KR101960780B1 - Footbridge using prefabricated bracket - Google Patents

Abstract

The present invention relates to a footbridge using a prefabricated bracket. The footbridge using a prefabricated bracket comprises: a plurality of steel pipe posts (10) which are vertically buried in the ground to be spaced apart from each other; a lower cap (20); an upper bracket (30); a coupling means (40); a plurality of support frames (50); and a foot plate assembly (60). The upper bracket can be accurately positioned in a coupling position of the lower cap within a short time, and strong coupling is possible while maintaining support force with respect to a load.

Description

Footbridge using prefabricated bracket {Footbridge using prefabricated bracket}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a foot bridge using a prefabricated bracket, and more particularly, to a foot bridge using a prefabricated bracket for constructing a foot bridge by using a prefabricated bracket bolted to each other.

A pedestrian walk will be installed on the road constructed so that only the vehicle can pass. At this time, if there is no room for installation, there is a bridge structure, which is a bridge structure. In some cases, it is not possible to construct a bridge due to the lack of a bridge structure depending on the shape and structure of the bridge.

In this way, since it is not easy to install the support, it is usually installed with a steel bridge supporting bridge. In order to install the footbridge, the steel pipe strut is mounted and buried in the ground, the head of the steel pipe strut is assembled, a bracket for supporting the stool assembly is reinforced while reinforcing the upper part of the steel pipe strut, The footstep assembly is combined to provide a footbridge.

However, in the conventional bracket, since the lower part to which the steel pipe support is coupled and the upper part to which the footplate assembly is connected directly or via the support frame are integrally formed, it is inconvenient in construction due to considerable volume and weight, There is a difficulty in correspondingly installing.

To solve this problem, a technique has been developed in which the bracket is separated into a lower cap coupled to a steel pipe support and an upper bracket detachably attached to the lower cap. For example, Japanese Patent Application Laid-Open No. 10-2016-0035893 and Japanese Patent Application No. 10-1681939 disclose an assembled bracket structure.

The Japanese Patent Application Laid-Open No. 10-2016-0035893 discloses a structure in which a position of a steel copping bracket is corrected to be coupled to a head reinforcement member provided at a head of a pile, even if the buried position of the pile buried in the ground is different Technology. However, the above-described technique does not effectively support the load since the position correcting and coupling means is coupled to the steel coping bracket and the head reinforcement member through the simple bolting connection. Thus, the parts such as the steel coping bracket, There was a problem that it could be easily damaged.

In addition, the above-mentioned Japanese Patent Laid-Open No. 10-1681939 discloses a technology relating to a foot bridge which is provided with a connecting cap having a fastening surface on a steel pipe strut, fastening an expansion bracket to the fastening surface of the connecting cap, to be. However, since the above-described technique has a structure in which the expansion bracket is fastened to the upper surface of the connection cap through the bolting connection, the operator must secure the fastening holes in a state in which the fastening holes are correctly aligned with each other in seating the extension bracket on the upper surface of the connection cap. It is difficult to position the expansion bracket having a considerable weight while moving the expanding bracket in a large-sized unsupervised environment, and it is difficult to position the expansion bracket, There is a disadvantage in that the number of parts increases due to bolting using a plurality of bolts on each fastening surface of the connecting cap and the expansion bracket, thereby increasing the cost and increasing the construction time.

Japanese Patent Application Laid-Open No. 10-2016-0035893 (2014.04.01, Bridge for bicycle roads) Patent Registration No. 10-1681939 (2016.11.28, self-expanding bracket bridge using steel pipe support)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a lower cap and an upper bracket which are separated from each other, The present invention provides a foot bridge using a prefabricated bracket capable of precisely positioning an upper bracket at a coupling position of a lower cap within a short period of time, and also capable of rigid coupling while maintaining a support force against a load.

