KR101894859B1 - erosion control dam - Google Patents

Abstract

The present invention relates to a disassembled and assembled erosion control dam, facilitating a construction period and maintenance and having a new structure. The disassembled and assembled erosion control dam can be assembled by being transported to the spot while a supporter (10), a horizontal bar (20), and a vertical bar (30) are disassembled and maintained by disassembling the supporter (10), the horizontal bar (20), and the vertical bar (30). Accordingly, a construction period and maintenance can be easily secured.

Description

Erosion control dam}

The present invention relates to a disassembly and assembly type four-way dam having a new structure which is easy to construct and maintain.

Generally, the river is provided with a four-way dam to prevent the soil and rocks from flowing downward.

As shown in a number of prior documents including the registered patent 10-1390171 and the registered patent 10-1313868, the four-way dam is constructed to have a variety of shapes and structures, and is installed across the river on the bottom surface of the river.

However, these four-way dams are problematic in construction and maintenance.

Therefore, there is a need for a new method to solve such a problem.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a disassembly and assembly type square dam having a new structure which is easy to construct and maintain.

According to an aspect of the present invention, there is provided a portable terminal comprising: a plurality of support rods (10) spaced from each other in a lateral direction; Includes a plurality of horizontal bars 20 provided with upper and lower fixed tubes 21 and a plurality of vertical bars 30 extending upward and downward and inserted and fixed to the fixed tubes 21, And the vertical bar 30 is inclined upwards to the rear so that the upper end of the vertical bar 30 is positioned rearward relative to the lower end.

According to another aspect of the present invention, the support base 10 includes a support bar 11 arranged such that an upper end of the support bar 11 is inclined upward and rearward, and a support bar 11 extending downwardly in an anteroposterior direction The vertical bar 30 is inclined upwardly to the rear so that the upper end of the vertical bar 30 is positioned rearward and the horizontal bar 20 is located on the upper and lower front sides of the support bar 11 And when the vertical bar 30 is fixed to the horizontal bar 20, the vertical bar 30 is inclined upward to the rear.

According to another aspect of the present invention, the fixed tube body 21 includes a transverse plate 21a extending forward from the front surface of the horizontal bar 20, The distance L from the front surface of the horizontal bar 20 to the rear surface of the vertical plate 21b is determined by the thickness T of the vertical bar 30 in the anteroposterior direction, So that the vertical bar 30 can be moved in the forward and backward directions while being inserted into the fixed tube body 21, and is configured to be positioned at the rear side of the vertical bar 30, And an airbag (50) provided in the inside of the vertical bar (21) to elastically support the vertical bar (30).

According to another aspect of the present invention, there is provided an airbag device comprising: an impact sensing means (40) provided in the vertical bar (30) for sensing an impact generated when a toe or a rock collides with a vertical bar (30) An air pressure sensor 60 provided in the interior of the air bag 50 to sense the air pressure inside the air bag 50 and a controller 60 for receiving the signals of the impact sensor 40 and the air pressure sensor 60, Wherein the control means 100 receives signals of the impact sensing means 40 and the air pressure sensor 60 so that the vertical bars 30 can receive rock signals When it is sensed that a collision has occurred, a first-stage warning signal is output to the manager's wireless terminal 102. When it is detected that the state in which the air pressure inside the airbag 50 is raised to a predetermined air pressure or more is maintained for a predetermined time or more, Stage warning signal to the manager wireless terminal 102 The decomposition-built check dam, characterized in that a lock is provided.

According to another aspect of the present invention, a hinge bracket 22 is provided on the upper surface of the horizontal bar 20, which is the uppermost one of the horizontal bars 20, and the hinge bracket 22 is rotatably coupled An elastic member 80 connected to the pivot 70 and elastically biasing the pivot 70 so as to maintain the state of the pivot 70 extending upward; And a rotation sensing means 90 for sensing the rotation of the rotation table 70 when the rotation table 70 is rotated backward, wherein the control means 100 is connected to the rotation sensing means 90, And a third stage warning signal is outputted to the manager wireless terminal (102) when it is detected that the pivot (70) is rotated backward.

The horizontal bar 20 and the vertical bar 30 are disassembled and can be transported to the site and assembled. The support bar 10 and the horizontal bar 20 can be assembled and transported, And the vertical bar 30 can be separated and maintained, so that the construction and maintenance are very convenient.

