KR20130139046A - Removing foreign matter type for watergate - Google Patents

Abstract

The present invention relates to a foreign matter blocking conduction gate installed in various related waterways such as a river or a river to control a flow rate, and prevents foreign matter from flowing into the rear side when the conduction gate is erected.
The present invention is to install a foreign matter blocking plate on the back of the conduction gate to prevent foreign matters from entering the back space of the conduction gate, while the conduction gate is folded while lying on the upper side of the foreign matter blocking plate. It is hinged to the upper side of the back of the gate, and between the back of the conductive gate and the foreign material blocking plate to install a hydraulic cylinder to pull up or push the foreign material blocking plate with the hydraulic cylinder, the conductive gate is up or down, the foreign material blocking plate The lower side of the roller will be installed so that the movement can be made easily.

Description

Removing foreign matter type for watergate

The present invention relates to a foreign matter blocking conduction gate installed in various related waterways such as a river or a river to control a flow rate, and prevents foreign matter from flowing into the rear side when the conduction gate is erected.

The conduction gate is installed in the reservoir or riverway of the river to drain or drain the water while lying down or erected around the lower side. However, the conduction gate is installed at an acute angle with respect to the direction in which the water flows, and the water is conducted. Let it flow over the top of the gate.

In the water flowing over the top of the conduction gate, there are various floats (trees, branches, weeds, garbage, etc.), and these floats flow over the top of the conduction gate and then enter the space formed on the back of the conduction gate. Likewise, when the conductive gate is laid down while the floating material flows into the rear space of the conductive gate, the conductive gate malfunctions due to the floating material, while the hydraulic cylinder for laying or standing the conductive gate malfunctions.

In order to solve this problem, a foreign material blocking plate is installed on the back of the conductive gate with a hinge, but the lower part of the foreign material blocking plate is in close contact with the bottom surface, and the foreign material blocking plate is hinged to the back of the conductive gate to establish a conductive gate. The foreign material blocking plate blocks the rear space of the conducting gate when the conduction gate is erected by being pulled or pushed by the hydraulic cylinder that moves the bottom of the lying down base back and forth. A conductive sluice that can easily remove foreign substances that allows the gate to lie down stably is presented in Korean Patent Registration No. 10-1040322 (Registered on June 02, 2011).

The patent is to allow the foreign matter blocking plate to be folded or unfolded as the conduction gate is erected or laid down, and the structure that the foreign matter blocking plate is erected and laid down as the conduction gate is erected and laid down is complicated, and it is not easy to ensure stable operation. Was.

Republic of Korea Patent Registration 10-1040322 (2011. 6. 02 registration)

The present invention is to prevent foreign matters from accumulating in the back space of the existing conduction gate, and to solve the malfunction caused by the foreign matter when the conduction gate is laid down, conducting the foreign matter blocking plate blocking the foreign matter flowing into the back space of the conduction gate. The foreign material blocking plate is coupled to the upper portion of the gate to operate the foreign material blocking plate while being connected to the conducting gate by a hydraulic cylinder.

The present invention is to install a foreign matter blocking plate on the back of the conduction gate to prevent foreign matters from entering the back space of the conduction gate, while the conduction gate is folded while lying on the upper side of the foreign matter blocking plate. It is hinged to the upper side of the back of the gate, and between the back of the conductive gate and the foreign material blocking plate to install a hydraulic cylinder to pull up or push the foreign material blocking plate with the hydraulic cylinder, the conductive gate is up or down, the foreign material blocking plate The lower side of the roller will be installed so that the movement can be made easily.

According to the present invention, when the foreign material blocking plate is pushed by the hydraulic cylinder, the foreign material blocking plate and the conducting gate are erected, and when the foreign material blocking plate is pulled, the foreign material blocking plate and the conducting gate are laid down. Not only does foreign matter enter the space, but when the conduction gate is laid down, no malfunction occurs.

The present invention is to install a foreign material blocking plate on the back of the conductive gate, but to install a hydraulic cylinder between the conductive gate and the foreign material blocking plate, when the foreign material is pulled toward the conductive gate, the conductive gate is lying down, on the contrary foreign material blocking plate When pushed, the conduction gate is erected, which prevents the introduction of foreign matters only by the rotational structure of the conduction gate, and does not interfere with the laying and standing of the conduction gate.