According to an aspect of the present invention, there is provided a steel pipe supporting structure comprising: a plurality of steel pipe supports (10) vertically buried in a ground plane; The upper end of the steel tube support 10 is formed as a cylindrical body having an open bottom so as to be inserted into the lower inner side. A bracket insertion passage 21 is formed at an upper portion of the cylindrical tube support 10 at a predetermined depth. A lower cap (20) having a coupling groove (22) formed to communicate with the bracket insertion passage (21) in a direction intersecting the forming direction of the lower cap (20); The insertion portion 31 is formed at a central portion of the insertion portion 31 so as to be inserted into the bracket insertion passage 21. The insertion portion 31 is inserted into the bracket insertion passage 21 A support portion 32 is formed to protrude downward from the insertion portion 31 so as to be supported on a part of the outer circumferential surface of the lower cap 20. The insertion portion 31 is inserted into the binding groove 22 on both sides thereof An upper bracket 30 on which a flow preventing piece 33 is formed; A coupling means 40 for coupling the upper bracket 30, which is inserted into the bracket insertion passage 21 and the coupling groove 22, with the lower cap 20 to prevent the upper bracket 30 from flowing; A support frame 50 coupled to the upper brackets 30 installed on the plurality of steel pipe supports 10 via the lower cap 20 and installed along the longitudinal direction of the bridge; And a footplate assembly (60) installed on the upper side of the support frame (50) to form a bottom surface of a bridge bridge.

A plurality of bolt through holes 25 and 35 are formed at predetermined intervals in the lower cap 20 and the support portion 32 at positions facing each other. A bolt 41 inserted into the holes 25 and 35 to pass through the support portion 32 and the lower cap 20 and a support portion 32 coupled to the end portion of the bolt 41, And a nut 42 which is fixed to the nut 42.

According to the bridge structure using the prefabricated bracket constructed as described above, since the lower cap and the upper bracket are bolted to each other while being coupled to each other, a simple structure can be rigidly coupled without a flow, Since it is unnecessary to set the position of the joining portion of the upper bracket, it is possible to shorten the construction time and improve the workability.

FIG. 1 is a view showing a construction state of a foot bridge using one steel pipe support according to the present invention,
FIG. 2 is a sectional view of FIG. 1,
FIG. 3 is a perspective view showing a lower cap and an upper bracket in a foot bridge using the assembled bracket according to the present invention,
FIG. 4 is a cross-sectional view of an upper bracket and a lower cap to which the upper bracket is coupled and coupled in the bridge using the assembled bracket according to the present invention.
FIG. 5 is a view showing a state in which the lower cap and the upper bracket are engaged with each other in the bridge using the assembled bracket according to the present invention,
FIG. 6 is a cross-sectional view taken along line AA of FIG. 5,
FIG. 7 is a state diagram illustrating a support frame supported by two steel tube supports according to the present invention.
Fig. 8 is a view showing the construction of the bridge bridge of Fig. 7; Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a foot bridge using a prefabricated bracket according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 to 8, a foot bridge using a prefabricated bracket according to the present invention is a bridge bridge installed to be extended on a road or a river, and includes a steel pipe support 10, an upper end of the steel pipe support 10 An upper bracket 30 coupled by the lower cap 20 and the engaging means 40, a support frame 50 mounted on the upper bracket 30, 60).

The steel tube supports 10 are vertically installed on the ground so as to be buried in the bottom, and are spaced apart from each other at predetermined intervals. The steel pipe support 10 serves as a support for supporting the bridge.

As examples of such steel tube supports 10, files such as PHC files (Pretensioned high strength concrete piles) and steel pipe files can be used.

The lower cap 20 and the upper bracket 30 are features of the present invention. The lower cap 20 and the upper bracket 30 are constructed so as to be rigidly coupled even with a simple structure through a structural improvement. .

The lower cap 20 is provided at the upper end of the steel tube support 10 and is reinforced while finishing the end of the steel tube support 10. The lower cap 20 is a cylindrical body having a lower portion opened so that the upper end of the steel tube support 10 is inserted into the lower inside, .

The upper portion of the lower cap 20 is formed with a bracket insertion passage 21 cut into a predetermined depth to insert and bind the upper bracket 30 therein. The bracket insertion passage 21 is formed by cutting a width of the upper bracket 30 across the upper center of the lower cap 20.

As a result of the formation of the bracket insertion passage 21, the cut-out side of the lower cap 20 is opened to communicate with the inner space of the lower cap. The open side is left as it is, It may be closed.

In the accompanying drawings, the bottom opening portion of the lower cap 20 is closed with a steel plate, and the side surface is left open.

A coupling groove 22 is formed on the upper surface of the lower cap 20 so as to communicate with the bracket insertion passage 21. The coupling groove 22 extends in a direction intersecting the forming direction of the bracket insertion passage 21 And is preferably formed to be orthogonal to the bracket insertion passage 21.

The coupling groove 22 is formed only in the central portion of the upper surface of the lower cap 20, and is not formed too long to the edge. It is sufficient to form it from the center to about ⅔ point.

