KR101405096B1 - Oil pressure type movable that under low water is discharged - Google Patents

Abstract

The present invention relates to a movable weir capable of discharging bottom water, which discharges bottom water downward by opening and closing a rotary floodgate connected to a movable panel, without having any adjustment of the angle of the movable panel, thus ensuring the contained water level and preventing the corruption of river and the destruction of ecosystem. According to the present invention, an oil pressure type movable weir, which adjusts the quantity of water contained in river by adjusting the angle of a movable panel through oil pressure type cylinders, includes a bottom water discharge hole formed on the movable panel to pass through the lower end of the movable panel; a watertight pad disposed along the periphery of the bottom water discharge hole; a rotary floodgate which is installed on the backside of the movable panel to be in watertight contact with the watertight pad to open and close the bottom water discharge hole and rotates around a shaft of a pinion roller; a driving cylinder having a rod with an end connected to the rotary floodgate to be rotatable and a cylinder body with an end installed on the backside of the movable panel to be rotatable; a support unit which is integrally formed on the backside of the movable panel to have an elongated groove in which the shaft of the pinion roller is inserted and to be connected with the end of the cylinder body of the driving cylinder; and a rack gear which is integrally installed on the backside of the movable panel to be engaged with the pinion roller.

Description

Oil pressure type movable under low water is discharged.

According to the present invention, there is provided a movable beam capable of discharging the low-level water, wherein a low-level water outlet is formed in a lower portion of the movable beam panel, and a rotary water gate for opening and closing the low- (Low-level water) and sedimentation sludge to the downstream side of the moving water through the low-water outlet without adjustment, and to discharge the low-level water to maintain the water quality and the water level by discharging the accumulated water to the downstream side of the moving beam.

In general, weir refers to a kind of clam fence that regulates the water level of a river, which is widely used nowadays for playing a vital role in ensuring agricultural, industrial and domestic water supply. In addition, when several beams are installed in the river where the dam can not be installed, the water quantity can be adjusted, and thus it is used as an alternative structure of the middle and large dams.

The types of beams are divided into high information and moving beams, and the fixed gate is constructed in a fixed manner without opening and closing the gate, and the movable gate can be configured to open and close the gate to control the flow of water in various ways.

The movable watch generally functions to close water gates to confine water to rivers, rivers or reservoirs to be used for various purposes, and to open water gates during floods to smoothly flow the water, The function of preventing the backflow of the water flow upstream is also performed.

The movable beam installed in the movable beam to adjust the flow of water in various manners generally includes a movable panel that rotates about the main axis of the lower end portion and a driving portion that rotatably drives the movable panel, A hydraulic cylinder or a pneumatic rubber dam is used to rotate the movable panel so as to be disposed close to the vertical direction so as to be closed (discharge blocked), or to rotate the movable panel so as to be arranged close to the horizontal, (Discharged).

When the fresh water amount is gradually increased due to the inflow water continuously flowing from the upstream side in the state of maintaining the target water level in the conventional operation, the water outside the target water level flows to the upper side of the movable panel and flows toward the downstream side Various deposits accumulate on the concrete located at the lower end of the movable panel, whereby the low-level water at the lower side of the movable panel is not circulated and discharged, resulting in a state in which the low-level water is circulated and corroded.

In order to solve the above problems, a low-layer water discharge pipe is installed in the movable panel, and a method of discharging the low-level water to the rear portion of the movable panel, that is, the downstream direction is used by using the difference according to the level of the fresh water. The structure is a ciphone type according to the fresh water level, and it is necessary to maintain a certain amount of fresh water or to adjust the angle of the movable panel by driving the entire movable panel to artificially adjust the fresh water amount. So that it was difficult to substantially discharge the low-level water.

Registration Utility Model Registration No. 20-0316356 (Jun. 2003) Registration Utility Model Registration No. 20-0333085 (2003.11.03) Patent Registration No. 10-0799359 (2008.01.23) Public utility model public information office 1998-055839 (October 10, 1998)

An object of the present invention is to provide an apparatus and a method for discharging low-level water in a downstream direction through opening and closing of a rotary water connected to a movable panel without adjusting the angle of a movable panel, To provide a beam.

