KR101018052B1 - Linking units to connect the floating bridge units and the floating bridge using the linking units - Google Patents

Abstract

The present invention is installed in a section that is refracted in either direction or branched in several directions in the process of installing the prefabricated pontoon unit pre-fabricated to a predetermined length in the water phase, the angle can be easily adjusted according to the angle of the prefabricated pontoon unit is connected In addition, the present invention relates to a prefabricated refraction connecting unit and a prefabricated refraction bridge to facilitate the installation. The present invention configured for this purpose is installed in the pre-fabricated pontoon unit pre-fabricated in a predetermined size in the process of installing in the refraction section or the section with the branch of the top plate in the prefabricated pontoon to connect the prefabricated pontoon unit, a certain size Float formed of a material floating in water; A support plate formed in a disk shape having a predetermined size to be placed on the upper portion of the floating body; A plurality of rotating plates protruding from each other in a pair of pairs in a circular shape installed on an upper portion of the supporting plate in parallel with one another; An upper plate formed in a disc shape having a size corresponding to the support plate and installed on the upper portion of the rotating plate; Assembly means formed between the base plate and the top plate such that the base plate, the rotating plate, and the top plate are assembled and rotated based on the same center; Rotation friction reduction means installed between the support plate and the rotary plate, between the support plate and the rotary plate, between the rotary plate and the rotary plate, and between the rotary plate and the upper plate to reduce frictional force between the support plate and the rotary plate, between the rotary plate and the rotary plate, and between the rotary plate and the upper plate during the rotation operation of the rotary plate; And an upper plate connecting bracket installed at the end of the connecting frame of each rotating plate so as to be connected by a separate connecting means and a prefabricated girder unit which is connected to the corresponding side.

Pontoon, bend, branch, connect, tops

Description

Linking units to connect the floating bridge units and the floating bridge using the linking units}

The present invention relates to a prefabricated articulated pontoon bridge and a prefabricated articulated pontoon bridge, and more particularly, in the process of installing a prefabricated prefabricated bridge unit pre-fabricated to a certain length in a water direction or branched into several branches. The present invention relates to a prefabricated refraction connecting unit and a prefabricated refraction bridge that can be easily installed as well as easy to adjust the angle depending on the angle at which the prefabricated bridge units are connected.

Floating bridge is a floating bridge, reservoir, lake, river, etc., allowing people to observe the surroundings as people and objects pass. In particular, in recent years, even in the process of construction of new towns, artificial lakes, etc. are constructed in the city center, and various landscaping facilities such as pontoon bridges are installed on the water so that citizens can enjoy various benefits.

In addition, with the development of the landscape industry, the surrounding areas such as reservoirs, lakes, rivers, etc. are being decorated in various forms, and various forms of attempts to protect the natural ecosystem are in progress.

Conventional pontoon bridges include a plurality of struts installed at regular intervals, such as a pile on the bottom surface of the water and a top plate connecting between the struts. At this time, the top plate is completely fixed to the support to be configured to maintain a constant height at all times irrespective of the change of the surface, or may be installed in a structure supported on the support, but may be configured in such a way that its height changes in accordance with the change in the water surface. .

As mentioned above, the installation process of the pontoon bridge was very difficult because the installation of the pillar was necessary to install the support on the bottom surface of the water, and the bad impact on the underwater flora and fauna by destroying the natural ecosystem in the installation process of the support. There were only problems.

Therefore, as a means to solve the various problems as described above, after the prefabricated pontoon bridge unit having a certain length on the ground in advance, the pontoon bridge is installed in the prefabricated pontoon unit prefabricated on the ground by using equipment such as a crane or a traction ship The installation method of the pontoon bridge has been developed to move to the corresponding point to properly connect the prefabricated pontoon bridge units respectively located in front and rear.

However, even if a plurality of prefabricated girder units were installed in the water according to the new girder installation method, the prefabricated girder units were formed in a straight line with a certain length, so there was no proper connection means in the section with refraction or in the section where the divergence was made. Due to the installation difficulties still existed problems.

Therefore, the present invention was devised to solve the conventional problems as described above, in the process of installing a plurality of prefabricated bridge units pre-fabricated to a predetermined length on the ground at the point of refraction or branching point, etc. An object of the present invention is to provide a prefabricated refraction connecting unit and a prefabricated refraction bridge for easy installation thereof.