At this time, the binding groove 22 is formed as an inclined surface 22a so as to become narrower from the upper surface of the lower cap 20 downward. The reason for this is that in the process of inserting the flow prevention piece 33 of the upper bracket 30 to be described later in the process of inserting the upper bracket 30 in a state in which the flow prevention piece 33 is not accurately positioned on the upper side of the binding groove 22 The flow preventing pieces 33 are guided on the inclined surface 22a so that they can be easily inserted and inserted into the binding grooves 22. [

The upper bracket 30 is inserted into the bracket insertion passage 21 and the coupling groove 22 of the lower cap 20 and is coupled to the lower cap. The flow prevention pieces 33 are formed on both sides of the insertion portion 31 so as to be inserted into and bound to the binding groove 22 in a state where the insertion portion 31 is inserted into the bracket insertion passage. Respectively.

Since the upper bracket 30 is coupled to the bracket insertion passage 21 and the coupling groove 22, when the upper bracket is coupled to the lower cap, There is an advantage that a firm connection can be made without flowing in the process.

The insertion portions 31 are inserted into the bracket insertion passages 21 at both sides in the lengthwise direction of the insertion portion 31 of the upper bracket 30 so that the insertion portions 31 are respectively supported on a part of the outer circumferential surface of the lower cap 20 The support portion 32 is formed so as to protrude downward by a predetermined length.

Due to the formation of the support portion 32, the insertion portion 31 of the upper bracket 30 is supported on the outer circumferential surface of the lower cap 20 while being inserted into the bracket insertion passage 21, Even when a load is applied to both sides, the support portion 32 effectively contacts the outer circumferential surface of the lower cap 20 to effectively support the load.

At this time, a plate having a predetermined area may be installed at the end of the support part 32, and the plate body may have the same or a same shape as the outer circumferential surface of the lower cap 20 so that a part or whole of the center part is in close contact with the outer circumferential surface of the lower cap 20 And can be formed by bending at similar angles.

The plate body may be formed separately or may be formed of an outer steel plate 30b described later.

The coupling means 40 is a means for coupling the upper bracket 30 inserted into the bracket insertion passage 21 and the coupling groove 22 with the lower cap 20 to prevent the upper bracket from flowing.

As an embodiment, the upper bracket 30 can be coupled and fixed to the lower cap 20 through bolting. The bolting engagement structure will be described in detail below.

The supporting frame 50 is provided for mounting the footrest assembly 60 and is supported by the upper bracket 30 installed in each of the plurality of steel tube supports 10 and is provided in the longitudinal direction Respectively.

The supporting frame 50 is for supporting the footrest assembly 60 and may be formed as a square frame.

The support frame 50 may include a pair of support frames 51 and 52 provided on both lower sides of the footplate assembly 60 along the longitudinal direction thereof and a pair of support frames 51 and 52 spaced apart from the support frames 51 and 52 And an interval material 53 installed for interconnecting.

H-shaped steel can be used for both the support frame and the spacer, and the coupling between the support frame and the spacer can be fixed to each other through bolting or welding.

The footplate assembly 60 is installed on the upper side of the support frame 50 and has the same structure as that of a known deck member.

Specifically, the footrest assembly 60 includes a plurality of footstep frames 61 welded to the upper surface of the support frame 50 at predetermined intervals along the longitudinal direction of the footbridge 60, And a finishing frame 63 installed to the left and right of the foot plate 62 for finishing.

The upper surface of the finishing frame 63 may be provided with a handrail 64 according to the installation position or purpose.

According to the present invention configured as described above, the upper bracket 30 is coupled to the lower cap 20 coupled to the upper end of the steel pipe support 10, The insertion portion 31 and the flow preventing piece 33 of the upper bracket 30 are inserted into the bracket insertion passage 21 formed in the lower cap 20 and the coupling groove 22, The central part of the upper bracket 30 can be accurately coupled to the lower cap, the upper bracket can be coupled while preventing the upper bracket from flowing, and the operation of adjusting the coupling position is unnecessary. .

Particularly, since the support portion 32 is formed on both sides of the insertion portion 31 of the upper bracket 30, the insertion portion 31 is inserted into the bracket insertion passage 21, It is possible to effectively support the load transmitted from the upper portion of the upper bracket 30 by contacting the upper bracket 30.

In the present invention, the lower cap 20 and the upper bracket 30 are coupled to each other in a prefabricated manner. Accordingly, bolts and nuts, which are commonly used for easy joining as well as workability, They can be bonded to each other by bonding.

