KR102176203B1 - A Fixing Module for Expanded Structure, Prestress Cantilever and Expanded Structure Having the Same - Google Patents

Abstract

The present invention relates to a fixing module for an expandable structure and a prestressed cantilever including the same and, more specifically, to a fixing module for an expandable structure and a prestressed cantilever including the same, wherein a guide rail in a vertical direction is installed on a side of a foundation structure where an expandable structure is installed. Moreover, a support plate and a moving plate are inserted into the guide rail to enable movement in a vertical direction, thereby controlling a position where a support part supporting a deck plate for passage is combined with the foundation structure. Also, as the support plate and the moving plate are entirely or partially overlapped to be fixed to the foundation structure, a support force to the deck plate can be increased.

Description

A Fixing Module for Expanded Structure, Prestress Cantilever and Expanded Structure Having the Same}

The present invention relates to a fixing module for an expandable structure and a prestress cantilever including the same, and more particularly, a guide rail in the vertical direction is installed on the side of a foundation structure on which the expandable structure is installed, and a support plate and a moving plate are provided on the guide rail. Is inserted so that the movement in the vertical direction is possible, so that the position at which the support part supporting the deck plate for passage is coupled to the foundation structure can be adjusted, and all or part of the support plate and the moving plate overlap to be fixed to the foundation structure. By doing so, the present invention relates to a fixing module for an expandable structure capable of increasing a supporting force for a deck plate, and a prestress cantilever including the same.

In general, a bridge refers to a facility made so that vehicles or people can cross terrain with severe differences in high and low, such as a river, stream, or valley, and is made by various construction methods depending on the surrounding environment and use of the place to be constructed.

Among these bridges, recently built bridges have sidewalks installed on both sides of the roadway, but in the past bridges built for the main purpose of moving vehicles, there are cases in which roads for people to pass through are not installed or are installed very narrowly. There were many.

In addition, in recent years, not only human traffic but also bicycle traffic through bridges has increased, and the need for additional footbridges is increasing.

In addition, in recent years, as the number of people who enjoy trekking and bicycle hiking increases, additional footbridges are being installed in various locations such as mountains, rivers, and valleys, and the installation of Zando Bridges formed on cliffs is also increasing.

In order to install an additional footbridge on an existing bridge or an extension structure such as a cliff's Zando Bridge, an extension guide bracket as shown in the patent document below must be installed on the foundation structure of the bridge to support the extension sidewalk. As the bracket is formed as an integral structure and takes a structure that is simply coupled to the basic structure, there is a problem that it cannot be appropriately responded to various conditions such as the size of the expandable structure, the number of users, and materials.

In addition, extension structures such as footbridges and Zando bridges that are additionally installed on foundation structures such as existing bridges are highly susceptible to damage and damage as a large load is applied to the side that is joined to the foundation structure. There is a problem that it cannot stably support the expandable structure of
In the present invention, the expandable structure refers to a supporting structure installed on a bridge, cliff, etc., such as a footbridge, a Zando bridge, or the like, or installed using a cantilever in a building, and may include various types of structures that support people or objects.

(Patent Document)

Unexamined Patent Publication No. 10-2015-0009379 (registered on January 26, 2015) "Extended guide bracket and extended guide using the same"

The present invention was devised to solve the above problems,

The present invention provides a fixing module for an expandable structure and a prestressed cantilever including the same, which enables the position of the support portion for supporting the deck plate for passage to be adjusted, and increases the support for the deck plate. There is a purpose.

An object of the present invention is to provide a fixing module for an expandable structure that can increase a bonding force to a basic structure, and a prestress cantilever including the same.

An object of the present invention is to provide a fixed module for an expandable structure that enables quick and easy construction without using a crane or the like, and a prestress cantilever including the same.

An object of the present invention is to provide a fixed module for an expandable structure that enables optimal support through a shaft according to the size of a deck plate, the number of users, and targets of use, and a prestress cantilever including the same.

In the present invention, a shock absorbing part is formed between the moving plate and the shaft so that the moment of the shaft is absorbed and supported by the shock absorbing part, and the load of the deck plate is generated by generating a moment against the deck plate by pre-stress by the tension of the shock absorbing part. It reduces and prevents sagging of the support part, increases the resistance to bending deformation of the shaft or plate part, and also reduces the load applied between the support part and the fixed module, so that the support part is released and the connection part is damaged. It is an object of the present invention to provide a fixing module for an expandable structure and a pre-stress cantilever including the same, which can secure structural stability by preventing it from being formed.

An object of the present invention is to provide a fixed module for an expandable structure that enables optimum moment absorption according to an installation environment, and a prestress cantilever including the same.

An object of the present invention is to provide a fixing module for an expandable structure and a prestress cantilever including the same, which can increase the convenience of construction and structural stability by inserting a support frame into a support plate or a moving plate to be supported.

The present invention is implemented by an embodiment having the following configuration in order to achieve the above object.

According to an embodiment of the present invention, a fixing module for an expandable structure according to the present invention includes a guide rail formed in a vertical direction on one side of a foundation structure for installing the expandable structure, and a pair of guide rails formed to be spaced apart at a predetermined interval; A plate portion inserted into the guide rail and coupled to a support portion supporting the deck plate, wherein the plate portion includes a support plate fixed to the basic structure, and a moving plate moving in a vertical direction along the guide rail. It is characterized.

