KR101109305B1 - Floodgate device - Google Patents

Abstract

PURPOSE: A floodgate device is provided to maintain an open angle and conveniently open/close a water gate without unnecessary double actions when the water gate is opened/closed. CONSTITUTION: A floodgate device(100) comprises a gate frame(10), a water gate(20), a gate opening/closing unit(30), and a gate locking unit(40). The gate frame is installed on bank to form a drain path. The water gate is coupled to the gate frame by a hinge shaft(21) to open/close the drain path. The gate opening/closing unit comprises a connecting link(31) and a hydraulic cylinder(32). The connecting link is protruded to the radial direction of the hinge shaft and a connecting unit is formed on the end of the connecting link. The rod of the hydraulic cylinder is hinge-coupled to the connecting link.

Description

Conductive Gates {floodgate device}

The present invention relates to a conductive sluice, and more particularly, to maintain a constant opening and closing angle even by adjusting the opening and closing angle of the gate to any angle, to facilitate opening and closing of the gate without unnecessary double operation when opening and closing the gate. It is about evangelistic sluice.

In general, in order to use water for intake, agriculture, or industrial water, various kinds of related information such as rivers and rivers are installed with a lot of high information, which is designed to allow water to pass over the upper side of the high information. As time passes, sediments made of harmful substances such as moraine, gravel, twigs, and other wastes accumulate on the bottom of the high information upstream, and especially in the case of the lower deep water, there is almost no flow rate. Corruption is accelerating.

The dredging work is to excavate the sediment of the river or river bottom. However, such dredging work takes enormous cost and long period of time. There is a problem that flows into the downstream as it rises, but rather pollutes the entire water quality. A bigger problem is that the acceleration and dredging of the water pollution can only be repeated once the high information is installed. .

In order to solve this problem, instead of the high information, a water gate having a variable height for adjusting a low water level is installed, and this water gate is called a conductive water gate.

As an example of the conventional conductive hydrogate, it can be found in the "hydraulic conductive hydrology of movable walk" of the Republic of Korea Utility Model Registration No. 20-0434748.

1 and 2 is a view showing an example of a conductive water gate according to the prior art.

Referring to Figure 1, the base portion is fixed to the movable beam, and the inner space is composed of the enclosure divided into two spaces up and down by the partition wall, the enclosure is installed at intervals on both the left and right sides of the base portion A door frame 1 having a discharge port formed between the enclosures; A water gate (3) having an end portion of the rotation shaft (2) penetrated through the enclosure such that an end portion of the rotation shaft (2) protrudes into the lower space of the enclosure; One end is fixed to the bracket (4) installed on the bottom of the lower space of the enclosure so that the outlet can be opened and closed by the ups and downs of the water gate, and the other end is connected to the end of the pivot shaft (2) And a power transmission device, one end of which includes: a hydraulic cylinder for hydrological relief 5 hinged to a bracket 4 fixed to the bottom of the lower space of the enclosure; An operation link (6) of which one end is hinged to the piston rod of the hydraulic cylinder (5) for the sluice relief, and the other end is connected to the end of the rotation shaft (2) of the sluice; It consists of.

In addition, a hydraulic cylinder for a hydrological support 7 is fixedly installed at the bottom of the upper space of the enclosure (compartment wall) so that the front end of the piston rod can be pulled in and out of the back of the hydrologic gate. The guide hole 8 is to be penetrated through the wall surface of one side of the upper space of the enclosure.

In the conventional conducting water gate configured as described above, when the oil supplied by the hydraulic pump is injected into the hydraulic cylinder 5 for the hydrologic relief, the piston rod is extended, and in this process, an operation link fastened to the hinge side connecting end of the piston rod. One side of the operation link is rotated in the other side of the operating link within a certain angle range, as the large torque is applied to the rotating shaft (2) spline-coupled with the operating link, the rotating shaft (2) is fixed to the lower side The gate 3 is standing up slowly.

In addition, when the hydraulic door support hydraulic cylinder (7) installed in the enclosure of the door frame in the state that the water gate is standing up completely, a part of the piston rod protrudes to the rear of the water gate through the guide hole (8) formed in the side wall of the door to the water gate Will be supported.

