KR100959092B1 - Swing bridge for automatically intermittence according to water flow - Google Patents

Abstract

According to the present invention, when a pair of swing bridge plates maintains a connected state at a low flow rate, a person can cross the river safely, and in a rainy season, the swing bridge plate can automatically cross the river while being stored as a dike. The present invention relates to a self-regulating swing malfunctioner bridge that prevents drowning as well as prevents drowning by maintaining a disconnected state, and allows a stream to be cleaned.

Flow rate, automatic, intermittent, swing, bridge plate, rotary support, bias, pedestal

Description

Swing bridge for automatically intermittence according to water flow}

According to the present invention, when a pair of swing bridge plates maintains a connected state at a low flow rate, a person can cross the river safely, and in a rainy season, the swing bridge plate can automatically cross the river while being stored as a dike. It is an invention belonging to the technical field of the bridge to maintain the disconnection state to prevent drowning, as well as to facilitate the flow of the flow rate, and to clean the stream.

Generally, small rivers with little difference in depth, small depth, and small widths are provided with stepping bridges for short-term use by residents and students.

The stepping bridge is made by stacking a large number of large natural stones, or by stacking a stack of sand containing sand. The lower ground surface of the natural stone used as is easily lost, so that the stepping into the water surface of the river often occurs because the step of installing the stepping stone using the natural stone again.

Therefore, in recent years to improve the above-mentioned disadvantages to form a formwork in the river and by the concrete molding to cast concrete therein was to produce a stepping bridge 2 having a certain weight as shown in FIG.

However, the stepping-edge bridge made in this way vertically blocks the flow of the river, causing frequent collapse in the season when the amount of flowing water is high, and the fish living in the river cannot move freely upstream and downstream. The flow is impaired, which implies improvements in the stream's purification capacity.

In addition, even though the water in the river overflows the bridge and reaches a dangerous level, people do not need to pay attention to safety and are frequently drowned by rapids while crossing the river through the bridge. This creates the hassle of having to take follow-up measures to keep them from crossing.

In addition, as the foreign matter is caught on the bridge, the flow of the flow is obstructed and the river overflows or the load is continuously transferred to the bridge.

The present invention is to actively solve the problem requiring improvement from the small river bridge according to the prior art described above, when the flow rate is a pair of swing bridge plate on the upper side of the water surface is not affected at all The pair of swing bridge plates are kept in the bank while swinging by a strong flow force during the rainy season, and the flow rate decreases and the flow force applied to the swing bridge plate is lost. The problem of the invention is to maintain the connection automatically while the swing operation to its original state by its own weight.

The present invention is a means for actively solving the above problems is embedded in the bridge plate storage portion formed in the bridge plate on both side banks, swings selectively connected or disconnected while automatically swinging operation according to the flow rate to the bias rotation support A bridge plate is installed, and a technique for installing a bridge plate pedestal for simultaneously supporting a pair of swing bridge plates in the center of the river between the embankments is devised.

In addition, the present invention is rotatably coupled to the pivot holder attached to the bridge plate pedestal rotatable to the bottom of the river, the bridge plate pedestal automatically to fall or stand up according to the flow rate to the pivot shaft to have a function Develop techniques for installing torsion springs.

In addition, the present invention indents the lock bar guide groove in the upper surface of the embankment, and the lock bar seated in the locking bar guide groove is devised a technique for selectively locking the swing bridge plate of the connected state does not swing.

In addition, the present invention forms a swing support on the bottom of the swing bridge plate, and the transfer roller formed on the lower end of the swing support takes a technique to guide the movement along the guide rail installed on the bottom surface of the river.

According to the present invention, the swing bridge plate of the present invention is connected to the injured state on the upper side of the water flow when the flow rate is small, so that the person can safely cross the river as it is not affected by the flow velocity and maintains its rigidity. As the fish moves up and down naturally, it preserves the natural ecosystem, flows very smoothly, and there is no jamming of foreign substances, so that the stream can be cleaned cleanly.

In addition, according to the present invention, in a rainy season with a large amount of flowing water, the swing bridge plate is operated by a powerful flowing water while being stored in the embankment and kept disconnected from each other, so that a person does not cross the river without drowning and safety without taking any safety measures. The accident is prevented in advance, and the resistance load transferred to the swing bridge plate is very small, thereby providing an effect without fear of collapse and loss.

In addition, when the flow rate applied to the swing bridge plate is lost as the flow rate decreases, the swing bridge plate automatically swings by the weight that concentrates on one side and restores the connected state to provide a condition for crossing the river.