According to another embodiment of the present invention, in the fixing module for an expandable structure according to the present invention, the moving plate overlaps the support plate and is fixed to the base structure.

According to another embodiment of the present invention, in the fixed module for an expandable structure according to the present invention, the moving plate is characterized in that the entire moving plate overlaps with the support plate or only part of the moving plate overlaps with the support plate. .

According to another embodiment of the present invention, in the fixing module for an expandable structure according to the present invention, the plate portion includes a fastening hole formed to penetrate through the support plate and the moving plate, and inserted into the fastening hole to the base structure. It includes a fixing bolt to be fixed, and the fastening hole on the support plate is formed in a plurality of top and bottom so that the fixing bolt can be inserted through both the fastening holes of the support plate and the moving plate when all or part of the moving plate overlaps. It features.

According to another embodiment of the present invention, in the fixing module for an expandable structure according to the present invention, the support plate is formed to be bent in a'L' shape to closely contact and couple to the upper and side surfaces of the foundation structure. do.

According to another embodiment of the present invention, a prestress cantilever according to the present invention includes a fixing module fixed to a base structure at a point where an expandable structure is to be installed; A support frame fixed to the fixed module at one side and supporting a deck plate for passage from a lower side, wherein the support part is fixed to the fixed module so as to be horizontal with a flat surface, and a support frame supported by contacting the deck plate on the upper side. and; And a shaft having both ends connected to a lower point of the fixing module and the support frame and formed to form a predetermined angle with the support frame.

According to another embodiment of the present invention, in the prestress cantilever according to the present invention, the shaft is connected to the moving plate so that the coupling position with respect to the fixed module is changed according to the vertical movement of the moving plate. .

According to another embodiment of the present invention, the prestress cantilever according to the present invention is characterized in that it comprises a shock absorber formed between the moving plate and the shaft to absorb a moment applied to the shaft.

According to another embodiment of the present invention, in the prestress cantilever according to the present invention, the shock absorbing part comprises an elastic member for absorbing a moment by elasticity; A fixing means fixed to the moving plate to support one side of the elastic member; And an elastic adjusting means connected to the shaft to support the other side of the elastic member and adjusting the degree of compression of the elastic member.

According to another embodiment of the present invention, in the prestress cantilever according to the present invention, the fixing means is fixed in close contact with the moving plate, the fixing pad for supporting one end of the elastic member; A receiving pipe protruding vertically from the fixed pad toward the adjustment pad, wherein the elastic adjustment means is fixed to the shaft, and the adjustment pad supports the other end of the elastic member; Including; an inlet pipe protruding from the control pad toward the fixed pad and inserted into the receiving tube to be inserted into and out of the receiving tube, and the compression degree of the elastic member is adjusted according to the movement of the inlet pipe along the receiving tube.

According to another embodiment of the present invention, in the prestress cantilever according to the present invention, the fixing means comprises a support plate formed between the fixing pad and the receiving pipe to which one end of the elastic member is fitted, and the elastic adjusting means It is characterized in that it comprises a support plate formed between the control pad and the inlet pipe to which the other end of the elastic member is fitted.

According to another embodiment of the present invention, in the prestress cantilever according to the present invention, the shock absorber includes an angle adjusting means for adjusting an installation angle of the shock absorber.

According to another embodiment of the present invention, in the prestress cantilever according to the present invention, the angle adjusting means includes an angle bracket inserted between the fixed pad and the moving plate to generate an inclination of the shock absorber. .

According to another embodiment of the present invention, in the prestress cantilever according to the present invention, the support frame includes an upper support plate that is in contact with and supports the deck plate, and a T-shaped bent formed by protruding vertically downward from the center of the upper support plate. And a side support plate formed perpendicular to one end of the upper support plate and one end of the T-shaped bent plate to block the side of the support frame, and the support plate or the moving plate is formed on the support frame side, and T A front plate having a ruler-shaped groove; Including; a rear plate formed to be in close contact with the front plate and fixed to the basic structure, and having an insertion groove into which the side support plate is inserted at the top; including, allowing the support frame to be inserted into and supported by a support plate or a moving plate. It features.

The present invention can obtain the following effects by the configuration, combination, and use relationship that will be described below with the present embodiment.

The present invention is to support the deck plate for passage by installing the guide rail in the vertical direction on the side of the base structure on which the expandable structure is installed, and the support plate and the moving plate are inserted into the guide rail to enable movement in the vertical direction. There is an effect of allowing the position of the support to be adjusted to the base structure.

The present invention has the effect of increasing the supporting force for the deck plate by allowing all or part of the support plate and the moving plate to overlap and be fixed to the basic structure.

The present invention has the effect of increasing the bonding force to the basic structure by allowing the support plate to be formed in a'b' shape.

The present invention has the effect of enabling quick and easy construction without using a crane or the like by coupling the support to the fixed module and the foundation structure while the fixed module is fixed to the basic structure.

The present invention has the effect of enabling optimal support through the shaft according to the size of the deck plate, the number of users, the target of use, etc. by fixing the support frame to the support plate and fixing the shaft to the moving plate.

