is a cross-sectional view taken along the line A-A of FIG. 1.

3B and 3C are cross-sectional views corresponding to FIG. 3A, respectively, and FIG. 3B is a cross-sectional view showing a state in which an installation angle of the strip 20 is changed, and FIG. 3C is a state in which another embodiment of the position fixing structure described below is applied. It is a cross section showing.

Figure 4a is a schematic exploded perspective view showing the shape of installing the inclined brace using the strip mounting structure according to the present invention.

4B is a cross-sectional view of the combined state of the embodiment shown in FIG. 4A.

5 is a schematic cross-sectional view showing a configuration in which the earth anchor is installed in the earth wall for supporting the earth wall in the prior art, and the head of the earth anchor is fixed to a belt installed on the front of the thumb pile and the pedestal material installed thereon.

Figure 6 is a schematic cross-sectional view showing a configuration for supporting the thumb pile of the earth wall by installing the inclined brace in the prior art.

<Explanation of symbols for the main parts of the drawings>

10: rotating member

20: strip

30: inclined brace

The present invention relates to the installation structure of the band is installed on the earthquake structure, and more specifically, in the construction of earthquake structures such as earth wall, in the installation of a band for fixing and supporting earth anchors installed on the earth wall or to support the inclined brace In addition, the present invention relates to a belt mounting structure for easily adjusting the vertical installation angle of the belt according to the installation angle of the different earth anchors or the installation angle of the inclined support beam at each construction site.

In the trench construction, such as underground construction of buildings or subway construction, earth walls are installed to prevent the collapse of the excavated earth wall, and anchors are installed to support the earth walls. In FIG. 5, the earth anchor 110 is installed in the earth wall for supporting the earth wall in the prior art, and the head of the earth anchor 110 is installed on the front of the thumb pile 100, and the pedestal member installed thereon ( A configuration anchored in 111 is shown schematically. As shown in the figure, the earth anchor 110 in an inclined form is installed between the thumb pile 100 of the earth wall, the earth anchor 110 is anchored in the pedestal member 111, the end of which is installed in the belt 120 It is settled by 112.

As shown in the figure, since the earth anchor 110 is generally installed in an inclined form and a force acts in the direction of the installation angle, the fixing unit 112 of the pedestal member 111 is provided with an installation surface of the earth anchor 110. It is preferable to correspond to the installation angle. By the way, since the installation angle of the earth anchor 110 is different for each construction site, there is a disadvantage in that the pedestal member 111 must be newly manufactured according to the changed installation angle of the earth anchor 110 for each construction site.

Meanwhile, in supporting the earth wall, it is necessary to install the inclined brace 200 in an inclined form on the ground as shown in FIG. 6 to support the thumb pile 100 of the earth wall. By the way, the angle of installing the inclined brace 200 is also different depending on the construction site situation, each time to produce a new connection member 201 in accordance with the installation angle of the inclined brace 200, thumb pile 100 and inclined brace (200) There was an inconvenience to install in between.

The present invention was developed to solve the problems of the prior art in the installation of the earth anchor structure, such as earth wall, the earth anchors installed in the earth wall, or to install a band for supporting the inclined brace as above. It is an object of the present invention to provide a belt mounting structure for easily adjusting the vertical mounting angle of the belt according to the installation angle of the different earth anchors or the installation angle of the inclined support beam at each construction site.

In order to achieve the above object, in the present invention, as a structure for installing a strip on the front of the thumb pile of the earth wall, a convex portion formed in a convex shape in the semicircle is formed on the front surface and the back is assembled to the front of the thumb pile A rotating member; It includes a belt length having a rotation receiving member corresponding to the convex portion of the rotating member on the back; When the band is installed, the convex part is positioned in the rotation receiving member, and thus, the band is installed in the vertically installed angle required by the site by rotating the band.

In the present invention, as an embodiment of the above-described strip mounting structure, the mounting plate is fixed to the front of the thumb pile, the rotating member is assembled and coupled to the mounting plate, so that the mounting plate is evenly projected and aligned Between the front of the thumb pile and the back of the mounting plate is provided with a band-like installation structure characterized in that the gap adjusting member is installed.

In the above belt mounting structure, the rotation receiving member and the convex in the state where the convex portion of the belt is located on the rotation receiving member so as to maintain the angle in the state in which the belt is installed in accordance with a predetermined vertical installation angle. Position fixing structure for fixing the parts by mutual coupling may be further provided.