In addition, another object of the present invention is configured to be rotatable with respect to the prefabricated pontoon unit connected to either side at the point of refraction or the branch of the water phase and to actively operate the movement of the prefabricated pontoon unit connected during and after installation. It is an object of the present invention to provide a prefabricated articulated bridge and a prefabricated articulated bridge.

The present invention configured to achieve the above object is as follows. That is, the present invention is installed in the pre-fabricated pontoon unit pre-fabricated in a predetermined size in the process of installing in the water section or the section of the refraction section or the branch of the upper plate in the prefabricated pontoon bridge to interconnect the assembled pontoon unit, water of a certain size Floating body formed of a floating material; A support plate formed in a disk shape having a predetermined size to be placed on the upper portion of the floating body; A plurality of rotating plates protruding from each other in a pair of pairs in a circular shape installed on an upper portion of the supporting plate in parallel with one another; An upper plate formed in a disc shape having a size corresponding to the support plate and installed on the upper portion of the rotating plate; Assembly means formed between the base plate and the top plate such that the base plate, the rotating plate, and the top plate are assembled and rotated based on the same center; Rotation friction reduction means installed between the support plate and the rotary plate, between the support plate and the rotary plate, between the rotary plate and the rotary plate, and between the rotary plate and the upper plate to reduce frictional force between the support plate and the rotary plate, between the rotary plate and the rotary plate, and between the rotary plate and the upper plate during the rotation operation of the rotary plate; And an upper plate connecting bracket installed at the end of the connecting frame of each rotating plate so as to be connected by a separate connecting means and a prefabricated girder unit which is connected to the corresponding side.

In addition, assembling means in the prefabricated articulated refraction connecting unit according to the present invention is formed so that the end of the central axis is inserted into the central axis of the upper protrusion formed in the center of the support plate, the shaft hole is formed so as to fit the central axis in the central portion of the rotating plate and the bottom of the upper plate It may be made of an axial coupling groove.

In addition, on the outer periphery of the supporting plate, the rotating plate and the upper plate in the assembled observatory refracting connection unit according to the present invention, a metal bearing may be mounted as a rotation friction reducing means.

On the other hand, the assembly means in the prefabricated bridge refraction connecting unit according to the present invention is fixed to the bottom of the upper plate and the lower portion of the rotating plate corresponding to the upper portion of the annular rail and the annular rail installed in a circular shape on the base plate and the rotating plate at a predetermined angle interval It is composed of a plurality of support shafts, the lower end of the support shaft may be configured to rotate on the same axis as the center of the support plate and the upper plate with the lower end of the annular rail.

In addition, the plurality of support shafts located on the lower part of the rotary plate and the plurality of support shafts located on the lower part of the upper plate in the prefabricated girder refracting connection unit according to the present invention is made of a form in which the upper end is fixed to the ring-shaped mounting ring, respectively, The mounting ring may be fixedly mounted on the lower surface of the rotating plate and the upper plate.

In addition, the lower end of the support shaft in the prefabricated refraction connection unit according to the present invention may be equipped with a roller or a ball shape for reducing friction with the rail.

On the other hand, the prefabricated articulated pontoon bridge according to the present invention in the pontoon bridge is configured to allow the passage of people or objects in the water phase, the top plate having a certain length and width, the bridge railing arranged on both sides of the top plate, the top plate floated in water A prefabricated girder unit consisting of a float installed at the bottom of the top plate and a top plate connection bracket respectively installed at the front and rear of the top plate to be in a state; At least two disc-shaped base plates installed at regular intervals on the bottom of the base plate, between the base plate and the top plate, and the rotating plate and base plate in the state where the installation angle of the prefabricated pier unit is adjusted. Refractive connection unit consisting of a bracket for the upper plate is installed at the end of the connecting frame protruding to any one of the floating plate and the rotating plate installed on the lower portion of the support plate; And the plate-shaped key plate is formed so as to face at a predetermined interval while the annular spring is installed between the key plate is composed of a connecting means for interconnecting the prefabricated pontoon unit and the articulation connecting unit.

In addition, a rotating friction reducing means may be further provided on the rotating plate so that the rotating plate of the articulation refraction bridge according to the present invention smoothly rotates between the supporting plate and the upper plate.

In the prefabricated articulated pontoon according to the present invention, a top plate connecting bracket installed on the prefabricated girder unit and the articulated connection unit includes a plate-shaped mounting plate and a key groove having an upper portion and a front portion opened on the front side of the mounting plate. It can be configured.