The present invention relates to a hydraulic moving beam in which the angle of a movable panel is controlled by a hydraulic cylinder to regulate a fresh water amount of a river,

A watertight pad provided along the rim of the bottom water outlet; a watertight pad provided on the rear surface of the movable panel so as to be in close contact with the watertight pad to open and close the bottom water outlet, A driving cylinder connected to the rotary gate at a rod end so as to be rotatable and installed at the rear surface of the movable panel so that an end of the cylinder body is rotatable; A support portion integrally formed on the rear surface of the movable panel and having an elongated groove into which the rotation axis of the roller is inserted and connected to the end of the cylinder body of the drive cylinder; and a rack gear integrally provided on the rear surface of the movable panel, .

According to the present invention, the low-level water outlet is formed at the lower end of the movable panel, and the low-level water outlet is opened and closed by the rotating water gate, so that the low-level water can be discharged without adjusting the angle of the movable panel, It is possible to discharge polluted low-level water and sediment to downstream in a clean manner, thereby preventing water pollution.

According to the present invention, it is possible to control the amount of opening and closing of the low-level water outlet by the rotating water gate so that water can flow naturally without congestion, thereby preventing contamination due to stagnant water, thereby stably maintaining the ecosystem , The water of good quality can be taken, and the natural environment due to abundant water can be preserved.

According to the present invention, the discharge direction of the low-level water can be controlled by the rotating water gate, so that scattering (diffusion) of the low-level water discharged from the low-level water discharge port and the sedimentation yarn is prevented, thereby preventing contamination on the downstream side of the movable panel, So that intrusion of sediment yarn and contaminants is prevented to prevent malfunction of the movable panel.

The present invention is characterized in that the pinion rollers located on both sides of the top of the rotary watertight are integrally fixed to one rotary shaft so that the amount of rotation and the amount of movement of the pinion roller moved along the rack gear when the rotary cylinder is rotated by the drive cylinder So that the opening and closing of the outlet port of the low-level water can be accurately performed and the driving cylinder can be prevented from being overloaded because the rotating water gate is not tilted.

The present invention is further provided with a discharge inducing part at the bottom of the bottom so as to be located at the lower part of the low layer water discharge port so as to prevent accumulation of deposits and contaminants on the rear part of the movable panel, And prevention of breakage and noise of the floor base due to water pressure.

1 is an exemplary diagram showing an operating state according to the present invention;
Fig. 2 is a detailed view of part A and part B of Fig. 1
FIG. 3 is a view showing an example in which the present invention is installed
4 is a schematic view showing a state in which the filtration unit according to the present invention is installed;

FIG. 1 is an exemplary view showing an operating state according to the present invention, FIG. 2 is a detail view of part A and part B of FIG. 1, and FIG. 3 is an exemplary view showing a state where the present invention is installed,

The present invention relates to a hydraulic moving beam in which the angle of a movable panel (100) is controlled by a hydraulic cylinder (400) to adjust a fresh water amount of a river,

A watertight pad 20 provided along the rim of the bottom water outlet 10 and a watertight pad 20 formed to contact the watertight pad 20 in close contact with the bottom of the watertight pad 20, A rotary water gate 30 provided on the rear surface 101 of the movable panel so as to open and close the low water outlet 10 and rotated about the rotary shaft 32 of the pinion roller 31, A drive cylinder 40 connected to the end of the rod 41 so as to rotate so that the end of the cylinder body is rotatably mounted on the rear surface 101 of the movable panel, A support portion 50 having an elongated groove 51 to be inserted and connected integrally with the cylinder body 42 of the drive cylinder and integrally formed on the rear surface 101 of the movable panel; And a rack gear 60 integrally provided on the rear surface 101 of the rack gear 60,

The rotary cylinder 40 is rotated around the rotary shaft 32 by the drive cylinder 40 and the rotary shaft 32 is moved along the grooves 51 to rotate the rotary shaft 32 to the low- The water gate 30 is brought into contact with the water outlet 30 so as to maintain the watertightness, thereby opening and closing the low water outlet 10.

The movable panel 100 adjusts the storage amount and the discharge amount of the water while changing the angle of being laid or raised according to the change of the water level of the river or the river. It is installed as possible.