In another embodiment of the present invention, the position fixing structure may include a plurality of coupling bolt balls formed in the convex portion of the rotating member, and correspondingly, the coupling bolt balls may also be formed in the concave rotating receiving member on the back of the belt member. Forming a plurality of, characterized in that the position fixing structure is made of a structure that is coupled through the bolt member to the coupling bolt hole in the state where the convex portion is located in the rotation receiving member so that the belt length has a predetermined vertical direction installation angle A strip mounting structure is provided.

In the above-described embodiment of the present invention, the position fixing structure has a protrusion formed on the rotation receiving member, and a plurality of protrusion inserting portions are formed on the convex portion so that the protrusion inserting portion is aligned with the position of the rotation receiving member. It may be made of a structure fitted to. In this case, a plurality of projection inserts may be formed in the rotation accommodating member, and projections may be formed in the convex portion, so that the projections are fitted into the projection insertion part in accordance with the position of the rotation accommodation member.

In addition, in another embodiment of the present invention, the rotating member includes a first support part and a second support part of the main body supporting the convex part, and the belt member is inclinedly installed in a direction suitable for fixing the earth anchor installed for supporting the earth wall. To this end, the rotating member is installed in the belt support, characterized in that the first support has a height smaller than the second support portion and the first support portion is assembled to the attachment plate in a form located above the second support portion A structure is provided. In addition, in another embodiment of the present invention, the rotating member includes a first support portion and a second support portion of the main body supporting the convex portion, the end of the inclined brace is installed to be inclined to support the earth wall in the direction suitable for coupling In order to install the belt inclined, the rotating member is assembled to the attachment plate in such a way that the first support has a smaller height than the second support and the second support is located above the first support. A strip mounting structure is provided.

Next, the configuration of the present invention will be described by referring to specific embodiments of the present invention with reference to the accompanying drawings.

Figure 1 is a schematic perspective view showing a shape in which the strip 20 is installed on the earth wall in accordance with an embodiment of the present invention for fixing the earth anchor. FIG. 2A shows a schematic exploded perspective view of the circle B in the embodiment shown in FIG. 1, and FIG. 2B shows a schematic exploded perspective view in the direction of the arrow in FIG. 2A. 2C and 2D show exploded perspective views of yet another embodiment of the present invention, corresponding to FIGS. 2A and 2B, respectively.

3A is a cross-sectional view taken along the line A-A of FIG. 1. 3B and 3C are cross-sectional views corresponding to FIG. 3A, respectively, and FIG. 3B shows a state in which an installation angle of the belt 20 is changed, and FIG. 3C shows a state in which another embodiment of the position fixing structure described below is applied. will be.

In the embodiment shown in the drawings, the earth wall 40 installed to prevent the collapse of the earth wall excavated in the excavation work is composed of a thumb pile 41 and the earth plate 42 (Fig. 1). Earth anchors 43 installed in the ground for the reinforcement of the earth wall 40 is fixed at the end of the band 20, in the present invention, the installation angle of the earth anchors 43 vary depending on each construction site through the following structure In accordance with the belt length 20 is installed inclined.

As shown in Figure 2a and 2b, the rotating member 10 is assembled to the front surface of the thumb pile 41 installed in the ground. In the embodiment shown in FIGS. 2A and 2B, the thumb pile 41 is provided with supporting members 44 and 45 for preventing the rotating member 10 from falling, and between the supporting members 44 and 45. The rotating member 10 is configured to be assembled and installed.

On the other hand, the method of assembling and coupling the rotating member 10 to the front of the thumb pile 41 may be variously changed, as shown in Figure 2c and 2d using a separate attachment plate 30, the rotating member ( 10) can be assembled and installed. That is, a separate attachment plate 30 is installed on the front of the thumb pile 41, and the rear surface of the rotating member 10 is assembled to the attachment plate 30. At this time, it is preferable to install the gap adjusting member 31 between the attachment plate 30 and the thumb pile 41.