In the present invention, the support portions 32 formed on both sides of the insertion portion 31 are not coupled to the lower cap 20, but the support portions 32 on both sides are coupled to the lower cap 20 through a single bolting engagement. So that the joining operation can be completed easily in a shorter time.

A plurality of bolt through holes 25 and 35 are formed at predetermined intervals in the lower cap 20 and the support portion 32 at positions facing to each other and the bolt through holes 25 and 35 are formed in the bolt through holes 25 and 35, The bolts 41 are inserted through the supporting part 32 and the lower cap 20 and then fastened with the nuts 42 to be coupled.

For example, as shown in the drawing, three bolt through holes 25 and 35 are formed respectively, and three tapered bolts 41 are inserted into the respective bolt through holes. Then, the protruded both ends of the tapered bolt are screwed into nuts 42 So that the upper bracket 30 can be coupled to the lower cap 20.

The upper bracket 30 is composed of a vertical steel plate 30a and an outer steel plate 30b orthogonally coupled to the vertical steel plate 30a so as to surround the rim of the vertical steel plate 30a, And the vertical cross section is formed to have an 'H' shape.

Since the upper bracket 30 has a vertical cross-section of 'H' shape, the upper bracket 30 itself has reinforcement strength. However, in order to prevent breakage that may occur, the reinforcement pieces 34 .

The reinforcing pieces 34 may be provided on both side surfaces of the vertical steel plate 30a such that one end or both ends of the outer steel plate 30b are connected.

The reinforcing piece 34 is formed in an arc shape so as to effectively support a load transmitted from the upper side of the upper bracket 30. [

The upper bracket 30 includes only the outer steel plate 30b protruding from the upper portion of the lower cap 20 in a state where the insertion portion 31 is inserted into the bracket insertion passage 21. [

The reason for this is that the foot frame 61 constituting the foot plate assembly 60 can be bolted or welded while being in close contact with the upper surface of the upper bracket 30.

The supporting frame 50 installed to support the footrest assembly 60 may be mounted on the upper portion of the upper bracket 30 to support the upper bracket 30, Can be installed via welding connection

A finishing plate (not shown) may be separately provided on the outer side of the supporting frame so that the supporting frame is not exposed to the outside.

In the present invention, as shown in FIGS. 1 to 6, when a foot bridge is constructed, a foot bridge using one steel pipe support is used. Alternatively, a foot bridge can be constructed using two steel pipe supports as shown in FIGS.

In the case of a stock bridge, a plurality of the steel tube supports 10 are embedded along the installation direction of the foot bridge at intervals set to be positioned at the center portion of the footplate assembly 60.

The upper bracket 30 is installed along the width direction of the foot plate assembly 60 in a state where the center portion is coupled to the lower cap 20 provided on the steel pipe support 10, And support frames 51 and 52 constituting the support frame 50 are seated on the upper surface of the support frames 50 and 52 to be bolted or welded.

In this way, the upper bracket is installed in the width direction of the foot plate assembly to construct a foot bridge with one steel pipe support.

As shown in FIGS. 7 and 8, in the case of a bridge structure using two steel tube supports, the steel tube supports 10 are embedded on both sides in the longitudinal direction of the footplate assembly 60 so as to face each other, Can be installed at a constant interval by the connection frame 11 connected to the lower cap.

The connection frame 11 may be welded to a part of the outer circumferential surface of the lower cap or may be bolted to a connection bracket (not shown) formed separately on the lower cap.

The upper bracket 30 is installed to face each other along the longitudinal direction of the foot plate assembly 60 in a state where a central portion of the upper bracket 30 is coupled to the lower cap 20 provided on the steel pipe support 10, The support frames 51 and 52 are seated on the upper surfaces of the upper brackets to be bolted or welded together.

In this way, it is possible to construct a bridge by using one steel pipe support or two steel pipe supports, and in the case of using two steel pipe supports, a more stable bridge construction can be realized as the bearing power becomes higher.

According to the present invention configured as described above, the coupling structure of the lower cap and the upper bracket can be improved to easily and easily be combined, and the center portion of the upper bracket can be accurately fitted to the lower cap, The supporting bracket 32 formed integrally with the upper bracket can be attached to the lower bracket 20 and the upper bracket 20, Even when pressure is applied to the upper portions of both sides of the upper bracket, the upper bracket can be effectively supported to prevent breakage of parts including the upper bracket.