However, in the conventional conductive gate, the hydraulic gate 7 can prevent the falling of the gate by the hydraulic support cylinder 7 while the gate is fully standing up, but the hydraulic gate standing up at a predetermined angle is not a hydraulic cylinder. When (5) is stopped, the hydraulic pressure or the weight of the gate is acting on the hydraulic cylinder, so if this condition persists, the hydraulic cylinder cannot sustain the extended state and the hydraulic pressure is released from the hydraulic cylinder, so that it cannot sustain the water gate continuously. There was.

In addition, in order to invert the gate again in the state where the gate is completely standing up, the hydraulic support cylinder 7 should be retracted from the guide hole 8, and the hydraulic support cylinder 7 is reversed by the hydraulic pressure applied to the gate. This does not have the inconvenience of the dual operation to be reversed the hydraulic cylinder for the hydrologic support (7) in the state in which the rod of the hydraulic cylinder (5) for advancing forward.

An object of the present invention is to solve such a problem, to maintain a constant opening and closing angle even by adjusting the opening and closing angle of the gate to any angle, to facilitate the opening and closing of the gate without unnecessary double operation when opening and closing the gate. To provide a conductive sluice.

In order to achieve the present invention, the conductive gate according to the present invention, the door frame is installed on the embankment so that the drainage is formed; A water gate coupled to the door frame by a hinge shaft to open and close the drainage channel; Opening and closing hydraulic pressure protruding in the radial direction of the hinge shaft, the connection link is formed in the end portion, the rod end is hinged to the connection link, the water gate is rotated about the hinge axis by the forward and backward movement of the rod A hydrological opening and closing means including a cylinder; And the door frame to prevent the rotation of the hinge shaft to prevent the filling of the hydraulic cylinder for opening and closing by the water pressure and the weight of the water gate is lost by the water gate is opened by a predetermined angle by the water gate opening and closing means to prevent the door from falling. And a sluice locking means installed in the sluice locking means, the driven gear fixed to the end of the hinge shaft, a driven gear coupled to the rotating shaft so as to be rotatable by receiving the power of the driving gear, and the driven gear A rotating shaft rotatably mounted to the bracket so as to rotate, a brake drum coaxially mounted to the rotating shaft and disposed on the side of the driven gear, a brake band coupled to the outside of the brake drum, and a brake band operated by operating the brake band. It includes a control means to prevent rotation.

delete

In addition, the operation means includes a lever that is connected to one end of the brake band, and a hydraulic cylinder for the hydrological lock to the rod end is connected to the end of the lever to arc motion.

In addition, the lever is folded in the center, one end is hinged to the brake band and the other end is also hinged to the bracket, the locking hydraulic cylinder is connected to the center of the folded lever.

In addition, a ratchet bearing is formed inside the brake drum to prevent rotation in one direction.

In addition, a plurality of grooves are formed in the width direction on the inner surface of the brake band.

Conductive water gate according to the present invention, the water lock means for preventing the rotation of the rotating shaft in the extended state of the hydraulic cylinder for opening and closing the water gate to rotate the hinge shaft of the water lock hinged on the door frame formed with the drainage passage is extended By doing so, even when the opening and closing angle of the water gate is adjusted to an arbitrary angle, the opened and closed angle can be kept constant, and the opening and closing of the water gate can be conveniently performed without double operation.

1 is a side cross-sectional view of a conductive water gate according to the prior art.
Figure 2 is a front sectional view of a conductive water gate according to the prior art.
Figure 3 is a perspective view of the conductive hydrograph according to the present invention.
4 is a front view of the conductive sluice in accordance with the present invention.
FIG. 5 is a cross-sectional view taken along the line AA of FIG. 4, in which the gate is standing up; FIG.
FIG. 6 is a cross-sectional view taken along the line AA of FIG. 4, and the gate is inverted.
Figure 7 is an enlarged view of the main portion of the front view of the conductive sluice in accordance with the present invention.
8 is a cross-sectional view taken along the line BB of FIG. 7.
9 is a cross-sectional view taken along the line C-C in FIG.
10 is a cross-sectional view taken along the line D-D of FIG. 7.
11 is a view for explaining a state in which the ratchet bearing is rotated in the conductive water gate according to the present invention.
12 is a view for explaining a state in which the ratchet bearing is not rotated in the conductive water gate according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

Figure 3 is a perspective view of a conductive sluice gate according to the present invention, Figure 4 is a front view of the conductive sluice gate according to the present invention, Figure 5 is a cross-sectional view taken along the line A-A of Figure 4, a view of the standing gate, 6 is a cross-sectional view taken along line A-A of FIG. 4, in which the water gate is inverted, FIG. 7 is an enlarged view of the main portion of the front view of the conductive water gate according to the present invention, and FIG. 8 is line B-B in FIG. 9 is a cross-sectional view taken along the line C-C of FIG. 7, FIG. 10 is a cross-sectional view taken along the line D-D of FIG. 7, Figure 11 is a view for explaining a state in which the ratchet bearing is rotated in the conductive water gate according to the present invention 12 is a view for explaining a state that the ratchet bearing is not rotated in the conductive water gate according to the present invention.