In the present invention, a shock absorbing part is formed between the moving plate and the shaft so that the moment of the shaft is absorbed and supported by the shock absorbing part, and the load of the deck plate is generated by generating a moment against the deck plate by pre-stress by the tension of the shock absorbing part. It reduces and prevents sagging of the support part, increases the resistance to bending deformation of the shaft or plate part, and also reduces the load applied between the support part and the fixed module, so that the support part is released and the connection part is damaged. There is an effect of securing structural stability by preventing this.

The present invention has the effect of allowing the degree of compression of the elastic member that absorbs the moment of the shaft to be adjusted so that the optimum moment absorption is possible according to the installation environment.

The present invention has an effect of enabling effective absorption of moment through the shock absorbing unit by adjusting the installation angle of the shock absorbing unit according to the installation angle of the shaft.

The present invention has the effect of increasing the convenience of construction and structural stability by inserting the support frame into the support plate or the moving plate to be supported.

1 is a configuration diagram of a fixed module for an expandable structure according to an embodiment of the present invention
Figure 2 is a reference diagram showing an installation example of the basic module of Figure 1
3 is a reference diagram showing the installation state according to FIG. 2
4 is a cross-sectional view showing an installation example of a prestress cantilever including a fixing module for an expandable structure according to an embodiment of the present invention
5 is a side view of a prestress cantilever including a fixing module for an expandable structure according to an embodiment of the present invention
6 is a plan view of a prestress cantilever including a fixing module for an expandable structure according to an embodiment of the present invention
7 is a perspective view of a support plate having a front side plate and a rear side plate
8 is a cross-sectional view showing each configuration of the support plate of FIG. 8
9 is a perspective view and a cross-sectional view showing each configuration of a moving plate having a front side plate and a rear side plate
10 is a front view of the support frame
11 is a front view (a) and a rear view (b) of a prestress cantilever including a fixing module for an expandable structure according to an embodiment of the present invention.
12 is a side cross-sectional view of the shock absorber
Figure 13 is a reference diagram showing the coupling state of the shock absorber
14 is a reference diagram showing another installation example of a prestress cantilever including a fixing module for an expandable structure according to an embodiment of the present invention
15 is a reference diagram for explaining the effect of the prestress cantilever
16 is a reference diagram showing an installation example of a prestress cantilever
17 is a side view of a prestress cantilever according to another embodiment of the present invention

Hereinafter, preferred embodiments of a fixing module for an expandable structure, a prestress cantilever including the same, and an expandable structure according to the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, when it is determined that a detailed description of a known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted. Throughout the specification, when a part "includes" a certain component, it means that other components may be further included rather than excluding other components unless specifically stated to the contrary.

When explaining the fixing module for an expandable structure according to an embodiment of the present invention with reference to FIGS. 1 to 3, the fixing module 1 is formed in a vertical direction on one side of the foundation structure B for installing the expandable structure And, a pair of guide rails 11 are formed to be spaced apart at a predetermined interval; And a plate portion 12 inserted into the guide rail 11 and to which the support portion 2 supporting the deck plate D is coupled.

In the present invention, the expandable structure refers to not only the footbridge formed by extending to one side of the existing bridge (C) as shown in FIG. 4, but also the sky installed on the top of the existing bridge or road as shown in FIG. 14(a). Various types of footbridges formed to support one side, such as a rod (S), a Zando bridge (T) formed on a cliff, as shown in FIG. 14(b), and a handrail installed on a building, as shown in FIG. It refers to various types of structures that support people or objects, such as a drone landing site.
The extension structure that is additionally installed on the foundation structure such as the existing bridge has a structure that protrudes from one side of the existing bridge (C) as shown in FIG. 4 and is installed. In the past, as described in the background art, the deck plate As the bracket to support (D) was formed integrally, it was not possible to effectively support the deck plate (D) in various sizes, users, and targets of the deck plate (D). Since it must be installed on the foundation structure (B) in a state in which it is supported by transporting it, there is a problem that installation is cumbersome and time-consuming.

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Therefore, in the present invention, in order to install the cantilever on the base structure (B), the fixing module 1 is separately formed and first installed on the base structure B, while the fixing module 1 moves with the support plate 121 It is divided into a plate 122 and formed so as to move the moving plate 122 in the vertical direction, so that the fixed position of the support part 2 supporting the deck plate D can be adjusted according to the size of the deck plate D. . Through this, the present invention provides stable support for the deck plate (D) by adjusting the vertical position at which the support part (2) is fixed to the base structure (B) according to the size of the deck plate (D), the number of users, and the target of use. At the same time, since the fixing module 1 is first fixed to the basic structure B, the support 2 is fixed to the fixing module 1, so that quick and easy installation can be achieved.

The fixed module (1) is fixed to the base structure (B) at the point where the footbridge is installed, and after the fixing module (1) is coupled, the support part (2) is combined with the fixing module (1) and the foundation structure (B) To be able to. A plurality of the fixing modules 1 may be formed to be spaced apart at a predetermined interval so that the support part 2 supports the deck plate D at a plurality of points.

The guide rails 11 are spaced apart from one side of the base structure (B) at a predetermined interval to form a pair in the vertical direction, and the plate portion 12 is inserted between the guide rails 11 to be fitted. In particular, the guide rail 11 is fitted with the moving plate 122 of the plate part 12 to move in the vertical direction, and the moving plate 122 is connected to the shaft 22 of the prestress cantilever to be described later, so that the shaft 22 ) To adjust the fixed position in the vertical direction. In addition, since the guide rail 11 is fixed to the basic structure B and the plate portion 12 is fitted, it is possible to increase the support force for the support portion 2 of the fixing module 1.