In addition, in the prefabricated articulated girder according to the present invention, a stay of a predetermined length may be installed downward in the lower portion of the prefabricated girder unit and the articulated connection unit, and a weight of a certain weight may be installed at the bottom of the stay.

Prefabricated pontoon refraction connection unit according to the present invention is located in the section where the refraction is made along the waterfront in the process of installing the prefabricated prefabricated girdle unit on the ground or the branch is made of several branches, etc. Connect the but the angle of the rotating plate can be properly adjusted according to the direction in which the prefabricated pontoon unit is connected is a great effect that can be made easier installation of the pontoon bridge.

In addition, the present invention is because the refractive connection unit is floating in the water by the floating body even if an external impact is applied to the refraction section and the branched section of the pontoon in the water phase deterioration, etc. There is an advantage that can be actively responded to.

In addition, the prefabricated girder refracting connection unit according to the present invention has an advantage of providing a more diverse form of girder because it is easy to add the number of rotating plate to which the assembleable girder unit is connected.

Hereinafter, with reference to the accompanying drawings a preferred embodiment according to the configuration and operation of the prefabricated bridge refraction connection unit according to the present invention will be described in detail.

1 is a schematic perspective view of a prefabricated articulation connecting unit according to the present invention, Figures 2a and 2b is a view showing a state of use of the prefabricated articulating articulating connection unit according to the present invention, Figure 3 is a refractive according to the present invention It is a figure for demonstrating the structure of the prefabricated pier bridge unit couple | bonded with a connection unit.

As shown in FIG. 1, the prefabricated articulation bridge refraction connection unit 100 according to the present invention is fixed to the upper portion of the floating body 110 and the floating body 100 so that the refractive connection unit itself is in a floating state. Support plate 120 that is mounted on the base plate 120, the upper plate 130 which is positioned at a predetermined interval in the upper portion of the support plate 120 in the shape of a disc of the size corresponding to the support plate 120, prefabricated bridge unit 200 connected to one side thereof According to the number of the plurality of rotating plate (120) is located between the base plate 120 and the top plate 130 while one side of the pair of connecting frame 142 is formed side by side toward the prefabricated pontoon bridge 200 ( 140 and the upper plate connecting bracket to be fixed to the end of the connecting frame 142 of the rotating plate 140 to be connected by a prefabricated pontoon bridge unit 200 is connected in a corresponding direction and a separate connecting means 400 ( 300) its composition It is rough. That is, the supporting plate 120, the upper plate 130 and the rotating plate 140 are formed in a circular shape as shown in the drawings, respectively, in particular, the rotating plate 140 is between the supporting plate 120 and the upper plate 130 And rotatable within a range of angles.

On the other hand, the articulation connecting unit 100 according to the present invention is the support plate 120, the rotating plate 140 and the top plate 130 in order to maintain the state in which the stacking means in turn and the supporting plate during the rotation operation of the rotating plate 140 It further comprises a rotation friction reducing means installed between the 120 and the rotating plate 140, between the rotating plate 140 and the rotating plate 140 and between the rotating plate 140 and the top plate 130. The assembling means and the rotational friction reducing means of the refractive connection unit 100 according to the present invention will be described in more detail in the process of explaining the first and second embodiments of the present invention.

First, the refractive connection unit 100 according to the present invention is preferably made in advance on the ground before installing the pontoon bridge on the water. Of course, the prefabricated pontoon unit 200, which is connected through the refractive connection unit 100, is also manufactured in advance before installing the pontoon bridge in the water phase.

2A and 2B are views illustrating a state in which the prefabricated girder unit 200 separately manufactured as the refractive connection unit 100 constructed by the present invention is connected. 2 and 3, the prefabricated girder unit 200 is formed in a straight shape having a predetermined length, and similarly to the refractive connection unit 100 according to the present invention, a lower portion of the prefabricated girder unit ( 200) A plurality of floats 210 are fixedly installed so that they are in a state of being floated in water.

Support plate 120 according to the present invention is formed in the shape of a disk having a predetermined diameter as shown in the drawing and the space for the assembly and the plurality of rotating plate 140 together with the upper plate 130 located thereon To provide a space, it is in a fixed state with respect to the floating body 110 located below. That is, the support plate 120 flows according to the movement of the floating body 110 flowing in the water phase, but does not move separately with respect to the floating body 110. To this end, the lower frame 122 for setting the mounting position of the floating body 110 is formed in the lower portion of the support plate 120, the lower frame 122 will be described the first and second embodiments of the present invention As shown in the drawings to be composed of two sets of one will be able to support a more balanced and stable state of the floating body 110 located below.