1 is a perspective view illustrating a disassembly and assembly type square dam according to the present invention,
FIG. 2 is a side cross-sectional view showing a disassembly and assembly type four-way dam according to the present invention,
3 is a front view showing a disassembly and assembly type square dam according to the present invention,
4 is a perspective view illustrating a disassembled and assembled four-way dam according to a second embodiment of the present invention,
5 is a side sectional view showing a second embodiment of a disassembly and assembly type four-way dam according to the present invention,
FIG. 6 is a plan view showing a coupled state of the vertical bar according to the second embodiment of the disassembly and assembly type four-way dam according to the present invention,
7 is a circuit configuration diagram of a second embodiment of a disassembly and assembly type four-way dam according to the present invention,
8 is a reference view showing an action of the second embodiment of the disassembly and assembly type four-way dam according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 to 3 illustrate a disassembly and assembly type four-way dam according to the present invention. The disassembly-type four-way dam according to the present invention includes a plurality of support rods 10 spaced apart from each other in a lateral direction, And a plurality of vertical bars 30 extending upward and downward and inserted and fixed to the fixed tube body 21. The vertical bars 30 are formed by a plurality of horizontal bars 20 having a fixed tube body 21 having upper and lower ends opened on the front surface, do.

The support base 10 is composed of a support bar 11 extending in the vertical direction and an auxiliary support bar 12 extending downward and inclined downward in the front and rear direction at the front and rear sides of the middle portion of the support bar 11.

At this time, the support bar 11 and the auxiliary support bar 12 are made of a rectangular metal bar, and the lower end is fixed to the bottom surface of the river.

The vertical bar 30 is inclined rearward upward so that the upper end of the vertical bar 30 is positioned rearward.

The horizontal bar 20 is formed of a pair of rectangular metal bars, and is bolted and fixed to the upper and lower front surfaces of the support bar 11 so as to be spaced apart from each other in the vertical direction.

The fixed tube body 21 includes a horizontal plate 21a extending forward from the front of the horizontal bar 20 and a vertical plate 21b extending laterally and having both ends connected to the front end of the horizontal plate 21a, .

The vertical bar 30 uses a rectangular metal bar extending in the vertical direction, and is inserted into the fixed tube body 21 and fixed by bolts.

Therefore, when the soil or the rock flows down along the river, the soil or the rock is caught and stopped on the front surface of the vertical bar 30 to prevent the soil or the rock from flowing down to the downstream.

The disassembly and assembly type four-way dam constructed as described above can be transported and assembled in the state of disassembling the support bar 10, the horizontal bar 20 and the vertical bar 30, and the support bar 10, the horizontal bar 20, Since the vertical bar 30 can be separated and maintained, the construction and maintenance are very convenient.

4 to 8 illustrate another embodiment according to the present invention. As shown in FIG. 6, the fixing tube 21 is disposed on the rear side of the vertical plate 21b from the front of the horizontal bar 20, Of the vertical bar 30 is longer than the thickness T of the vertical bar 30 in the anteroposterior direction of the vertical bar 30, Be configured to be

The vertical bar 30 is provided with an impact sensing means 40 for sensing an impact generated when the rock or the like strikes the vertical bar 30, An airbag 50 provided inside the fixed tube 21 to elastically support the vertical bar 30 and an air pressure sensor 50 provided inside the airbag 50 for sensing the air pressure inside the airbag 50, A rotary table 70 rotatably coupled to the horizontal bar 20 located at the uppermost one of the horizontal bars 20 so as to be rotatable in forward and backward directions and a rotary table 70 connected to the rotary table 70, A rotation sensing means 90 for sensing the rotation of the rotation table 70 when the rotation table 70 is rotated backward and a rotation sensing means 90 for sensing the rotation of the rotation table 70, And a control means (100) connected to the air pressure sensor (60) and the rotation detecting means (90).

The shock sensing means 40 uses a vibration sensor provided on the rear side of the vertical bar 30 so that the soil or rock flowing along the river collides with the vertical bar 30, And outputs a signal to the control means (100).

The air bag 50 is made of a synthetic resin material having a high strength so that the vertical bar 30 is elastically retreated rearward as the soil or rock flowing along the river is compressed when it collides against the vertical bar 30 Thereby preventing the vertical bar 30 from being damaged by the impact generated when the soil or rock collides against the vertical bar 30.

The air pressure sensor 60 is provided inside the airbag 50 and is configured to output a signal to the control means 100 when the air pressure inside the airbag 50 rises above a preset air pressure.