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The plate part 12 is inserted into the guide rail 11 and fixed to the foundation structure B. After the plate part 12 is fixed to the foundation structure B, the support part 2 is connected to the deck plate D. To support it. As described above, the plate portion 12 includes a support plate 121 fixed to the base structure B and a moving plate 122 moving in the vertical direction along the guide rail 11, and the support plate ( 121) and the moving plate 122 may be fixed to the base structure B in a state in which some or all of them overlap. Therefore, the plate portion 12 is always installed in double, so that the support portion even when the size of the deck plate D is large or formed of a heavy material, or when the number of users of the footbridge is large or the passage of heavy objects such as vehicles is made. (2) can be supported stably. In addition, since the shaft 22 to be described later of the support part 2 is fixed in a state in which the moving plate 122 can move in the vertical direction along the guide rail 11, the shaft ( It is possible to change the position, angle, etc. at which 22) is fixed to the fixing module 1.

The support plate 121 is fitted in the guide rail 11 and is in close contact with and coupled to the basic structure B, and is preferably bent in a'a' shape to the basic structure B by the fixing bolt 124. Can be combined. Accordingly, the support plate 121 can be fixed to the basic structure B in the form of a'b' shape to maintain a stably supported state, and since it is fitted to the guide rail 11, its supporting force can be further increased. To this end, the support plate 121 may include an upper plate 121a in close contact with the upper portion of the foundation structure B and a vertical plate 121b in close contact with the side surface of the foundation structure B, and the upper plate ( A fastening hole 123 is formed in each of the 121a) and the vertical plate 121b so that the fixing bolts 124 are inserted to be fixed.

The upper plate 121a is formed horizontally with the flat ground and is in close contact with and coupled to the upper portion of the basic structure B, and a plurality of first fastening holes 123a are formed to form the foundation structure through the fixing bolts 124 ( B) to be fixed.

The vertical plate 121b is vertically bent at the end of the upper plate 121a to be in close contact with and coupled to the side surface of the base structure B, and is fitted into the guide rail 11. The vertical plate 121b is formed with a plurality of second fastening holes 123b so that coupling is achieved by the fixing bolt 124, and in particular, the support frame of the support part 2 through the second fastening hole 123b Make sure to be combined with (21). In addition, since the vertical plate 121b overlaps the moving plate 122 and is fixed to the basic structure B, the second fastening hole 123b and the third fastening hole 123c of the moving plate 122 are partially communicated. At the same time, the fixing bolt 124 is inserted.

The moving plate 122 is a configuration that moves up and down by being inserted into the guide rail 11, and the support plate 121, more precisely, the vertical plate 121b and partially or entirely overlapped to be fixed to the basic structure (B) Make it possible. Therefore, the movable plate 122 is inserted so as to completely overlap the vertical plate 121b of the support plate 121 as shown in FIG. 2(a) to reinforce the supporting force of the support plate 121. As shown in FIG. 2(b), the position of the moving plate 122 may be partially overlapped with the vertical plate 121b so that the position of the moving plate 122 moves downward. A shaft 22, which will be described later, of the support part 2 is connected to and fixed to the moving plate 122, and a shock absorbing part 3 is preferably formed to allow connection with the shaft 22 to be made. Accordingly, the fixed position of the shaft 22 can be changed according to the vertical movement of the movable plate 122, and in some cases, a plurality of the movable plates 122 are overlapped and inserted so that the connection position of the shaft 22 is further improved. You can also move it downwards. A third fastening hole 123c is formed on the moving plate 122 so as to face the second fastening hole 123b of the vertical plate 121b, and the fixing bolt 124 includes the vertical plate 121b and the moving plate. By passing through 122, the support plate 121 and the moving plate 122 can be fixed to the foundation structure B in an overlapping state.

The fastening hole 123 is formed to penetrate the support plate 121 and the moving plate 122 so that the fixing bolt 124 can be inserted, and a first fastening hole formed in the upper plate 121a It may include (123a), a second fastening hole (123b) formed in the vertical plate (121b), a third fastening hole (123c) formed in the moving plate (122). As described above, the moving plate 122 is coupled to the basic structure B in a state where all or part of the support plate 121 overlaps, so that the third fastening hole 123c overlaps the second fastening hole 123b. In a state, for example, when the second fastening hole 123b is formed in two pairs of upper and lower sides, the fixing bolt 124 can be inserted in a state in communication with the upper or lower second fastening hole 123b.

The fixing bolt 124 is a configuration for fixing the support plate 121 and the moving plate 122 to the basic structure (B), may be formed as an anchor bolt, the first fastening hole (123a), the second fastening It is inserted through the hole 123b and the third fastening hole 123c.

When explaining a prestress cantilever including a fixing module for an expandable structure according to an embodiment of the present invention with reference to FIGS. 1 to 16, the prestress cantilever is fixed to the base structure (B) at the point where the footbridge is to be installed. A fixed module 1; One side is fixed to the fixing module (1), and a support (2) for supporting the deck plate (D) for passage from the lower side; It may include a shock absorbing portion (3) for absorbing the moment applied to the support portion (2).