In general, in the construction of the thumb pile 41, the arrangement of the thumb pile 41 is irregularly constructed, whereas the band 20 is made of a straight member, in some cases irregular arrangement of the thumb pile 41 Due to this, it may be difficult to install the strip 20 on the rotating member 10. By the way, when the space between the mounting plate 30 and the front of the thumb pile 41 is further fixed to the installation of the gap adjusting member 31 by adjusting the height of the gap adjusting member 31, the attachment plate 30 is constantly The protrusions are aligned and thus the straight strip 20 can be more easily installed. The gap adjusting member 31 and the attachment plate 30 may be fixed to the thumb pile 41 by various methods such as welding.

In this state, the mounting plate 30 is installed in the thumb pile 41, the rotating member 10 is assembled to the mounting plate 30. In assembling and coupling the rear surface of the rotating member 10 to the attachment plate 30, in the embodiment shown in the drawing, the rotation member 10 is configured to be screwed to the attachment plate 30. That is, in the embodiment shown in the drawing, the bolt member 32 is installed on the attachment plate 30 and the bolt member 32 passes through the through hole 12 of the rotating member 10, and then the nut member ( 33 is fastened to the rotating member 10 is configured to be assembled and coupled to the attachment plate (30). However, such a configuration corresponds to an embodiment, and the present invention is not limited thereto, and the rotating member 10 may be assembled to the attachment plate 30 through various methods and configurations.

 The rotating member 10 has a structure to adjust the vertical installation angle of the strip 20 in an easy way. The front surface of the rotating member 10 is formed with a convex portion 11 is made convex in a semicircle form. In forming the convex portion 11 on the front surface of the rotating member 10, the first support portion of the main body for supporting the convex portion 11 in accordance with the inclined direction of the strip 20 as in the embodiment shown in the drawing ( 13) and the height of the second support 14 is preferably different from each other. This is because it is possible to double the bearing capacity of the strip 20 through such a configuration. That is, in the embodiment illustrated in FIGS. 2A and 2B, the convex part 11 is installed in the form in which the strip 20 is inclined upwardly in accordance with the installation angle of the earth anchor 43 to fix the earth anchor 43. The height of the first support portion 13 of the main body for supporting the lower than the height of the second support portion 14 is configured such that the first support portion 13 is located above the second support portion 14. However, when the belt 20 is installed in a form inclined downward for the installation of the inclined brace as described below, the height of the first support 13 is lower than the height of the second support 14, It is preferable to configure the first support 13 to be located further below the second support 14, and this configuration is to be coupled to the mounting plate 30 by inverting the rotating member 10 up and down as will be described later It can be easily formed.

In the present invention, the strip 20 is provided on its rear surface with a rotation receiving member 21 corresponding to the convex portion 11 of the rotating member 10. In detail, as illustrated in FIG. 2B, the rotation accommodating member 21 having a concave shape in a semicircular shape is installed on the rear surface of the strip 20 to correspond to the shape of the convex portion 11. When the strip 20 is installed on the front of the thumb pile 41, the convex portion 11 is located in the rotation receiving member 21 as shown in Figure 3a. The earth anchor 43 installed in the ground is fixed through the anchor through hole 24 formed in the strip 20. In the present invention, the anchor anchor 43 is not limited to the structure using the anchor through hole 24 in the anchoring in the belt 20, the earth anchor 43 through the other configuration of the prior art 43 ) Can be settled.

Since the convex portion 11 can be rotated in the rotation receiving member 21 when installing the belt length 20, when the mounting angle is adjusted, the vertical direction of the belt length 20 is adjusted according to the installation angle of the earth anchor 43. The installation angle can be freely determined. Therefore, when the installation site is changed and the installation angle of the earth anchor 43 is changed, as shown in FIG. 3b, the belt holder 20 is rotated vertically in accordance with the changed installation angle of the earth anchor 43 by simply rotating the belt 20. The installation angle can be easily adjusted.

Conventionally, if the installation angle of the earth anchor 43 is changed according to the construction site, there was an inconvenience to manufacture a pedestal device accordingly, but in the present invention, the vertical installation angle of the band 20 is changed freely through the above configuration. Since the vertical mounting angle of the strip 20 can be freely determined according to the installation angle of the earth anchor 43, there is no inconvenience in preparing a separate pedestal device, and no new production of the pedestal device is required, so the material cost It is possible to reduce the installation time and reduce the cumbersome installation work, thereby improving workability.