The hydraulic cylinder 400 rotates and drives the movable panel 100 and is connected to the floor base 300 so as to be positioned on the rear side of the movable panel 100 to rotate the movable panel 100. Since the movable panel 100 is rotatably driven by the hydraulic cylinder 400, a detailed description thereof will be omitted.

The low-level water outlet 10 is formed to penetrate through the movable panel 100 so as to be positioned below the movable panel 100, and may be formed in a circular, elliptical, or polygonal shape, and has a rectangular shape .

The position and size of the low-level water outlet 10 are not particularly limited. As shown in FIG. 3, the low-level water outlet 10 is located at a position of 1/2 or less of the standing height of the movable panel (Width, L) in the range of 50 cm to 200 cm, preferably about 80 cm to 120 cm, for maintaining the strength and durability of the movable panel so as to have a height h of 5 to 20 cm, (Not shown).

The watertight pad 20 is made of an elastic and watertight material to contact the rotary water gate 30 to maintain the watertightness between the rotary water gate 30 and the low water outlet 10 when the rotary water gate 30 is driven , And along the rim of the low-layer water outlet (10).

The watertight pad 20 has a protruding pad 21 protruding from the rotary water gate 30 so that the watertightness of the watertight pad 30 with the rotary water gate 30 can be easily maintained. A hollow 22 is formed.

The rotary water gate 30 is brought into close contact with the low water outlet 10 provided with the watertight pad 20 by the drive cylinder 40 to open and close the low water outlet 10 and a rotary shaft 32 And both ends of the rotary shaft 32 are integrally provided with pinion rollers 31. Both ends of the rotary shaft 32 penetrate through the pinion roller 32 and are inserted into the grooves 51 formed in the support portion 50, As shown in Fig.

Both ends of the rotary shaft 32 can be moved up and down along the grooves 51 but are provided in the grooves 51 so as to prevent the back and forth movement in the grooves 51, A lug 34 is integrally formed at one side of the driving cylinder so that the end of the rod 41 of the driving cylinder can rotate.

3, a moving roller 33 may be further installed at the end of the rotating shaft 32 inserted into the groove 51 to move in contact with the groove 51 along the groove 51, as shown in FIG. 3 have.

The pinion roller 31 is rotatably supported on both ends of a rotary shaft 32 connected to the upper end of the rotary water gate 30 so as to be integrally rotated with the rotary shaft 32 and to be fixed to the rack gear 60 provided on the rear surface 101 of the movable panel And is disposed so as not to be in contact with the watertight pads 20 so as to be located outside the watertight pads 20.

When the driving cylinder 40 is driven, the pinion roller 31 adjusts and restricts the rotational angle of the rotary gate 30 and the moving distance of the rotary shaft 32 moving along the grooves 51.

The driving cylinder 40 rotates and moves the rotary gate 30 and is integrally fixed to the upper end of the support portion 50. The end of the rod 41 is formed at the center of one side of the rotary gate 30 Is rotatably connected to the lug (34). At least one of the driving cylinders 40 is connected to the rotary water gate 30. [

The rack gear 60 is mounted on the rear surface 10 of the movable panel so that one side of the pinion roller 31 connected to the rotating shaft of the rotating water can be engaged and moved on both sides of the low- And is fixedly installed.

The supporting part 50 supports the driving cylinder 40 and the rotary water gate 30 so that the cylinder body 42 of the driving cylinder 40 is connected to the upper part of the lower water outlet 10, And a rotating shaft 32 installed on the rear surface 101 of the movable panel so as to be positioned at both upper ends of the upper support table 52 and passing through the pinion roller 31 And a side support portion 53 having grooves 51 into which both ends are inserted and supported.

Even if the rotary shaft 32 is moved in the groove 51 by the drive cylinder 40 the pinion roller 31 connected to the rotary shaft 32 is fixed to the rear surface 101 of the movable panel 60 in parallel with the movable panel 100 so as to maintain the engaged state without being spaced apart from the movable panel 100 in the height direction H of the movable panel.