It will be described a preferred embodiment for implementing the solution of the problem to be solved by the present invention in more detail.

Looking at the general technical configuration according to the accompanying drawings according to the preferred embodiment of the present invention, the bank 10 is formed on both sides of the river (1) and the bridge plate receiving portion 11 is formed on the inner side upper portion; A bias rotation support 20 embedded in the bottom surface of the bridge plate accommodating portion 11 inclined downward toward the river 1; A pair of swing bridge plates (30) rotatably coupled to the bias rotation support (20), the eccentric shaft (31) formed at one side of the lower surface and facing horizontally toward the river (1); A bridge plate pedestal 40 installed at the center of the bottom surface of the river 1 and simultaneously supporting a pair of swing bridge plates 30 in the insertion groove 42 formed on the upper side thereof; A swing support 61 provided with a feed roller 62 is attached to a bottom surface of the swing bridge plate 30, and the feed roller 62 is an arc-shaped guide rail 65 installed on the bottom surface of the river 1. It can be seen that the organic coupling configuration of the swing guide means 60 to guide the movement along.

Hereinafter, the present invention having the above-described schematic configuration will be described in more detail for facilitating the implementation.

First of all, the present invention stably stores the swing bridge plate 30 in a rainy season with a large amount of water in the upper portion of the inner side facing in using the concrete on both sides of the river (1) when placing the embankment (10) The bridge plate accommodating part 11 is recessed.

On the bottom surface of the bridge plate accommodating portion 11, a bias rotation support 20 having a bearing 21 for supporting the swing bridge plate 30 to be rotatably installed is embedded.

At this time, the bias rotation support 20 is a technical feature that is installed inclined downward while going toward the river (1) as shown in Figs. 2 and 3, the reason for installing the bias rotation support 20 inclined as described above is swing by flow The swing bridge plate 30, which was operated and accommodated in the bridge plate storage unit 11, maintains the eccentric shaft 31 inclined at all times by the bias rotation support 20 so that even if no separate power is used, the swing bridge This is to allow the load of the plate 30 to be restored to its original state while automatically swinging by its own weight while concentrating toward the river 1.

Such a pair of swing bridge plate 30 is the eccentric shaft 31 is eccentrically installed on one side bottom surface, the fitting protrusion 32 formed on the lower end of the eccentric shaft 31 is a bearing of the bias rotation support 20 ( 21 through the installation of the swing bridge plate 30 is not normally applied to the swing bridge plate 30, the swing bridge plate 30 is maintained in the interconnected state as shown in Figure 1, a person can cross the river (1) Will be.

In addition, the eccentric shaft 31 is coupled to form an orthogonal state with the bias rotation support 20 as shown in Figure 3 to maintain the overall inclined state so that the load of the swing bridge plate 30 to the other side of the eccentric shaft 31 As it concentrates more, the swing bridge plate 30 may be more smoothly restored to its original state after being stored in the embankment 10.

In addition, the hydraulic pressure plate 35 is additionally installed on the bottom of the swing bridge plate 30 so that the flow rate increases during the rainy season, while the hydraulic power is concentrated on the hydraulic plate 35, the bridge smoothly swings while operating. In addition to providing the effect of being accommodated in the plate accommodating portion 11, the hydraulic plate 35 can serve as a function of advertisement and promotion by describing various phrases and the like as shown in FIG.

On the other hand, the pair of swing bridge plate 30 to maintain the interconnected state is expected to be hit down as the length is made long, so in the present invention, the foundation concrete 41 is poured in the center of the bottom surface of the river (1), The bridge plate pedestal 40, which is formed so that the insertion groove 42, which simultaneously supports a pair of swing bridge plates 30 in a state where the pair of swing bridge plates 30 are fitted, is installed upright. 40 is formed by forming a natural aquatic insects such as water seals, etc. to perform the role of supporting the swing bridge plate 30, as well as to exhibit the function of the sculpture.

Such bridge plate pedestal 40 serves to support the swing bridge plate 30 in an upright state when the flow rate is low, while in the rainy season to prevent the loss by falling flat forward by the flow force, and the flow rate is When it is less, it is equipped with a stand function to stand up automatically.

In this configuration, a pivot holder 43 is attached to the bottom of the bridge plate pedestal 40, and the pivot holder 43 is disposed outside the pivot shaft 44 buried in the foundation concrete 41 of the river 1. It is freely coupled to the torsion spring 44, the torsion spring 45 is fitted to both ends of the torsion spring 45 is embedded in the bridge plate pedestal 40 and the base concrete 41, respectively, bridge plate pedestal ( 40 exhibits an elastic restoring force that is automatically restored after falling to the front, and the bridge plate pedestal 40 maintains an upright position on the bottom surface adjacent to the pivot holder 43 so as not to fall backwards anymore. The weight 47 serving to support is formed integrally.