Referring to Figures 3 to 12, the conductive water gate 100 according to the present invention, the door frame 10, the water gate 20, the water gate opening and closing means 30 and the water gate locking means 40.

The door frame 10 is provided on the bank so that a drainage path is formed.

In addition, the door frame 10 is to form a left, right side and bottom surface in the form of steel structure, it is installed to be embedded in the embankment.

The sluice gate 20 is coupled to the hinge shaft 21 on the door frame 10 to open and close the drain.

In addition, the hinge shaft 21 of the sluice 20 shows an example that is installed on the left and right sides of the sluice 20, but is not limited thereto, and various modifications are possible, such as extending one axis long. Do.

The sluice opening and closing means 30 is projected in the radial direction of the hinge shaft 21, the connection link 31 is formed in the connection portion end, the rod end is hinged to the connection link 31, It includes an opening and closing hydraulic cylinder 32 to be rotated about the hinge shaft 21 by the forward and backward of the rod.

In addition, the opening and closing hydraulic cylinder 32 is fixed to the door frame 10 by a bracket.

The sluice locking means 40, after the sluice 20 is erected by a predetermined angle by the sluice opening and closing means 30, the filling oil of the hydraulic cylinder 32 for opening and closing by the hydraulic pressure and the weight of the sluice 20 It is installed on the door frame 10 to prevent the hinge shaft 21 from being rotated to prevent the door from falling down. The prime gear 41, the driven gear 42, the rotating shaft 43, and the brake drum 44, the brake band 45 and the operating means 46.

The motive gear 41 is fixed to an end of the hinge shaft 21 and is rotatably provided by forward and backward movement of the rod of the hydraulic cylinder 32 for opening and closing.

The driven gear 42 is coupled to the rotary shaft 43 so as to be rotatable by receiving the power of the prime mover 41.

The rotation shaft 43 is rotatably installed on the bracket so that the driven gear 42 is rotated.

The brake drum 44 is coaxially installed on the rotating shaft 43 and disposed on the side surface of the driven gear 42.

In addition, a ratchet bearing 44a is formed inside the brake drum 44 to prevent rotation in one direction.

The brake band 45 is coupled to surround the outside of the brake drum 44.

In addition, one end of the brake band 45 is installed in close contact with the bracket, etc., the other end is the lever 46a is hinged.

In addition, a plurality of grooves 45a are formed in an inner surface of the brake band 45 in a width direction, which improves contact force with the brake drum 44 and improves bending when wrapping the outside of the brake drum 44. ㅏ.

The operation means 46 is to operate the brake band 45 to prevent rotation of the brake drum 44, and includes a lever 46a and a locking hydraulic cylinder 46b.

The lever 46a is hingedly connected to one end of the brake band 45.

In addition, the lever 46a, the center is folded, one end is hinged to the brake band 45, the other end is also hinged to the bracket, the locking hydraulic cylinder 46b is the folded lever ( It is connected to the center of 46a).

The hydraulic cylinder 46b for sluice locking is to connect the rod to the end of the lever 46a so as to arc the lever.

Conductive hydrologic gate of the present invention configured as described above, when the hydraulic cylinder 32 for opening and closing the force is transmitted to the connection link 31 to rotate the hinge shaft 21 of the hydrologic gate 20 in the reverse direction As the water rises in the water storage space as 20 stands, and the hydraulic cylinder 32 for opening and closing is contracted, the force is transmitted to the connection link 31 to rotate the hinge shaft 21 of the water gate 20 in the forward direction. The sluice gate 20 may be inverted to discharge the water in the reservoir space.

However, since the hydraulic cylinder 32 for opening and closing is in an extended state when the gate 20 is standing at a predetermined angle, the hydraulic pressure and the weight of the gate 20 are acted on the hydraulic cylinder 32 for opening and closing with pressure. The oil filled in the opening and closing hydraulic cylinder 32 is lost little by little so that the opening and closing hydraulic cylinder 32 can be contracted.