The top plate 130 corresponds to the top plate 220 of the prefabricated girder unit 200, and has a structure that may be parallel to the top plate 220 of the prefabricated girder unit 200 when the girder is completed. The upper plate 220 is formed in the shape of a disk of a size corresponding to the base plate 120 described above, and may be made of wood, metal or synthetic resin.

In addition, a railing may be installed on a circumference of the upper surface of the upper plate 220 in a conventional manner in an area where the passage of pedestrians is not hindered.

And the rotating plate 140 is made of a rotatable structure in a state connected by a separate connecting means 400 and the upper plate connecting bracket 300 fixedly mounted on the front or rear of the above-described prefabricated bridge unit 200. The rotating plate 140 is composed of two or more in consideration of the fact that the refractive connection unit 100 is assembled between the prefabricated bridge unit 200 and the prefabricated bridge unit 200, the first embodiment of the present invention In the drawings and the like according to the second embodiment, only two rotating plates 140 are shown for convenience of description.

On the other hand, in one direction of the rotating plate 140, a pair of connecting frame 142 for assembling with the prefabricated pontoon bridge 200 is formed to protrude side by side to a predetermined length. The connecting frame 142 is to be connected as a separate connecting means 400 in a state facing each other with the main frame 222 located below the upper plate 220 of the prefabricated bridge unit 200. To this end, a top plate connection bracket 300 for fixing one side of the connection means 400 separately formed at the end of the connection frame 142 is fixedly mounted. And the end of the connecting frame 142 of the rotary plate 140 located on the lower side so that the height difference of the two connecting frame 142 according to the height difference of the rotating plate 140 stacked up and down as shown in the figure It may be made in a form bent toward the top. That is, the heights of both connecting frames 142 may be corrected to be equal to the height of the main frame 222 of the prefabricated girder unit 200.

The upper plate connection bracket 300 has a structure in which a key groove 304 is formed in a form in which an upper portion and a front portion are opened on the front side of the mounting plate 302, and the mounting plate 302 is The assembly is made by fitting the key plates 402 formed on both sides of the connecting means 400 in the state of being fixedly mounted to the connecting frame 142 from the upper side to the lower side of the key groove 304.

One side of the upper plate 220 of the prefabricated girder unit 200 on the side connected to the refractive connection unit 100 according to the present invention is advantageously formed in the shape of an arc as in the example shown in the drawings in terms of safety and operational performance. will be.

And not only to maintain the combined state of the support plate 120 and the top plate 130, but also assembly for allowing the rotating plate 140 located between the support plate 120 and the top plate 130 to operate while rotating with each other As a means, the central shaft 150 may be installed at the center of the support plate 120 in the same structure as in the first embodiment of the present invention, and in the same structure as in the second embodiment of the present invention, a plurality of support shafts are formed at a predetermined angle interval. 170 may be installed.

In addition, the rotation friction reduction means for smoothly rotating the plurality of rotating plate 140 between the support plate 120 and the upper plate 130 as a first embodiment of the present invention as a metal material on the outer periphery of the circular body The bearing 160 may be installed, or the annular rail 180 may be installed in an annular section through which the lower end of the support shaft 170 passes, as in the second embodiment of the present invention.

4 is an exploded perspective view of a prefabricated refraction connecting unit according to a first embodiment of the present invention, FIG. 5 is a front sectional view of a prefabricated refraction connecting unit according to a first embodiment of the present invention, and FIG. 7 is a plan view of the prefabricated articulation connecting unit according to the first embodiment, and FIG. 7 is a diagram illustrating an operation state of the prefabricated articulation connecting unit according to the first embodiment of the present invention.

In the case of the articulation connection unit 100 according to the first embodiment of the present invention shown in FIGS. 4 to 7, a central axis 150 for coupling with the lower portion of the upper plate 130 is formed on the center of the support plate 120. It is formed in a structure raised to a certain height. Of course, in the central portion of the lower surface of the upper plate 130, the shaft coupling groove 152 is formed in which the upper end of the central axis 150 of the support plate 120 is formed while the central shaft 150 in the center of each rotating plate 140 A shaft hole 154 for passing therethrough is formed.