The pivot 70 includes a laterally extending horizontal portion 71 and a vertical portion 72 extending downward from both ends of the horizontal portion 71. The lower end of the vertical portion 72 And is coupled to the hinge bracket 22 provided on the upper surface of the horizontal bar 20 by the hinge pin 73 so as to rotate backward while extending upward.

To this end, the hinge bracket 22 is provided with a stopper 22a which is in close contact with the front surface of the vertical part 72 and supports the pivot 70 so as to prevent the pivot 70 from rotating forward.

The elastic member 80 is coupled to the periphery of the hinge pin 73 and has one end fixed to the vertical part 72 and the other end fixed to the hinge bracket 22 to forward the pivot 70 Use a torsion spring to elastically press.

The rotation detecting means 90 uses a limit switch provided on the hinge bracket 22 so that the rotation pivot 70 is pivoted rearward and the push button 91 provided in the rotation detection means 90 is rotated, And outputs a signal when it is pressurized.

The control means 100 receives signals from the impact sensing means 40, the air pressure sensor 60 and the rotation sensing means 90 and wirelessly communicates with the manager wireless terminal 102 via the wireless transmitter 101 Data communication is made possible.

The manager wireless terminal 102 uses a smart phone or other dedicated terminal 102 capable of receiving and displaying signals transmitted from the control means 100.

At this time, the control means 100 receives a signal of the impact sensing means 40, and when it is detected that the rock has collided with the vertical bar 30, the control means 100 sends a first stage warning signal to the manager wireless terminal 102 Output.

That is, when a small amount of soil or rock flows along the river and collides with the vertical bar 30, the control means 100 outputs a first stage warning signal to the manager's wireless terminal 102, Make sure you can identify yourself.

The control means 100 receives the signal of the atmospheric pressure sensor 60 and if it is detected that the state in which the atmospheric pressure inside the airbag 50 is raised to the predetermined atmospheric pressure or more is maintained for a predetermined time or more, Stage warning signal to the wireless terminal 102 for the first time.

That is, when the toe or rock is simply collided with the vertical bar 30, the airbag 50 is compressed and absorbs the impact of the vertical bar 30 and then inflates again, so that the air pressure inside the airbag 50 It is temporarily raised.

8, when the vertical bar 30 is pushed backward by the rock or the like, the airbag 50 is pushed backward, The air pressure in the air bag 50 is raised to a high level.

Therefore, maintaining the air pressure in the airbag 50 at a predetermined level or higher means that a large amount of soil or rock is accumulated in front of the vertical bar 30, In this case, the control means 100 outputs a second-stage warning signal to the manager's wireless terminal 102, thereby guiding the manager to confirm and take action.

The control means 100 receives a signal from the rotation detecting means 90 and outputs a three stage warning signal to the manager's wireless terminal 102 when it is detected that the turning table 70 has been rotated backward Output.

That is, the pivot 70 is resiliently biased by the resilient member 80 to maintain the upwardly extending state, so that the pivot 70 is not pivoted rearward as the water flows down.

As shown by the dotted arrow in FIG. 8, when the soil or rock accumulated in front of the vertical bar 30 flows over the upper end of the vertical bar 30 to the downstream of the river, The upper end of the pivotal platform 70 is pushed rearward and the pivotal platform 70 is pivoted rearward.

In other words, the fact that the pivot 70 is pivoted rearwardly to the pivot detection means 90 means that a lot of rocks or rocks are piled up in front of the vertical bars 30, In this case, the control means 100 outputs a second-stage warning signal to the manager's wireless terminal 102 so that the manager confirms it and takes immediate action .

The vertical bar 30 is configured to be able to flow in the forward and backward directions while being inserted into the fixed tube body 21, and the vertical bar 30 is formed at the rear side of the vertical bar 30, An air bag 50 elastically supporting the vertical bar 30 is provided to absorb the impact applied to the vertical bar 30 when the soil or rock collides against the vertical bar 30, There is an advantage that the vertical bar 30 can be prevented from being damaged due to collision.

An impact sensor 40 is provided in the vertical bar 30 to sense an impact generated when the vertical bar 30 collides with the soil or the rock. A control unit configured to receive signals of the impact sensing unit and the air pressure sensor and to communicate data wirelessly with the manager wireless terminal; The control unit 100 further receives a signal from the impact sensing unit 40 and the air pressure sensor 60. When it is detected that the rock has collided with the vertical bar 30, And when it is detected that the state of the air pressure inside the airbag 50 is raised to a predetermined air pressure or more for a predetermined time or longer, the manager wireless terminal 102 outputs a warning signal to the manager wireless terminal 102, The vertical / horizontal bar 30, There is an advantage that can cope with a Saturday check the status Sanaa rocks piled in front in real time.