The elongated groove 51 formed as described above restricts the range of movement of the rotary water gate 30 and also prevents the rotary water gate 30 from contacting the low water outlet 10 provided with the watertight pad 20 by the drive cylinder 40 And a function to transfer the driving force of the driving cylinder to the rotary water gate 30 by supporting the rotary shaft 32 inserted into one side of the rotary water gate 30,

The present invention is further provided with a discharge inducing section 70 formed in the bottom base part 300 so as to be positioned below the low water outlet 10 and having an upper end inclining downward in a downward direction, Water discharge port 10 is provided in the bottom base portion 300 to guide the low-level water discharged through the low-level water outlet 10 and the sedimented yarn 200 to the downstream side so as not to be located within the conduction range of the movable panel 100, And the bottom foundation part 300 is protected from the impact vibration of the sediment yarn 200. [

That is, the discharge induction unit 70 is fixedly installed on the floor base 300 within a range that does not interfere with the rotation range of the movable panel 100, and the low-level water discharged through the low-level water outlet 10 and the sediment yarn 300 To suppress the noise and to protect the floor base 300 from vibration.

4, the filtration unit 80 is further provided on the front side of the movable panel 100, that is, the lower side of the upstream side U.R., so as to be positioned on the front surface of the low-level water outlet. Fig. 4A shows a side configuration in which the filtration unit 80 is installed, and Fig. 4B shows a front (upstream) configuration of the movable beam in which the filtration unit 80 is installed.

The upper end of the filtration unit 80 is hinged to one side of the movable panel so as to be rotatable about a hinge shaft 81. The filtration unit 80 is disposed on the upstream side when the low- The floating float 120 and the foreign substances in the low-level water are prevented from flowing into the low-level water outlet 10 and have a plurality of grate structures.

In other words, when the low-level water outlet 10 is opened, not only the water on the upper stream side flows into the low-stream water outlet but also the swirls on the upstream side water surface area are generated, The filtration unit 80 having a barrel structure is installed on the front surface 102 of the movable panel 100 so as to be positioned on the front surface of the bottom water outlet and rotatable around the hinge axis 81 have.

The filtration unit 80 configured as described above is rotatable by the hinge shaft 81. When a problem (clogging) occurs on the side of the outlet of the low-level water, the filtration unit 80 is disposed around the hinge shaft 81 It is possible to quickly solve the problem caused by lifting up the low-level water outlet, and since the movable panel is normally positioned on the entire surface of the low-level water outlet without the need of a separate device due to the inclination angle and weight of the movable panel, .

The movable panel 100 is vertically erected by driving the hydraulic cylinder 200 so that a predetermined amount of objective fresh water is supplied to the upstream side UR as shown in FIG. The upper surface of the movable panel 100, that is, the lower side of the upstream side (UR), and the lower layer water is discharged in order to prevent the accumulation of the lower layer water stagnation and sedimentation of the movable panel 100 1 (b), when the driving cylinder 40 provided on the rear surface 101 of the movable panel is retracted and driven, the driving cylinder 40 is retracted and driven, 32, the rotary water gate 30 is rotated to open the low water outlet 10. At this time, the rotary water gate 30 is rotated about the rotary shaft 32 by the shrinking drive of the drive cylinder 40, and the pinion rollers 31 provided at both ends of the rotary shaft 32 are rotated along the rack gear 60 The rotary water gate 30 is horizontally moved in the upward direction of the movable panel to open the low water outlet.

At this time, the pinion roller 31 is limited in the operation range of the rotary shaft 32 inserted into the groove 51 of the support portion, that is, the upward movement by the rotary shaft 32 moved in the groove 51.

When the rotary gate 30 is rotated and moved as described above, the low-level water outlet 10 of the movable panel 100 is opened, so that the low-level water positioned below the upstream side UR and the low- (That is, the downstream side LR) of the movable panel through the opening 10.

At this time, since the rotation angle of the rotary gate 30 is adjusted by the driving force of the driving cylinder 40, the opening amount and the discharge angle of the low-level water outlet 10 are controlled by the rotary gate 30, So that contamination of the contaminated bottom layer and sedimentation yarn is prevented.

In order to block the discharge of the low-level water, when the drive cylinder 40 is inflated to expand the rod 41, the rotary water gate 30 is rotated around the rotary shaft 32 by the driving force of the drive cylinder 40 The pinion roller 31 connected to the rotary shaft 32 is moved down along the rack gear 60 and the rotary shaft 31 is moved along the groove 51 by the downward movement of the pinion roller 31, .