The prestress cantilever allows the support part 2 to be coupled to the fixed module 1 in the state in which the fixed module 1 described above is fixed to the base structure B, so that accurate, safe and rapid installation is possible without the use of a crane. , The support part 2 is formed of a support frame 21 that is horizontal with a flat ground, and a shaft 22 that is inclined with the support frame 21 so that stable support of the deck plate D is possible. In addition, the shaft 22 is connected to the moving plate 122 of the fixed module 1 so that the vertical direction of the fixed position can be adjusted, and the size of the deck plate D, the user by adjusting the installation angle and length, etc. Optimal installation is possible according to number, etc. In addition, by forming the shock absorbing part 3 between the shaft 22 and the moving plate 122, the deck plate D can be supported more stably by effectively resisting the moment generated by the shaft 22. Do it.
In the present invention, the term prestress is a deck plate by increasing the resistance to bending deformation of the shaft 22 by the tension of the shock absorber 3 and generating a moment with respect to the deck plate (D) as shown in FIG. It means to reduce the load of (D) and to prevent sagging of the support (2). In addition, the present invention reduces the load applied to the joint between the fixed module 1 and the support 2 by absorbing the load by the shock absorber 3, and thereby the connection part of the support 2 is damaged or the bolt The stability of the structure can be ensured by preventing the back from being released and being fixed.

As described above, the fixing module 1 is formed of an upper plate 121a and a vertical plate 121b, and the vertical plate 121b overlaps and is fixed with the moving plate 122. In addition, the fixing module 1 is fixed by coupling the support frame 21 and the shaft 22, and the shaft 22 is fixed to the moving plate 122 so that the vertical direction of the fixed position can be adjusted. Allows you to adjust the angle and length. However, hereinafter, for convenience of explanation, a case in which the vertical plate 121b and the moving plate 122 are completely overlapped and fixed will be described as an example.

In addition, the fixing module 1 is a vertical plate (121b) or a moving plate (122) for stable and easy fixing of the support frame (21), the front plate (121b-1, 122a) and the rear plate (121b-2, 122b) ) Can be formed. When the vertical plate 121b and the moving plate 122 completely overlap as shown in FIG. 3(a), the support frame 21 is coupled to and fixed to the moving plate 122, and FIG. 3(b) As shown in ), when the moving plate 122 descends downward and partially overlaps with the vertical plate 121b, it may be combined with the vertical plate 121b. Therefore, as shown in FIGS. 7 to 9, the vertical plate 121b or the moving plate 122 are all formed of the front plates 121b-1 and 122a and the rear plates 121b-2 and 122b, so that the support frame ( 21) can be combined.

The front plate (121b-1, 122a) is a configuration formed on the support frame (21) side of the vertical plate (121b) or the moving plate (122), T-shaped T-shaped grooves (121b-11, 122a-1) at the top This is formed so that the T-shaped bending plate 212, which will be described later, of the support frame 21 can be inserted. Therefore, the front plate (121b-1, 122a) allows the support frame 21 to be inserted into the vertical plate (121b) or the moving plate (122) to be inserted into the support frame (21) for the fixed module (1). ) To be installed conveniently, and after being inserted into the support frame 21, the side support plate 213 of the support frame 21 is supported to enable a more stable fixation.

The rear plate (121b-2, 122b) is a configuration formed on the side of the foundation structure (B) of the vertical plate (121b) or the moving plate (122), is fixed in close contact with the foundation structure (B), and the front plate (121b- 1,122a) and integrally formed. In particular, insertion grooves 121b-21.122b-1 having a size into which the side support plates 213 of the support frame 21 can be inserted are formed at the upper ends of the rear plates 121b-2 and 122b. Accordingly, the rear plates 121b-2 and 122b may have the side support plates 213 inserted and supported, and the side support plates 213 inserted into the rear plates 121b-2 and 122b are T-grooves 121b-11, 122a. It is supported by the front plates 121b-1 and 122a in which only -1) is formed, so that stable fixation is possible.

One side of the support part 2 is fixed to the fixing module 1, and a deck plate D for passage is supported from the lower side, and a plurality of the support parts 2 are formed at regular intervals to support the deck plate D. . Particularly, the support part 2 has the support frame 21 formed horizontally with the flat ground to closely support the deck plate D, while the shaft 22 is formed to be inclined at the lower side of the support frame 21. (21) should be additionally supported. At this time, the shaft 22 is formed to be fixed to the moving plate 122, and a shock absorbing part 3 is formed between the shaft 22 and the moving plate 122 to elastically and support the shaft 22 (22) to be able to absorb the moment generated. In addition, the shaft 22 may be fixed to the support frame 21 by a fixing bracket 23, and a connection member 24 is formed for connection with the fixing bracket 23 and the shock absorbing part 3 You can do it.

The support frame 21 is in contact with the lower side of the deck plate D to support the deck plate D, and may be formed of a T-shaped T-shaped steel. Therefore, the support frame 21 has an upper support plate 211 having a certain width on the upper side, and along the center of the upper support plate 211, the T-shaped bending plate 212 is vertically protruded downward. In addition, a side support plate 213 is formed at one end of the support frame 21 to block the side surface of the support frame 21 and be inserted into the fixing module 1 so that it can be combined.