In addition, the bridge plate pedestal 40 is a water tank 48 is filled with water so that the water flows to maintain the fall state does not occur until the flow rate is reduced after turning forward while the water flows in the rainy season with high flow rate 42 is formed on the other side, and when the flow rate decreases, the drain hole 48a is formed on the bottom surface so that the water filled in the water tank 48 is easily discharged to the outside.

In addition, a pair of swing bridge plates 30 are inserted into the insertion grooves 42 of the bridge plate pedestal 40, but a stopper 49 is installed to prevent excessive swinging backwards. The plate 30 is always kept in a straight state so that it is very easy for a person to cross the river 1, and the inner side of the stopper 49 stabilizes the swing bridge plate 30 made of metal with magnetic force. The magnetic fixture 50 containing the magnetic material 51 to hold the screw is coupled.

Therefore, the magnetic body 51 fixes the swing bridge plate 30 in a connected state by using magnetic force without flow, and the magnetic stopper 50 moves in accordance with the rotation operation while the distance from the swing bridge plate 30 is increased. By being adjusted, the magnetic force of the magnetic body 51 can be freely controlled.

In the present invention as described above, the swing bridge plate 30 is swing-operated to be stored in the bridge plate accommodating part 11 to maintain the disconnected state or to be restored to its original state in the stored state. Swing guide means 60 having a complex function to support the swing bridge plate 30 as well as more smoothly and smoothly swing operation in the process of maintaining is provided.

The swing guide means 60 for this purpose is a swing support 61 is attached to the bottom of the swing bridge plate 30, the lower end of the swing support 61 is provided with a feed roller 62, this feed roller 62 ) Is seated on the guide rail 65 installed in an arc shape on the bottom surface of the river (1) to provide a stable support for the swing bridge plate 30, while at the same time smoothly guide the swing operation.

On the other hand, the present invention is further provided with a bridge plate swing prevention means 70 as a way to cross the river more safely by preventing the flow of the swing bridge plate 30 in the connected state when the flow rate is small.

That is, the bridge plate swing preventing means 70 is formed in the upper surface of the bank 10, the lock bar guide groove 71 for guiding the vertical movement of the lock bar 72 is recessed, the lock bar guide groove 71 The lock bar 72 seated at the lock locks the swing bridge plate 30 to prevent the swing operation or enable smooth swing operation of the swing bridge plate 30 while unlocking.

The lock bar 72 is coupled to the support shaft portion 73 bent downward on one side to penetrate the bank 10 to expose the bridge plate storage portion 11, the lower end of the support shaft portion 73 A break prevention prevention device 74 is formed to prevent the lock protrusion 75 bent downward to the other side and is inserted into the locking hole 76 formed in the swing bridge plate 30 to prevent the swing of the swing bridge plate 30. You can do it.

At this time, the lock protrusion 75 is automatically turned on and off by a buoy 77-3 moving up and down according to the increase and decrease of the water level due to the flow rate, so that one-stop automation can be implemented without requiring a separate manpower. do.

To this end, as shown in FIG. 8, the lock bar operating bar 77 provided with an elastic member 77-1 at the lower end is connected to the side surface of the lock protrusion 75, and the buoyancy guide shaft is installed on the bottom surface of the river 1. In the 77-2, a buoy 77-3 which moves smoothly up and down in accordance with the increase and decrease of the water level is installed.

Therefore, as the water level increases, the floats 77-3 are raised, and the floats 77-3 are automatically moved while the lock protrusions 75 are moved together by pushing the elastic members 77-1 upward. When the water level decreases, on the contrary, when the water level decreases, the ball protrusion 77-3 is lowered, but the lock projection 75 remains in the OFF state until the compressed elastic member 77-1 is restored to its original state, and the water level further decreases. Only after the swing bridge plate 30, which was accommodated in the embankment 10, returns to its original state and remains connected, the lock protrusion 75 can be automatically turned ON while descending.

According to the present invention having such a configuration, it is very easy to maintain and manage the swing bridge plate 30 by selectively interrupting the swing bridge plate 30 automatically according to the flow rate of the flowing water without using a separate manpower.