10: steel pipe holding 11: connecting frame
20: Lower cap 21: Bracket insertion passage
22: binding groove 22a: inclined surface
25, 35: Bolt through hole 30: Upper bracket
30a: Vertical steel plate 30b: Outer steel plate
31: insertion part 32: support part
33: flow prevention piece 34: reinforcement piece
40: coupling means 41: bolt
42: nut 50: support frame
51, 52: support frame 53:
60: scaffold assembly 61: scaffold frame
62: Footstool 63: Finishing frame
64: Railing 70: Finishing plate

Claims (6)

A plurality of steel tube supports (10) vertically embedded in the ground so as to be spaced apart from each other;
The upper end of the steel tube support 10 is formed as a cylindrical body having an open bottom so as to be inserted into the lower inner side. A bracket insertion passage 21 is formed at an upper portion of the cylindrical tube support 10 at a predetermined depth. A lower cap (20) having a coupling groove (22) formed to communicate with the bracket insertion passage (21) in a direction intersecting the forming direction of the lower cap (20);
The insertion portion 31 is formed at a central portion of the insertion portion 31 so as to be inserted into the bracket insertion passage 21. The insertion portion 31 is inserted into the bracket insertion passage 21 A support portion 32 is formed to protrude downward from the insertion portion 31 so as to be supported on a part of the outer circumferential surface of the lower cap 20. The insertion portion 31 is inserted into the binding groove 22 on both sides thereof An upper bracket 30 on which a flow preventing piece 33 is formed;
A coupling means 40 for coupling the upper bracket 30, which is inserted into the bracket insertion passage 21 and the coupling groove 22, with the lower cap 20 to prevent the upper bracket 30 from flowing;
A plurality of supporting frames (50) coupled to the upper brackets (30) provided in the plurality of steel pipe supports (10) via the lower cap (20) and installed along the longitudinal direction of the bridge bridges;
A footplate assembly 60 installed on the upper side of the support frame 50 to form a bottom surface of a bridge bridge;
Wherein the bracket is provided with a bracket.
The method according to claim 1,
A plurality of bolt through holes 25 and 35 are formed in the lower cap 20 and the support portion 32 at regular intervals at positions facing each other,
The coupling means 40 includes a bolt 41 inserted into the plurality of bolt through holes 25 and 35 to pass through the support portion 32 and the lower cap 20, And a nut (42) which is spirally coupled to fix the support part (32) to the lower cap (20).
The method according to claim 1,
The support frame 50 includes a pair of support frames 51 and 52 provided at both lower sides of the footplate assembly 60 along the longitudinal direction thereof and a pair of support frames 51 and 52 for holding and interconnecting the support frames 51 and 52 And an interval member 53 provided for the purpose of mounting,
A plurality of the steel pipe supports 10 are embedded in a central portion of the scaffold assembly 60 and the upper bracket 30 is fixed to the lower cab 20 provided at the steel pipe support 10, And the support frames (51, 52) are respectively supported on the upper surfaces of the upper bracket (30) by bolting or welding.
The method according to claim 1,
The support frame 50 includes a pair of support frames 51 and 52 provided at both lower sides of the footplate assembly 60 along the longitudinal direction thereof and a pair of support frames 51 and 52 for holding and interconnecting the support frames 51 and 52 And an interval member 53 provided for the purpose of mounting,
The steel tube supports 10 are embedded in opposite sides of the foot plate assembly 60 in the longitudinal direction of the foot plate assembly 60 and are provided with connection frames 11 between the steel tube supports which are opposite to each other, Respectively,
The upper bracket 30 is installed to face each other along the longitudinal direction of the foot plate assembly 60 in a state where a central portion of the upper bracket 30 is coupled to a lower cap 20 provided on the steel pipe support 10, And the support frames (51, 52) are seated on the upper surface of the upper bracket to be bolted or welded together.
The method according to claim 1,
Wherein the coupling groove (22) is formed as an inclined surface (22a) so as to become narrower from the upper part to the lower part.
The method according to claim 1,
The upper bracket 30 includes a vertical steel plate 30a and an outer steel plate 30b orthogonally coupled to the vertical steel plate 30a so as to surround the rim of the vertical steel plate 30a. Shaped,
Wherein at least one reinforcement piece (34) having an arc shape connected to the outer steel plate (30b) for reinforcement is joined to the surface of the vertical steel plate (30a).

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