On the other hand, in some cases, once the vertical installation angle of the strip 20 is determined once it is necessary to maintain the angle to this end, in the present invention may be further provided with a position fixing structure. In the embodiment shown in Figures 2a to 2d the position fixing structure of the belt is composed of the coupling bolt hole (15, 22) and the bolt member (23). That is, a plurality of coupling bolt holes 15 are formed in the convex portion 11 of the rotating member 10, and correspondingly, the coupling bolt balls 22 are also formed in the concave rotation receiving member 21 on the back of the strip 20. Forming a plurality, by fastening the coupling bolt hole (15, 22) with a bolt member 23 is to fix the rotation receiving member 21 and the convex portion (11) to be coupled to each other. Specifically, when the vertical mounting angle of the strip 20 is determined according to the installation angle of the earth anchor 110, the coupling bolt in the state in which the convex portion 11 is located in the rotation receiving member 21 to match the angle. By penetrating the bolt member 23 to the ball (15, 22) to fix the installation state of the strip 20 to maintain the vertical installation angle. As described above, when it is necessary to adjust the vertical mounting angle of the belt-length 20 in accordance with the changed installation angle of the earth anchor 43 due to the change of the construction site, the bolt member 23 is released and the band-length is released. 20 by moving the bolts 23 through the coupling bolt holes 15 and 22 again after adjusting the position of the convex part 11 in the rotation receiving member 21. ) Is fixed. One of the methods for forming the coupling bolt hole 15 in the convex portion 11 as described above, the first support portion 13 and the second support portion 14 of the main body by bending the plate member as shown in Figs. 2a to 2d. The convex part 11 is comprised by installing in the upper surface, and the engaging bolt hole 15 is formed in the edge of the convex part 11. However, the configuration of forming the convex portion 11 by bending the plate-shaped member is just an embodiment, and the present invention is not limited thereto. The convex portion 11 may be formed by various methods.

In addition, in the present invention, the position fixing structure of the strip is not limited to the above embodiment. Figure 3c is a cross-sectional view corresponding to Figure 3a, showing a cross-sectional structure of an embodiment of the present invention with another position fixing structure. That is, as illustrated in FIG. 3C, the protrusions 16 are formed on the convex portion 11, and a plurality of the protrusion inserting portions 17 are formed on the rotation receiving member 21 to form the projections 21. The position fixing structure may be formed in such a manner that the projection 16 is fitted to the protrusion insertion portion 17 so as to maintain the vertical installation angle of the strip 20 according to the position. In addition, the position fixing structure may be formed by forming a protrusion on the rotation receiving member 21 and a protrusion inserting portion on the convex part 11. As such, it is possible to form a position fixing structure for maintaining the vertical installation angle of the strip 20 using various forms.

On the other hand, the stripe mounting structure of the present invention as described above, in addition to the case of installing the stripe for fixing the earth anchor, as well as when to install the inclined brace 200 to support the thumb pile 100 of the earth wall as described later very effectively in an easy way Applicable

Figure 4a is a schematic exploded perspective view showing the shape of installing the inclined braces 200 using the stripe mounting structure according to the invention, Figure 4b is a cross-sectional view of the combined state of the embodiment shown in Figure 4a It is. In the case of the inclined brace 200 has an installation angle opposite to the earth anchor 43. In this case, therefore, the installation direction of the rotating member 10 is installed in the opposite direction to the case of the earth anchor 43. That is, in order for the belt 20 to be inclined downward as shown in FIGS. 4A and 4B, the first support part 13 of the rotating member 10 has a height lower than that of the second support part 14. Although the second support 14 is located above the first support 13, the rotating member 10 is installed upside down as opposed to FIG. 2A. As described above, the belt 20 is provided with the rotation receiving member 21, and the belt 20 is installed such that the convex portion 11 is positioned at the rotation receiving member 21. Since the other configurations for the installation of the belt 20 are the same as those already described, repeated descriptions thereof will be omitted. The end of the inclined brace 200 is connected to the front surface of the strip 20 through a general connection method such as bolt coupling.

According to this configuration, the installation angle of the belt 20 can be changed freely and easily according to the installation angle of the inclined support beam 200, thereby improving the workability, and newly manufacturing the connection member 201 as in the prior art. According to the present invention, there is an effect of preventing problems such as waste of materials and increase in construction cost.