1 is a cross-sectional view of a state in which the conductive gate of the present invention is upright
2 to 3 are cross-sectional views of the conductive gate of the present invention lying down
4 is a cross-sectional view of a state in which the conducting gate of the present invention is completely laid down
Figure 5 is a cross-sectional view showing a state in which the conducting gate of the present invention is upright and lying down

The present invention is to control the quantity of the conduction gate is installed in the river, it is erected or laid down by the operation of the hydraulic cylinder, various foreign matters are introduced into the back space of the conduction gate is a problem in operation when the conduction gate is laid down. Will occur.

The present invention is to solve this problem, the hinge block is coupled to the upper side of the conducting gate hinge, the foreign material blocking plate to block the back space of the conductive gate, between the back and the foreign material blocking plate of the conductive gate The hydraulic cylinder is installed to open or narrow the gap between the conductive gate and the foreign material blocking plate by the hydraulic cylinder, and the lower part of the foreign material blocking plate is installed with a roller for easy movement along the floor.

The conduction gate of the present invention is installed to rotate the lower side around the hinge, but by having an acute angle toward the direction of water flow to maintain the water pressure as well as possible while adjusting the water level as the conduction gate lying down or standing up.

In the present invention, the foreign material blocking plate has the same width as the width of the conductive gate, and the upper side of the foreign material blocking plate is hinged to the upper side of the rear surface of the conductive gate, and a hydraulic cylinder is installed between the rear surface of the conductive gate and the foreign material blocking plate. On the other hand, when the roller is installed below the foreign material blocking plate to narrow the gap between the conductive gate and the foreign material blocking plate by using the hydraulic cylinder, the roller of the foreign material blocking plate moves to the hinge which couples the conductive gate, and the conductive gate is laid down. At this time, the conduction gate is completely laid down or fully erected by adjusting between the conduction gate and the foreign material blocking plate.

When the conduction gate is erected, the rear space is blocked by the foreign material blocking plate, so that foreign matter does not flow into the rear space of the conduction gate, and the conduction gate is laid on the floor in close contact with the floor.

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

The present invention relates to a conduction gate 10 installed in a river to control the flow rate, the foreign matter blocking plate 20 to block the back space of the conduction gate 10, but the foreign matter blocking plate 20 is conductive When the gate 10 is erected, it is erected together to prevent foreign matter from entering the rear space of the conductive gate 10, and when the conductive gate 10 is laid down, the conductive gate 10 is laid on the bottom surface of the conductive gate 10 by the bottom thereof. Allow them to lie flat on the floor.

In the present invention, the conduction gate 10 is to stack the embankment (1) in the river, and to rotate with an acute angle around the hinge (2), so that the flow rate can be adjusted according to the angle of the conduction gate (10) On the other hand, during the flooding, in the conductive gate to lay the conductive gate 10 to prevent accidents such as collapse of the embankment, it is to install the foreign matter blocking plate 20 to prevent foreign substances from flowing to the rear rear.

In the present invention, the conduction gate 10 is to install the dike (1) is stacked, this installation method is a known method, the present invention is a foreign material blocking plate 20 to block the back space of the conduction gate (10). By installing the above, the upper side of the foreign material blocking plate 20 to the upper side of the rear of the conductive gate 10 is coupled to the hinge 21.

The foreign material foreign matter blocking plate 20 is installed on the upper side to support the rear surface of the conductive gate 10 to distribute the force.

In addition, a roller 22 is installed at the lower side of the foreign material blocking plate 20 to receive less resistance when the foreign material blocking plate 20 moves, and a hydraulic cylinder is provided between the foreign material blocking plate 20 and the conductive gate 10. By installing the 30, the foreign material blocking plate 20 is erected or laid down as the hydraulic cylinder 30 is stretched.

In the present invention, when the cylinder shaft 31 of the hydraulic cylinder 30 is contracted, the gap between the conduction gate 10 and the foreign matter blocking plate 20 is narrowed, and the foreign matter blocking plate 20 is directed toward the conduction gate 10. As pulled out, the conductive gate 10 is laid down.