When the rotary shaft 31 is moved downward along the grooves 51 as well as the rotary water gate is also moved downwardly by the expansion drive of the drive cylinder 40 to the low water outlet 10 provided with the watertight pads 20, (30) is pressed and attached to close the low-level water outlet (10).

The present invention is not limited to simply rotating the rotary water gate 30 around the rotary shaft 32 so as to close the low water outlet 10 but the pinion roller 31 moved along the rack gear 60, The rotary shaft 32 is moved along the rotary shaft 51 and the rotary gate 30 is rotated about the rotary shaft 32 to close the low water outlet 10 so that the water pressure of the low water It is possible to close the rotary water gate 30 with a small force against the water pressure.

That is, according to the present invention, the lower water outlet is closed by the power and the rotational force in the descending of the rotating water door, so that the driving cylinder having a small capacity can be installed.

Further, the present invention is characterized in that a pinion roller connected to both sides of the rotating water door is connected to one rotating shaft, and the pinion roller is moved along the rack gear, and when the driving cylinder is contracted or expanded, So that the rotary water gate can be rotated and moved without tilting to enable accurate opening and closing of the low water outlet.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

(10): low water outlet (20): watertight pad
(21): protruding pad (22): hollow
(30): Rotating water gate (31): Pinion roller
(32): rotating shaft (33): moving roller
(34): lug (40): driving cylinder
(41): rod (42): cylinder body
(50): supporting portion (51): groove
(52): upper support (53): side support
(60): rack gear (70): discharge guide
(80): filtration part (81): hinge shaft
(100): movable panel (101): movable panel rear surface
(110): main shaft (200): low-layer water and sedimentation yarn
(300): bottom base part (400): hydraulic cylinder

Claims (7)

Claims [I] A hydraulic moving beam in which an angle of a movable panel is controlled by a hydraulic cylinder to adjust a fresh water amount of a river,
A low-level water outlet formed at the lower end of the movable panel so as to pass through the movable panel,
A watertight pad provided along the rim of the low-layer water discharge port,
A rotary water gate provided on a rear surface of the movable panel to be in close contact with the watertight pad so as to open and close the low-layer water outlet and to be rotated about a rotation axis of the pinion roller,
A drive cylinder connected to the rotation gate so that the rod end is rotatable and installed at the rear surface of the movable panel so that the end of the cylinder body is rotatable,
A support portion having an elongated groove into which the rotation axis of the pinion roller of the rotation speed contact is inserted and connected to the cylinder body end of the drive cylinder and integrally formed on the rear surface of the movable panel,
And a rack gear integrally provided on a rear surface of the movable panel to be engaged with the pinion roller.
The method of claim 1,
Wherein the watertight pads are formed by protruding protruding pads for contacting the rotating water gates to maintain watertightness.
The method of claim 1,
The rotary gate is provided with a rotary shaft so as to be rotatable at an upper end thereof. The pinion roller is integrally provided at both ends of the rotary shaft. Both ends of the rotary shaft penetrate through the pinion roller and are inserted and supported in the groove formed in the support Which is capable of discharging low-level water.
The method of claim 3,
And movable rollers are provided at both ends of the rotary shaft inserted into the grooves so as to move in contact with the grooves along the grooves in the grooves.
The method of claim 1,
The support portion includes an upper support which is connected to the cylinder body of the drive cylinder and is disposed on the rear side of the movable panel so as to be positioned above the low water outlet and a pinion roller which is installed on the rear surface of the movable panel to be positioned at both upper ends of the upper support, And a side supporting portion formed with a groove into which both ends of the penetrating rotary shaft are inserted and supported.
The method of claim 1,
And a discharge inducing portion formed at the bottom of the bottom portion so as to be located below the low-layer water discharge outlet and having an upper end inclined downward in the downward direction.
The method of claim 1,
The filtration unit 80 is connected to the movable panel 100 by a hinge shaft 81. The filtration unit 80 is installed on the movable panel 100 so as to be positioned on the front surface of the low- Which is capable of discharging low-level water.

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