In order to solve this problem, the opening and closing of the hydraulic cylinder 32 may be stopped in the forward direction of the hinge shaft 21.

This is to stop the rotation by locking the rotary shaft 43, which is coupled to the driven gear 41 fixed to the hinge shaft 21 and the driven gear 42 engaged with the hydrologic locking means 40.

That is, the brake drum 44 installed on the coaxial shaft of the rotary shaft 43 is compressed by the brake band 45 by the lever 46a, which is an operation means, and the hydraulic cylinder 46b for locking the water, thereby rotating the rotary shaft 43. Will be prevented.

In other words, when the hydraulic lock hydraulic cylinder 46b for the hydrological lock 20 stands up at a predetermined angle, the lever 46a is circularly moved, and a force is applied to the brake band 45 connected to one side of the lever 46a. In this way, the brake band 45 is compressed on the outside of the brake drum 44 to prevent the conduction of the water gate 20.

At this time, the lever 46a is folded in the center, and bent downward slightly in the horizontal, and fixed by the folding bracket 46c, to improve the pressing force of the brake drum 44 and the brake band 45 is Of course, the lever can be prevented from being released by external force.

In addition, even if the filling oil is lost in the hydraulic lock for hydraulic lock 46b, the lever 46a is not released.

Then, as shown in FIG. 11, the prime mover 41 fixed to the hinge shaft 21 rotates in reverse, and the rotation shaft 43 fixed to the driven gear 42 rotates forward. In this standing state, the ratchet bearing 44a installed in the brake drum 44 connected to the rotating shaft 43 is in a rotatable state.

On the contrary, as shown in FIG. 12, the prime mover 41 fixed to the hinge shaft 21 tries to be rotated forward to prevent the gate 20 from falling in the standing state of the gate 20, and the driven gear 42 Rotating shaft 43 is fixed to the) is to be rotated even if the ratchet bearing (44a) installed in the brake drum 44 is not to rotate.

Although the present invention has been described with reference to one embodiment shown in the accompanying drawings, it will be understood that various modifications and other embodiments are possible to those skilled in the art.

10: door frame 20: sluice
21: hinge shaft 30: hydrological opening and closing means
31: link 32: hydraulic cylinder for opening and closing
40: hydro lock means 41: prime mover
42: driven gear 43: rotating shaft
44: brake drum 44a: ratchet bearing
45: breakband 45a: groove
46: operation means 46a: lever
46b: Locking hydraulic cylinder 46c: Folding bracket

Claims (6)

A door frame installed on the embankment so that a drainage path is formed;
A water gate coupled to the door frame by a hinge shaft to open and close the drainage channel;
Opening and closing hydraulic pressure protruding in the radial direction of the hinge shaft, the connection link is formed in the end portion, the rod end is hinged to the connection link, the water gate is rotated about the hinge axis by the forward and backward movement of the rod A hydrological opening and closing means including a cylinder; And
After the sluice is erected at a predetermined angle by the sluice opening and closing means, the filling oil of the hydraulic cylinder for opening and closing is lost due to the water pressure and the weight of the sluice and the door frame to prevent the hinge shaft from being rotated. It includes an installed hydro lock means,
The hydrological locking means,
A prime mover fixed to an end of the hinge shaft;
A driven gear coupled to the rotating shaft to be rotatable by receiving the power of the motive gear;
A rotating shaft rotatably installed on the bracket to rotate the driven gear;
A brake drum installed coaxially to the rotating shaft and disposed on a side of the driven gear;
A brake band coupled to surround the outside of the brake drum,
And a control means for operating the brake band to prevent rotation of the brake drum.
delete The method of claim 1,
The operation means,
A lever connected to one end of the brake band,
And a hydraulic cylinder for sluice locking for connecting the rod to an end of the lever to arc the lever.
The method of claim 3,
The lever is folded in the center, one end is hinged to the brake band and the other end is also hinged to the bracket, the locking hydraulic cylinder is characterized in that the locking hydraulic cylinder is connected to the center of the folded lever .
The method of claim 1,
The hydrological door is characterized in that the ratchet bearing is formed in the brake drum to prevent rotation in one direction.
The method of claim 1,
A conductive water gate, characterized in that a plurality of grooves are formed in the width direction on the inner surface of the brake band.

Images