The upper support plate 211 is formed to have a predetermined width and length as shown in FIG. 6 and is in contact with the deck plate D, so as to stably support the deck plate D.

The T-shaped bending plate 212 is formed to protrude vertically downward along the center of the upper support plate 211, and one end is fitted to the vertical plate 121b or the moving plate 122, and at one point on the lower side The shaft 22 is connected to support the support frame 21.

The side support plate 213 is vertically bent at the upper support plate 211 to block one end of the support frame 21, more precisely, the end coupled to the fixing module 1 and formed to have a predetermined width. The side support plate 213 is fitted and coupled to the insertion grooves 121b-21.122b-1 of the rear plates 121b-2, 122b, and the fixing bolt 124 penetrates through the vertical plate 121b, the moving plate ( 122) and the foundation structure (B) to be combined. In addition, since the side support plate 213 is supported by the front plates 121b-1 and 122a while being inserted into the insertion grooves 121b-21.122b-1, insertion and fixing of the fixing bolts 124 are made easier and faster. Can be lost.

The shaft 22 is formed such that one end of the fixing module 1 is fixed to the support frame 21 to additionally support the support frame 21, and is formed to have a certain inclination from the support frame 21 To be able to support the support frame 21 more stably. More precisely, the shaft 22 has one end coupled to the shock absorbing portion 3 formed to be fixed to the moving plate 122, and a fixing bracket coupled to the T-shaped bending plate 212 of the support frame 21 The other end can be coupled to (23), and the moment can be more effectively absorbed through the shock absorber (3). Both ends of the shaft 22 may be coupled to the shock absorbing unit 3 and the fixing bracket 23 by various coupling methods, but for the convenience of installation, a thread is formed so that the shock absorbing unit 3 and the fixing bracket It may be formed to be screwed with the connection member 24 formed in (23).

The fixing bracket 23 is configured to fix the shaft 22 to the support frame 21, and may be formed to be fixed to the T-shaped bending plate 212 of the support frame 21. A connecting member 24 is formed in the fixing bracket 23 so that the shaft 22 can be connected, and through this, the support frame 21 can be additionally supported by the shaft 22.

The connection member 24 is configured to fix both ends of the shaft 22 to the shock absorbing unit 3 and the fixing bracket 23, and the first connection member 241 connected to the fixing bracket 23 And a second connection member 242 formed on the shock absorbing part 3. The first and second connecting members 241 and 242 are formed with threads to be screwed with threads formed at both ends of the shaft 22, and the first connecting member 241 is It is coupled to one end, and the second connection member 242 may be formed to be fixed to the adjustment pad 331 of the shock absorbing part 3.

The shock absorbing part 3 is formed between the shaft 22 and the fixing module 1 to absorb the moment generated in the shaft 22. Through this, the deck plate D can be more stably fixed. do. The shock absorbing part 3 may be formed to be fixed to the moving plate 122, and as shown in FIGS. 12 to 13, the elastic member 31 and the elastic member 31 for absorbing the moment are moved to the moving plate ( It may include a fixing means (32) fixed to the 122, an elastic adjustment means (33) for adjusting the compression length of the elastic member (31), an angle adjustment means (34) for adjusting the angle of the shock absorber (3). have.

The elastic member 31 is inserted between the shaft 22 and the moving plate 122 to resist the moment by a restoring force by elasticity, and the moment generated by the load applied to the deck plate D It is absorbed so that stable support can be achieved. The elastic member 31 may be formed of a high-strength compression spring, and one end is supported by the fixing means 32 and the other end is supported by the elastic control means 33 to maintain a compressed state, and the compression length is adjusted. Allows you to adjust the degree of resistance to the moment.

The fixing means 32 is configured to fix the elastic member 31 to the moving plate 122, and protruding from the fixed pad 321 and the fixed pad 321 fixed to the moving plate 122, the elastic member ( 31) may include a support plate 322 fitted, a receiving pipe 323 vertically protruding from the support plate 322 and into which an inlet pipe 333, which will be described later, of the elastic adjustment means 33 is fitted.

The fixed pad 321 is formed in a plate shape having a predetermined width fixed to the moving plate 122 and supports one end of the elastic member 31 to maintain a compressed state.

The support plate 322 has a configuration that vertically protrudes from the fixing pad 321 in the direction of the adjustment pad 331, and is preferably formed in a circular shape so that the elastic member 31 is fitted along the circumference. Accordingly, the support plate 322 may be compressed or stretched repeatedly while the elastic member 31 is stably supported so that effective absorption of the moment can be achieved.

The receiving pipe 323 has a configuration vertically protruding from the support plate 322 in the direction of the adjustment pad 331, and is formed in an empty cylindrical shape so that the inlet pipe 333 of the elastic adjustment means 33 is inserted. . Accordingly, the inlet pipe 333 may be inserted and moved in the receiving tube 323, and the degree of compression of the elastic member 31 may be adjusted according to the movement of the inlet pipe 333 along the receiving tube 323 . To this end, a screw thread is formed in the receiving pipe 323 so that it is rotatably coupled with a screw thread formed in the inlet pipe 333, and moves along the receiving pipe 323 according to the rotation of the inlet pipe 333 This is achieved, and through this, the degree of compression of the elastic member 31 can be adjusted.