1 is a plan sectional view of a swing Ojak Bridge to which the present invention is applied

Figure 2 is a side cross-sectional view of the installation state of the present invention

Figure 3 is an enlarged cross-sectional view of the installation state of the present invention bridge bridge plate

Figure 4 is a longitudinal cross-sectional view of the installation state of the present invention bridge plate pedestal

Figure 5 is a longitudinal cross-sectional view of the operating state of the bridge plate pedestal of the present invention

Figure 6 is an enlarged cross-sectional view of the magnetic fixing fixture installed on the bridge plate pedestal of the present invention

Figure 7 is an enlarged cross-sectional view of the locking state of the bridge plate swing preventing means of the present invention

Figure 8 is a front view of the unlocked state of the bridge plate swing preventing means of the present invention

Figure 9 is an example of the installation state of the conventional stepping leg

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

1: River 10: Dike

11: bridge plate housing 20: bias rotation support

30: swing bridge plate 31: eccentric shaft

40: bridge plate support 42: insert groove

48: tank 50: magnetic lock

60: swing guide means 61: swing support

62: feed roller 65: guide rail

70: bridge plate swing preventing means 71: lock bar guide groove

72: lock bar 76: locking hole

77: between lock bar operation 77-3: float

Claims (7)

A levee 10 which is poured on both sides of the river 1 and has a bridge plate accommodating portion 11 recessed on an inner side upper portion thereof; A bias rotation support 20 embedded in the bottom surface of the bridge plate accommodating portion 11 inclined downward toward the river 1; A pair of swing bridge plates (30) rotatably coupled to the bias rotation support (20), the eccentric shaft (31) formed on one side of the lower surface facing the river (1); A bridge plate pedestal 40 installed at the center of the bottom surface of the river 1 and simultaneously supporting a pair of swing bridge plates 30 in the insertion groove 42 formed on the upper side thereof; A swing support 61 provided with a feed roller 62 is attached to a bottom surface of the swing bridge plate 30, and the feed roller 62 is an arc-shaped guide rail 65 installed on the bottom surface of the river 1. Self-regulating swing Ojak bridge, characterized in that consisting of a guide guide (60) to move along the guide. The method of claim 1, Eccentric shaft 31 is an automatic intermittent swing Ojak bridge, characterized in that coupled to orthogonal to the bias rotation support (20) to maintain the overall tilted state. The method of claim 1, The bottom of the swing bridge plate 30 is a self-regulating swing Ojak bridge, characterized in that the hydraulic plate 35 is additionally installed to receive the concentrated water flow to the bridge plate housing 11 to smooth the swing operation. The method of claim 1, Bridge plate pedestal 40 has a rotation holder 43 is attached to the bottom surface, the rotation holder 43 is rotatably coupled to the outside of the rotation shaft 44 buried in the bottom surface of the river (1), the The torsion spring 45 is provided on the rotation shaft 44 to provide the elastic restoring force to the bridge plate pedestal 40, and a weight 47 is integrally formed on the bottom surface adjacent to the rotation holder 43. Self-regulating Swing Ojak Bridge. The method of claim 4, wherein The bridge plate pedestal 40 is provided with a water tank 48 filled with water to prevent the bridge plate pedestal 40, which has fallen on the other side of the insertion groove 42, from occurring immediately, and the bottom surface of the water tank 48 is provided. Self-regulating swing Ojak bridge, characterized in that the drain hole (48a) is formed. The method of claim 1, A stopper 49 protruding from the insertion groove 42 of the bridge plate pedestal 40 to limit the excessive swing operation of the swing bridge plate 30, and the bridge plate pedestal 40 to the inside of the stopper 49. Magnetic clamping mechanism 50 that contains a magnetic material to fix the magnetic force (50) is automatic intermittent swing Ojak Bridge, characterized in that the screw is coupled to the distance adjustable. The method of claim 1, The lock bar guide groove 71 is formed in the upper surface of the embankment 10, and the lock bar 72 seated in the lock bar guide groove 71 has a support shaft 73 bent downward on one side of the bank ( 10 is coupled to expose the bridge plate receiving portion 11 through, and the lock protrusion 75 bent downward on the other side is fitted into the locking hole 76 formed in the swing bridge plate 30 swing bridge plate 30 While preventing the swing operation of the lock protrusion (75), the side of the lock bar (75) between the lock bar operation between the elastic member (77-1) is installed in the lower portion is installed, the elastic member (77-1) is a stream The lock protrusion 75 is moved upwardly or downwardly by the buoy 77-3 which is coupled to the buckle guide shaft 77-2 installed at the bottom of (1) and moves up and down according to the water level increase and decrease. The automatic intermittent type swing malfunction bridge, characterized in that it is further provided with a bridge plate swing prevention means (70) for automatically ON / OFF operation.

Images