On the other hand, on the outer periphery of the support plate 120, the top plate 130 and the rotating plate 140 of the rotation friction reduction means for lowering the friction between the members facing each other during the rotation operation of the rotating plate 140 In one embodiment, a metal bearing 160 having excellent corrosion resistance is installed. In this case, the bearing 160 may not be installed in the section of the rotating plate 140 protruding the connecting frame 142. In addition, the bearing 162 of the above-described shape is also installed on the inner circumference of the shaft hole 154 formed in the rotating plate 140 to determine the degree of rotational friction in the process of rotating the rotating plate 140 around the rotation axis 150. It is advantageous in terms of being able to lower.

As described above, when the central shaft 150 and the bearing 160 are applied as the assembly means and the rotation friction reducing means, the supporting plate 120, the rotating plate 140, and the upper plate 130 are assembled on the same axis. As the rotating plate 140 can be smoothly rotated, the angle can be adjusted when the prefabricated girder unit 200 is connected to both sides as shown in FIG. 7.

On the other hand, Figure 8 is an exploded perspective view of the prefabricated articulation refraction connection unit according to the second embodiment of the present invention, Figure 9 is a front sectional view of the prefabricated articulation refraction connection unit according to a second embodiment of the present invention, Figure 10 is 11 is a plan view of the prefabricated articulation connecting unit according to the second embodiment of the present invention, and FIG. 11 is a diagram illustrating an operating state of the prefabricated articulating connecting unit according to the second embodiment of the present invention.

In the case of the refractive connection unit 100 according to the second embodiment of the present invention shown in Figures 8 to 11, a plurality of spaced apart from each other on the lower surface of the upper plate 130 and the rotating plate 140 as an assembly means, respectively The support shaft 170 of the annular rail 180 for guiding the movement of the support shaft 170 while receiving the lower end of the support shaft 170 on the upper surface of the support plate 120 and the rotating plate 140, respectively. ) Is installed. At this time, the upper end of the support shaft 170 made of a plurality is formed in the state protruding downward at a predetermined angle interval on the lower surface of the mounting ring 174 each in the form of a ring, the mounting ring 174 is each rotating plate ( It is formed to be fixed to the lower portion of the lower portion and the upper plate 130 of 140. At this time, the mounting ring 174 may be mounted as a fastening means such as a separate bolt on the lower surface of the upper plate 130 and the rotating plate 140, respectively.

In particular, the lower end of the support shaft 170 is made of a ball (ball) or made of a structure equipped with a roller 172 that is rotatable operation may be advantageous in terms of application as a rotation friction reducing means.

On the other hand, the annular rail 180 installed on the support plate 120 and the rotating plate 140 is formed in a structure in which the top is open so that the support shaft 170 can be assembled from the upper side to the lower side.

In addition, even in the case of the rotating plate 140 of the refractive connection unit 100 according to the second embodiment of the present invention may be formed in the form of an annular through-shaped center portion thereof.

In the refractive connection unit 100 according to the second embodiment of the present invention as an assembly means and rotational friction reduction means to the annular rail 180 for inducing the movement of the plurality of support shafts 170 and the support shafts 170 As it is made, as shown in Figure 11 when the installation of the prefabricated floating bridge unit 200 connected to both sides is possible to adjust the angle.

In the articulation connection unit 100 according to the first and second embodiments of the present invention, the support plates 120 and the upper plates 130 positioned at the lower and upper portions of the rotating plates 140 are assembled in a state where the fixing is performed. It doesn't have to be. This is because even when the support plate 120 is in the floating state by the buoyancy of the floating body 110, the upper plate 130 may not be released from the assembled state by its own weight. Therefore, when the refractive connection unit 100 according to the present invention is installed in a branched section, the operation of adding the rotating plate 140 may be easily performed.

The refraction connection unit 100 configured as described above is placed in a refraction section or a branched section in the process of separately installed prefabricated pontoon bridge unit 200 is installed in the water phase. In this process, the upper plate connecting bracket 300 fixedly mounted on the connecting frame 142 protruding from the rotating plate 140 of the refractive connection unit 100 is connected to the upper plate fixed on the front or rear of the prefabricated bridge unit 100. Facing the bracket 300, the connection between the respective top plate bracket 300 is made by the connection means 400.