The elastic control means 33 is configured to adjust the degree of absorption of the moment by adjusting the compressed length of the elastic member 31, and to adjust the compressed length according to the size of the expandable structure, the number of users, and the target of use. can do. The elastic adjustment means 33 adjusts the length of the elastic member 31 through the movement of the adjustment pad 331, the elastic member 31 is fitted through the support plate 332, and the inlet pipe 333 ), the compressed length of the elastic member 31 can be adjusted according to the movement along the receiving tube 323 of the).

The adjustment pad 331 is formed on the opposite side of the fixed pad 321 to support the other end of the elastic member 31, and the length of the elastic member 31 is adjusted according to the distance to the adjustment pad 331. The adjustment pad 331 may be formed in a plate shape having a predetermined width, such as the fixed pad 321, a support plate 332 protrudes at one side to allow the elastic member 31 to be fitted, and a second side at the other side. The connecting member 242 is formed so that the shaft 22 can be connected.

The support plate 332 is configured to protrude vertically from the center of the adjustment pad 331 in the direction of the fixing pad 321, and the elastic member 31 is fitted therein. Therefore, the elastic member 31 can be compressed in a state where both ends of the elastic member 31 are inserted into the support plate 322 and the support plate 332 and are stably fixed.

The inlet pipe 333 protrudes vertically from the support plate 332 in the direction of the fixing pad 321, is inserted into the receiving pipe 323 and moves along the receiving pipe 323. A thread is formed around the inlet pipe 333 so that it engages with the thread in the receiving pipe 323, and the inlet pipe 333 can move back and forth along the receiving pipe 323. According to the movement of the inlet pipe 333 along the receiving pipe 323, the adjustment pad 331 also moves together, through which the degree of compression of the elastic member 31 is adjusted.

The angle adjusting means 34 is configured to adjust the angle of the shock absorbing unit 3, and allows the angle of the shock absorbing unit 3 to be adjusted according to the inclination angle at which the shaft 22 is installed. The shaft 22 may have various inclinations fixed to the fixing module 1 and the support frame 21 according to the size of the deck plate D, the number of users, targets of use, various installation environments, etc., the angle adjustment The means 34 adjusts the angle of the shock absorber 3, more precisely, the elastic member 31 to form a straight line with the shaft 22 so that resistance to the moment can be effectively achieved. The angle adjusting means 34 may be formed as an angle bracket 341 as shown in FIG. 12, and the angle bracket 341 is an inclined plate inserted between the moving plate 122 and the fixed pad 321 It is formed as to adjust the installation angle of the fixing pad 321, through which the angle of the elastic member 31 can also be adjusted.

When a prestress cantilever according to another embodiment of the present invention will be described with reference to FIG. 17, the prestress cantilever may additionally include a length adjusting part 4 for adjusting the length of the shaft 22. Since the prestress cantilever includes the same fixing module 1, the support part 2, and the shock absorbing part 3 as in the embodiment, only the length adjustment part 4 will be described.

The length adjustment unit 4 is configured to adjust the length of the shaft 22, and by adjusting the length of the shaft 22 according to the installation environment, stable fixation of the deck plate D by the shaft 22 and shock absorption Effective moment absorption is achieved by the part (3). The shaft 22 needs to support the support frame 21 with various lengths at various installation positions depending on the size of the deck plate D, the number of users, and the target of use, so through the length adjustment unit 4 By simply adjusting the length, it enables quick installation in various environments. The length adjustment part 4 may allow the shaft 22 to be divided to be formed into a first shaft 41 and a second shaft 42, and a length between the first and second shafts 41 and 42 The adjustment unit 43 is formed so that the length of the entire shaft 22 can be adjusted according to the rotation of the length adjustment unit 43.

The first shaft 41 has one end coupled to the second connection member 242 formed on the moving plate 122 side, more precisely, the adjustment pad 331, and the other end inserted into the length adjustment unit 43 To be combined. A first male screw 411 may be formed at the other end of the first shaft 41 and engaged with the first female screw 431 formed inside the length adjustment unit 43 to be fastened.

The second shaft 42 has one end coupled to the first connection member 241 formed on the support frame 21 side, more precisely, the fixing bracket 23, and the other end inserted into the length adjustment unit 43 To be combined. A second male screw 421 may be formed at the other end of the second shaft 42, and engaged with the second female screw 432 formed inside the length adjustment unit 43 to be fastened.

The length adjustment unit 43 is formed between the first and second shafts 41 and 42 to adjust the length of the entire shaft, and the first female screw 431 and the second female screw 432 are formed at both ends. It is fastened to the first male screw 411 and the second male screw 421, respectively. At this time, the first and second male screws 411 and 421 may have threads in opposite directions. Accordingly, when the length adjustment unit 43 is rotated, the first shaft 41 and the second shaft 42 are respectively By rotating in opposite directions to each other, it can be inserted into the length adjustment unit 43 at the same time or be withdrawn from the length adjustment unit 43. Therefore, the length adjustment unit 43 can reduce or increase the length of the entire shaft only by its rotation.