The hinge bracket 22 is provided on the upper surface of the horizontal bar 20 on the uppermost side of the horizontal bar 20 and the hinge bracket 22 is pivotally coupled to the hinge bracket 22, An elastic member 80 which is connected to the pivot 70 and resiliently urges the pivot 70 so as to maintain the state of the pivot 70 being extended upwardly and an elastic member 80 which is provided on the hinge bracket 22, The control unit 100 is further connected to the rotation sensing unit 90 so that the rotation sensing unit 90 can be rotated by the rotation unit 70 Is detected to be turned backward, a warning signal of the third level is outputted to the manager's wireless terminal 102 so that the manager can quickly grasp the situation where the rock or the rock is flowing downward over the four-way dam, There are advantages.

10. Support bars 20. Horizontal bar
30. Vertical bar 40. Impact sensing means
50. Airbag 60. Air pressure sensor
70. Rotating table 80. Elastic member
90. Rotation detecting means 100. Control means

Claims (5)

And an auxiliary support bar (12) extending downwardly in a forward and backward direction on the front and rear sides of the middle portion of the support bar (11) A plurality of supports 10 arranged to be spaced apart from each other,
A plurality of horizontal bars 20 extending in the lateral direction and fixed to the upper and lower front sides of the support bars 11 of the support rods 10 and having a fixed tube body 21 opened at the upper and lower ends thereof,
And a plurality of vertical bars (30) extending upward and downward and inserted and fixed to the fixed tube body (21) in an upward sloping manner so that the upper end of the vertical bars (30)
The fixed tubular body 21 of the horizontal bar 20
A horizontal plate 21a extending forward from the front surface of the horizontal bar 20,
And a vertical plate (21b) extending in the lateral direction and having both ends connected to the front end of the lateral plate (21a)
The distance L from the front surface of the horizontal bar 20 to the rear surface of the vertical plate 21b is longer than the thickness T of the vertical bar 30 in the forward and backward directions, And is configured to be able to flow in the forward and backward directions while being inserted into the fixed tube body (21)
And an airbag (50) provided inside the fixed tube (21) so as to be positioned on the rear side of the vertical bar (30) and elastically supporting the vertical bar (30).
delete delete The method according to claim 1,
An impact sensing means 40 provided in the vertical bar 30 for sensing an impact generated when the rock or the like impacts the vertical bar 30,
An air pressure sensor 60 provided inside the air bag 50 to sense the air pressure inside the air bag 50,
Further comprising control means (100) configured to receive signals from the impact sensing means (40) and the air pressure sensor (60) and to communicate data wirelessly with the manager wireless terminal (102)
The control means 100 receives the signals of the impact sensing means 40 and the air pressure sensor 60 and informs the manager wireless terminal 102 of the presence of a collision with the vertical bar 30 Stage warning signal to the manager's wireless terminal 102 when it is detected that the state in which the air pressure inside the airbag 50 is raised to a predetermined air pressure or more for a predetermined time or longer Wherein the damper is provided with a damper.
5. The method of claim 4,
A hinge bracket 22 is provided on the upper surface of the horizontal bar 20, which is the uppermost one of the horizontal bars 20,
The hinge bracket 22 is provided with a horizontal portion 71 extending laterally to be rotatable rearward and a vertical portion 72 extending downward from both ends of the horizontal portion 71, A rotary table 70 coupled to a lower end of the hinge bracket 22 and having a hinge pin 73 for pivoting backward in a state of being extended above the hinge bracket 22,
The hinge bracket 22 is provided with a stopper 22a which is in close contact with the front surface of the vertical part 72 and supports the pivot 70 so as to prevent the pivot 70 from rotating forward,
An elastic member 80 connected to the pivot 70 so as to elastically press the pivot 70 to keep the pivot 70 in an extended state,
Further comprising rotation detecting means (90) provided on the hinge bracket (22) for detecting the rotation of the rotation table (70)
The control means 100 is connected to the rotation detecting means 90 and when it is detected by the rotation detecting means 90 that the pivot 70 is pivoted rearward, And a step warning signal is output from the second sensor.

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