Contrary to the above, when the cylinder shaft 31 of the hydraulic cylinder 30 is extended, the distance between the conduction gate 10 and the foreign matter blocking plate 20 is widened, and the foreign matter blocking plate 20 is connected to the conduction gate 10. As far away as the conduction gate 10 is erected.

Here, the hydraulic cylinder 30 is coupled to the conduction gate 10 and the foreign material blocking plate 20 by hinges 32 and 33, respectively, and the cylinder shaft of the hydraulic cylinder 30 when the conduction gate 10 is laid down. As the 31 is contracted, the foreign material blocking plate 20 is laid on the bottom surface of the conduction gate 10 so that the conduction gate 10 is laid down, and when the cylinder shaft 31 of the hydraulic cylinder 30 is extended, the conduction gate ( As the 20) is set up, the foreign matter blocking plate 10 is also raised.

The present invention is to prevent the back space of the conduction gate 10 with the foreign material blocking plate 20, to prevent foreign matter from flowing into the back space of the conduction gate 10 in the state in which the conduction gate 10 is up. When the conductive gate 10 is laid down, the conductive gate 10 is positioned at the bottom of the conductive gate 10 so as not to be influenced by the foreign material blocking plate 20 when the conductive gate 10 is laid down.

In the present invention, when the cylinder shaft 31 of the hydraulic cylinder 30 is extended, the gap between the conduction gate 10 and the foreign matter blocking plate 20 is opened, which is the foreign matter blocking plate 20 is the conduction gate 10. It means to be moved to the rear of the, and thus the foreign matter blocking plate 20 pushes back the conductive gate 10 to stand up.

On the contrary, when the cylinder shaft 31 of the hydraulic cylinder 30 is contracted, the gap between the conduction gate 10 and the foreign matter blocking plate 20 is narrowed, which causes the foreign matter blocking plate 20 toward the conduction gate 10. When the foreign matter blocking plate 20 is pulled forward, the conductive gate 10 is laid down.

That is, when the hydraulic cylinder 30 is extended, the conduction gate 10 is erected and at the same time the foreign matter blocking plate 20 which blocks the rear space of the conduction gate 10 is erected, and conversely, when the hydraulic cylinder 30 is contracted The conduction gate 10 is laid down and the foreign matter blocking plate 20 which blocks the rear space of the conduction gate 10 is laid down.

When the foreign matter blocking plate 20 is erected, foreign matter inflow is blocked to the rear space of the conduction gate 10, and when the conduction gate 10 is laid down, the conduction gate 10 is laid flat with the floor, thus causing problems in discharge. There will be no.

In the foreign matter blocking plate 20 of the present invention, the foreign matter blocking plate 20 coupled to the hinge 21 supports the conducting gate 10 by dispersing water pressure while fixing the supporting rod upward.

As such, the present invention prevents foreign matter from entering by installing the foreign matter blocking plate 20 in the rear space of the conductive gate 10, and automatically sets up the foreign matter blocking plate as the conductive gate 10 is set up and laid down. The problem that the conductive gate 10 is not laid down by the foreign material blocking plate 20 when 20) is erected or laid down and the conductive gate 10 is laid down is solved.

1: embankment 2: hinge
10: conduction gate 20: foreign material blocking plate
21: hinge 22: roller
30: hydraulic cylinder 31: cylinder shaft
32,33: hinge

Claims (2)

The foreign matter blocking plate 20 is coupled to the hinge 21 by an upper side of the rear surface of the conduction gate 10, but a support rod supporting the conduction gate 10 is installed above the foreign matter blocking plate 20.
The hydraulic cylinder 30 is installed between the conduction gate 10 and the foreign material blocking plate 20, but the hydraulic cylinder 30 has both sides coupled to the hinges 32 and 33, respectively.
The lower side of the foreign material blocking plate 20 is installed in the roller 22, foreign material blocking conductive gate, characterized in that the roller 22 moves on the floor when the foreign material blocking plate 20 is standing or lying down. The foreign material blocking plate 20 is installed in an area that prevents the rear space of the conductive gate 10, while increasing or narrowing the gap with the conductive gate 10 in accordance with the expansion and contraction of the hydraulic cylinder (30). Foreign material blocking conductive gate, characterized in that the standing or lying down with the conductive gate (10).

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