In the above, the applicant has described various embodiments of the present invention, but such embodiments are only one embodiment that implements the technical idea of the present invention, and any changes or modifications may be made as long as the technical idea of the present invention is implemented. It should be construed as falling within the scope of

1: fixed module
11: guide rail 12: plate portion 121: support plate
121a: upper plate 121b: vertical plate 121b-1: front side plate
121b-11: T-groove 121b-2: rear plate 121b-21: insertion groove
122: moving plate 121a: front plate 121a-1: T-groove
122b: rear plate 121b-1: insertion groove 123: fastening hole
123a: 1st fastening 123b: 2nd fastening 123c: 3rd fastening
124: fixing bolt
2: support
21: support frame 211: upper support plate 212: T-shaped bending plate
213: side support plate 22: shaft 23: fixing bracket
24: connecting member 241: first connecting member 242: second connecting member
3: shock absorber
31: elastic member 32: fixing means 321: fixing pad
322: support plate 323: accommodation pipe 33: elastic control means
331: control pad 332: support plate 333: inlet pipe
34: angle adjustment means 341: angle bracket
4: length adjustment unit
41: first shaft 411: first male thread 42: second shaft
421: second male thread 43: length adjustment unit 431: first female thread
432: second female thread
D: Deck plate B: Foundation structure C: Bridge
S: Sky Road T: Zando Bridge

Claims (16)

A fixed module fixed to the base structure at a point where the expandable structure is to be installed; A support part fixed at one side to the fixed module and supporting a deck plate for passage from a lower side; Includes; a shock absorbing unit formed between the fixing module and the support unit to absorb the moment applied to the shaft,
The support part,
A support frame fixed to the fixing module so as to be horizontal with a flat ground, and supported by contacting and supporting a deck plate thereon; Includes; a shaft having both ends connected to a lower point of the fixing module and the support frame and formed to form a predetermined angle with the support frame,
The fixed module,
A guide rail formed in a vertical direction on one side of the foundation structure for installing an expandable structure, and a pair of guide rails formed to be spaced apart at a predetermined interval; Includes; a plate portion inserted into the guide rail and coupled to a support portion supporting the deck plate,
The plate part,
It includes a support plate fixed to the foundation structure, and a moving plate moving in a vertical direction along the guide rail,
The shaft is connected to the movable plate so that the position of the fixed module is changed according to the vertical movement of the movable plate,
The prestress cantilever, characterized in that the impact absorbing portion is formed between the moving plate and the shaft. The method of claim 1, wherein the moving plate
Prestressed cantilever, characterized in that to be fixed to the base structure by overlapping with the support plate. The method of claim 2, wherein the moving plate
A prestress cantilever, characterized in that the entire moving plate overlaps the support plate or only part of the moving plate overlaps the support plate. The method of claim 3, wherein the plate portion
A fastening hole formed to penetrate through the support plate and the moving plate, and a fixing bolt inserted into the fastening hole and fixed to the basic structure,
A prestress cantilever, characterized in that the fastening holes on the support plate are formed in a plurality of top and bottom so that the fixing bolt can be inserted through both the fastening holes of the support plate and the moving plate when all or part of the moving plate overlaps. The method of claim 1, wherein the support plate
Prestressed cantilever, characterized in that it is formed to be bent in a'a' shape so as to be in close contact with and coupled to the upper and side surfaces of the foundation structure. delete delete delete The method of claim 1, wherein the shock absorber
An elastic member that absorbs the moment by elasticity;
A fixing means fixed to the moving plate to support one side of the elastic member;
And an elastic adjusting means connected to the shaft to support the other side of the elastic member and adjusting the degree of compression of the elastic member. The method of claim 9, wherein the fixing means
A fixed pad fixed in close contact with the moving plate and supporting one end of the elastic member; Includes; a receiving tube protruding vertically from the fixed pad toward the control pad,
The elastic control means,
An adjustment pad fixed to the shaft and supporting the other end of the elastic member; A prestress cantilever, comprising: an inlet pipe protruding from the control pad toward the fixing pad and inserted into the receiving tube to enter and exit the receiving tube, wherein the degree of compression of the elastic member is adjusted according to the movement of the inlet pipe along the receiving tube. The method of claim 10, wherein the fixing means
It is formed between the fixing pad and the receiving tube and includes a support plate into which one end of the elastic member is fitted,
The elastic control means
A prestress cantilever, characterized in that it comprises a support plate formed between the control pad and the inlet pipe to which the other end of the elastic member is fitted. The method of claim 10, wherein the shock absorber
Pre-stress cantilever, characterized in that it comprises an angle adjustment means for adjusting the installation angle of the shock absorber. The method of claim 12, wherein the angle adjusting means
And an angle bracket that is inserted between the fixed pad and the moving plate to generate an inclination of the shock absorber. The method of claim 1, wherein the support frame,
An upper support plate that contacts and supports the deck plate, a T-shaped bent plate formed by protruding vertically downward from the center of the upper support plate, and a side surface of the support frame formed perpendicular to one end of the upper support plate and the T-shaped bent plate. It includes a side support plate to block,
The support plate or the moving plate
A front plate formed on the support frame side and having a T-shaped groove at an upper end;
Including; a rear plate formed to be in close contact with the front plate and fixed to the basic structure, and having an insertion groove into which the side support plate is inserted at the top; including, allowing the support frame to be inserted into and supported by a support plate or a moving plate. Prestressed cantilever, characterized in that. delete An expandable structure comprising the prestress cantilever according to any one of claims 1 to 5 and 9 to 14.

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