According to the present invention, it is possible to freely change the vertical installation angle of the strip 20 to determine the vertical installation angle of the strip 20 in accordance with the installation angle of the earth anchor 43. Therefore, it is possible to solve the inconvenience of having to manufacture the pedestal device newly according to the installation angle of the earth anchor 43 which varies depending on the construction site, and to reduce the material cost according to the new production of the pedestal device, and the hassle of installation work. In addition, construction can be improved.

In addition, the present invention can be applied very effectively in an easy way even when installing the inclined brace 200 to support the thumb pile 100 of the earth wall in an inclined form, the problem when installing the inclined brace 200 by the prior art As described above, it is possible to fundamentally block problems such as new production of the connection member 201 according to the installation angle change of the inclined brace 200 and the waste of material and the increase in construction cost.

Claims (9)

As a structure for installing the strip 20 on the front of the thumb pile 41 of the earth wall, Convex portion 11 is formed on the front surface is made convex in a semicircular shape and the rear surface is a rotating member 10 assembled to the front of the thumb pile 41; It comprises a belt length (20) provided on the back with a rotation receiving member (21) corresponding to the convex portion (11) of the rotating member (10); The convex part 11 is positioned at the rotation receiving member 21 when the belt sheet 20 is installed, thereby rotating the belt sheet 20 to free the belt sheet 20 at a vertical installation angle required in the field. A stripe mounting structure, characterized in that it can be installed. The method of claim 1 Support members (44, 45) is installed on the front of the thumb pile 41, The rotating member 10 is inserted between the supporting members 44, 45 is inserted into the belt mounting structure, characterized in that installed. The method of claim 1 The mounting plate 30 is fixed to the front of the thumb pile 41, The rotating member 10 is assembled to the mounting plate 30, The mounting plate 30, characterized in that the gap adjusting member 31 is installed between the front of the thumb pile 41 and the rear surface of the mounting plate 30 so that the mounting plate 30 is evenly projected. The method according to any one of claims 1 to 3 In the state where the convex part 11 of the strip 20 is located on the rotation receiving member 21 so as to maintain the angle in the state where the strip 20 is installed in accordance with a predetermined vertical installation angle. Belt mounting structure, characterized in that the rotation fixing member 21 and the convex portion 11 is further provided with a position fixing structure for coupling to each other. The method of claim 4, wherein The position fixing structure, Forming a plurality of coupling bolt hole 15 in the convex portion 11 of the rotating member 10, Correspondingly, a plurality of coupling bolts 22 are also formed in the rotation receiving member 21 on the back of the strip 20, so that the convex portion 11 rotates so that the strip 20 has a predetermined vertical installation angle. A strip mounting structure, characterized in that consisting of a structure for coupling the bolt member through the coupling bolt hole (15, 22) in the state located in the receiving member (21). The method of claim 4, wherein The position fixing structure, The protrusions 16 are formed on the convex part 11, and a plurality of protrusion inserting parts 17 are formed on the rotation receiving member 21, so that the protrusions 16 are aligned to the position of the rotation receiving member 21. A strip mounting structure, characterized in that consisting of a structure that is fitted to the projection insertion portion (17). The method of claim 4, wherein The position fixing structure, The convex portion 11 is formed with a plurality of projection inserts, and the rotation receiving member 21 is formed with a projection to fit the position of the rotation receiving member 21 to the projection insertion portion made of a structure A strip mounting structure, characterized in that. The method according to any one of claims 1 to 3, The rotating member 10 includes a first support portion 13 and a second support portion 14 of the main body forming the convex portion 11, In order to install the belt 20 in an inclined direction in a direction suitable for fixing the earth anchor 43 installed for supporting the earth wall, the rotating member 10 has the first supporting portion 13 more than the second supporting portion 13. The belt mounting structure, characterized in that the first support (13) has a smaller height and is assembled to the mounting plate (30) in a form located above the second support (14). The method according to any one of claims 1 to 3, The rotating member 10 includes a first support portion 13 and a second support portion 14 of the main body supporting the convex portion 11, In order to install the belt 20 to be inclined in the direction suitable for the end of the inclined support beam 200 is installed to be inclined to support the earth wall, the rotating member 10, the first support portion (13) has a height smaller than the second support portion 13 and the second support portion 14 is characterized in that assembled to the attachment plate 30 in a form located above the first support portion (13). Band-mounted mounting structure.

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