The connecting means 400 for this purpose is provided between the pair of key plates 402 located at both sides and the front and rear key plates 402 at predetermined intervals so as to be fitted into the key groove 304 of the upper plate connecting bracket 300. It consists of a spring 404 on the coil located at. In this case, the spring 402 is applied as a compression spring having a predetermined elastic force or more, while both ends of the spring 402 may be fixedly mounted to the key plate 402 in the corresponding direction as a high water purification end such as a U-shaped bolt. have.

As described above, the refraction connection unit 100 according to the present invention is connected to the refraction section or the branched section in the process of installing the prefabricated girder units 200 in the water of a reservoir, a lake or a river, and thus, FIG. 2A and FIG. The pontoon is completed in the form shown in FIG. 2B. In this process, various types of designs can be made according to the topography conditions or the length of the pontoon bridge. That is, in the process of installing the girder in a refracted form, the angle of the rotating plate 140 is adjusted in the corresponding direction to make the connection with the prefabricated girder unit 200, and in the process of installing the branched girder in the process of installing the rotator 140. ) Is adjusted to each corresponding direction by the number of branches and the connection with the corresponding prefabricated pontoon bridge 200 is made.

On the other hand, the prefabricated girder unit 200 has a predetermined length and width while the lower side of the upper plate 220 so that the main plate 222 is installed long, the upper plate 220 is floated in water in the lower portion Along the main frame 220 arranged in a plurality of floating body 210, the front and rear of the leg rail 230 and the top plate 220 are installed at a predetermined height to prevent people from falling on both sides of the top plate 220. The upper plate of the prefabricated girder unit adjacent to the or the top plate of the refractive connection unit 100 and a separate connecting means 400 is configured to include a bracket for connecting the top plate to be maintained in a mutually coupled state.

Therefore, in the process of connecting the refraction connection unit 100 to the prefabricated bridge unit 200, the top plate connection bracket 300 of the refraction connection unit 100 and the top plate connection bracket 300 of the prefabricated bridge unit 200 are connected. The key plate 402 of the connecting means 400 can be assembled by assembling each key groove 304 in the proximity state.

As described above, the flow generated between the articulated connection unit 100 and the prefabricated bridge unit 200 connected by the connecting means 400 is buffered by the spring 404 constituting the connecting means 400. .

In addition, as shown in FIGS. 12A to 12C, a stay 510 of a predetermined length is installed downward in the lower portion of the upper plate of the articulation connection unit 100 and the prefabricated bridge unit 200, while at the bottom of the stay 510. By installing a weight body 500 having a predetermined weight may be such that the refractive connection unit 100 and the assembly pontoon unit 200 according to the change in the surface is not overturned during the flow in a more stable state.

The present invention is not limited to the above embodiments, and various modifications can be made within the scope of the technical idea of the present invention.

1 is a schematic perspective view of a prefabricated piercing connecting unit according to the present invention.

Figure 2a and Figure 2b is a state of use of the prefabricated refraction connection unit according to the present invention.

Figure 3 is a view for explaining the structure of the prefabricated bridge unit coupled to the articulation connection unit according to the present invention.

Figure 4 is an exploded perspective view of the refractive connection unit according to the first embodiment of the present invention.

5 is a front sectional view of the articulation connection unit according to the first embodiment of the present invention.

Figure 6 is a plan view of the refractive connection unit according to the first embodiment of the present invention.

7 is an operational state diagram of the refractive connection unit according to the first embodiment of the present invention.

8 is an exploded perspective view of a refractive connection unit according to a second embodiment of the present invention.

9 is a front sectional view of the articulation connection unit according to the second embodiment of the present invention.

10 is a plan view showing a refractive connection unit according to a second embodiment of the present invention.

11 is an operational state diagram of the refractive connection unit according to the second embodiment of the present invention.

12A to 12C are views for explaining another embodiment of the present invention.

[Explanation of symbols on the main parts of the drawings]

100. Refractive connection unit 110. Floating

120. Base plate 122. Bottom frame

130. Top plate 140. Swivel plate

142. Connection frame 150. Center axis

152. Shaft Coupling Grooves

160,162. Bearing 170. Support Shaft

174. Mounting ring 180. Annular rail

200. Prefabricated Floating Unit 210. Floating

220. Tops 222. Main Frame

230. Bridge railing 300. Bracket for connecting top plate

302. Mounting plate 304. Tall groove

400. Connection means 402. Key plate

404. Spring 500. Weight

Claims (10)

In the prefabricated pontoon bridge to connect the prefabricated pontoon unit is installed in the section of the refracted section or the branch of the top plate in the process of installing the prefabricated pontoon unit pre-fabricated in a certain size, Float formed of a material floating in water of a certain size; A support plate formed in a disc shape having a predetermined size to be placed on the upper portion of the floating body; A plurality of rotating plates protruding from one side of the support frame in a pair in a circular shape installed on the upper portion of the supporting plate; An upper plate formed in a disc shape having a size corresponding to the support plate and installed on the upper portion of the rotating plate; Assembling means formed between the supporting plate and the upper plate such that the supporting plate, the rotating plate, and the upper plate are assembled and rotated based on the same center; Rotational friction installed between the support plate and the rotary plate, between the rotary plate and the rotary plate, between the support plate and the rotary plate, between the rotary plate and the rotary plate, and between the rotary plate and the upper plate during the rotation operation of the rotary plate, between the rotary plate and the rotary plate. Abatement means; And The prefabricated girder refracting connection unit, characterized in that it comprises a top plate connecting bracket that is installed at the end of the connecting frame of each of the rotating plate is connected to the prefabricated bridge unit is connected to the corresponding side by a separate connection means. The shaft assembly of claim 1, wherein the assembly means comprises: a central shaft protruding upward from a central portion of the supporting plate, a shaft hole through which the central shaft is fitted into a central portion of the rotating plate, and an end of the central shaft inserted into a lower surface of the upper plate; Prefabricated refraction connection unit, characterized in that consisting of a groove. [3] The prefabricated pier type refracting connection unit according to claim 2, wherein a bearing made of metal is mounted on the outer peripheral edges of the supporting plate, the rotating plate, and the upper plate as rotation friction reducing means. According to claim 1, The assembling means is a plurality of support shafts fixed to the annular rail is installed in a circular shape on the base plate and the rotating plate and the lower portion of the rotating plate corresponding to the upper portion of the annular rail and a lower portion of the upper plate at a predetermined angle intervals. It is made, the refraction connecting unit for the prefabricated pontoon bridge, characterized in that the rotating plate is configured to rotate on the same axis as the center of the base plate and the upper plate with the lower end of the support shaft is located on the annular rail. According to claim 4, The plurality of support shafts located in the lower portion of the rotary plate and the plurality of support shafts located in the lower portion of the upper plate is formed in the form of the upper end fixed to the ring-shaped mounting ring, respectively, The mounting ring is a rotating plate And Prefabricated refraction connection unit, characterized in that fixed mounting on the lower surface of the upper plate. The method of claim 5, wherein the lower end of the support shaft is a prefabricated bridge refraction connecting unit, characterized in that the roller is mounted or ball shape for reducing friction with the rail. In the pontoon bridge configured to allow people or objects to pass through the water, It consists of a top plate having a predetermined length and width, leg rails arranged on both sides of the top plate, a floating body installed at the bottom of the top plate so that the top plate is floating in water, and a top plate connecting brackets respectively installed at the front and rear of the top plate. Prefabricated bridge units; Disk-shaped support plate, a disk-shaped upper plate installed at a predetermined interval below the support plate, two or more installed between the support plate and the upper plate rotating plate for adjusting the installation angle of the prefabricated pontoon bridge unit, the support plate is water A refracting connection unit comprising a float installed at a lower portion of the support plate so as to be in a floating state, and an upper plate connecting bracket installed at an end of the connection frame protruding from one of the rotating plates; And The plate-shaped key plate is formed so as to face at a predetermined interval while the annular spring is installed between the key plate is a prefabricated articulated pontoon, characterized in that composed of the connecting means for interconnecting the prefabricated pontoon bridge unit and the articulation connection unit . 8. The prefabricated articulated pontoon bridge according to claim 7, wherein the rotating friction reducing means is further provided on the rotating plate so that the rotating plate of the articulation connecting unit rotates smoothly between the support plate and the upper plate. The upper plate connecting bracket installed in the prefabricated girder unit and the articulation connecting unit comprises a plate-shaped mounting plate and a key groove having an upper portion and a front portion opened on the front side of the mounting plate. Prefabricated articulated pontoon bridge characterized in that. The prefabricated articulated pontoon bridge according to claim 7 or 9, wherein a stay of a predetermined length is installed downward in the lower portion of the prefabricated bridge unit and the articulation connection unit, and a weight body having a predetermined weight is installed at the bottom of the stay.

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