KR200386592Y1 - Oil cylinder built-in type over-turnable automatic watergate driving device - Google Patents

Abstract

The present invention relates to a drive device for a conduction gate that allows the conduction gate to be laid or stood up by using a hydraulic cylinder and a wire installed in the channel, and the hydraulic cylinder is operated to be stored in a space formed above the conduction gate. A hydraulic cylinder built-in conductive gate drive device.

The present invention is to install and fix the hydraulic cylinder in the upper space of the conduction gate, to install a two-line feed roller to move left and right by the hydraulic cylinder, and to install a two-line fixed roller and one line fixed roller on both sides of the upper space of the conduction gate After the two-row fixed roller and the one-way fixed roller is installed in the conductive gate of the upper side of the turning roller, the two wires fixed to the bottom of the fixed plate of the hydraulic cylinder passes through the two-row feed roller and two-line fixed roller and one-line fixed roller It is achieved by being fixed to the tension controller via the turning roller, the conduction gate is operated by pulling or releasing the wire to the hydraulic cylinder.

Description

Oil cylinder built-in type over-turnable automatic watergate driving device}

The present invention relates to a drive device for a conduction gate that allows the conduction gate to be laid or stood up by using a hydraulic cylinder and a wire installed in the channel, and the hydraulic cylinder is operated to be stored in a space formed above the conduction gate. A hydraulic cylinder built-in conductive gate drive device.

The conduction gate is installed across the channel, and when the water level is high, it is laid on the floor to adjust the water level and is set up when the water level is low. It is lowering the water level as it is lifted downstream from the upper side.

In order to lay the conduction gate as described above, the gear train is coupled to a drive shaft installed to protrude on both sides of the conduction gate to the lower side or the upper side, and the gear train is driven by the rotational force of the motor to lay the conduction gate, or hydraulic The cylinder is exposed so that the conduction gate can be erected or laid down by the operation of the hydraulic cylinder.

However, when the conductive gate is laid down using a gear train, the length of the conductive gate is long, so that the operation of laying the conductive gate does not occur smoothly unless the conductive gate is rotated by applying the same speed and force on both sides. In the case of using a hydraulic cylinder, the hydraulic cylinder was directly in contact with water, and when oil leaked, it contaminated the water and the problem was that the operation was not performed smoothly due to the dirt.

In order to lay down the conduction gate, a driving device and a power device must be provided on the embankment of the Yeosu channel, and then the power of the power device must be transmitted equally to both sides of the conduction gate. When operating the conduction gate using the installed hydraulic cylinder, the hydraulic cylinder is always exposed, which shortens the service life and is susceptible to external shock.

The present invention can lay down or stand the conduction gate using a single hydraulic cylinder and a wire, but install the hydraulic cylinder in the upper space of the conduction gate so that the hydraulic cylinder is not exposed and one simple conduction gate can be operated. And, evenly applied to both sides of the conduction gate can ensure a stable operation.

The present invention is to install and fix the hydraulic cylinder in the upper space of the conduction gate, to install a two-line feed roller to move left and right by the hydraulic cylinder, and to install a two-line fixed roller and one line fixed roller on both sides of the upper space of the conduction gate After the two-row fixed roller and the one-way fixed roller in the upper conductive gate is installed in the direction switching roller, the two wires fixed to the bottom of the fixed plate of the hydraulic cylinder passes through the two-row feed roller and two-line fixed roller and one-line fixed roller It is achieved by being fixed to the tension controller via the turning roller, the conduction gate is operated by pulling or releasing the wire to the hydraulic cylinder.

The present invention relates to a driving device for laying or laying down the conductive gate 100, wherein the hydraulic cylinder 20 is fixed to the upper space 100 of the conductive gate 100 in the longitudinal direction of the conductive gate 100. The hydraulic cylinder 20 is fixed by the fixing plate 10, and the two-row feed roller 30 is fixed to the hydraulic cylinder 20, but the two-row feed roller 30 is a guide installed in the longitudinal direction of the upper space 110 The wire 25 is fixed to the member 25 and fixed to the bottom of the fixing plate 10 to fix the wire fasteners 11 and 12 fixing the two wires 41 and 42. Two-row fixing rollers 31 and one-line fixing rollers 33 are installed on both sides, and the direction changing rollers 34 and 35 are installed on both sides of the conductive gate 100, but the direction changing rollers 34 and 35 are installed. ) Is positioned above the two-row fixing roller 31 and one-row fixing roller 33, and the conduction crab By installing a tension adjuster 51 and 52 to the support plate 50 in the forward direction of the bit 100 it is configured to be hameuroseo the wires 41 and 42 fixed.

The conduction gate 100 of the present invention is installed across the channel, and the drive shaft 101 is formed on both sides of the lower side so that the conduction gate 100 can be erected or laid about the drive shaft 101, but the conduction gate ( On both sides of the upper portion of the turning rollers 34 and 35 are installed, and the hydraulic cylinder 20 and several rollers are installed in the upper space 110 formed above the conductive gate 100.

The fixing plate 10 is fixed to the upper space 110 of the conducting gate 100, and the hydraulic cylinder 20 is hinged to the fixing plate 10, and a wire fixing device 11 is attached to the lower portion of the fixing plate 10. 12) to fix the tip of the two wires 41 and 42, and a support member 15 supporting the wires 41 and 42 is installed on the fixing plate 10.

In this case, the hydraulic cylinder 20 may be fixed to the fixed plate 10 by using the U bolt 13, and the fixed plate 10 fixes the hydraulic cylinder 20 to transfer two lines from the hydraulic cylinder 20. What is necessary is just to be able to move the roller 30.

The two-row feed roller 30 is fixed to the cylinder shaft of the hydraulic cylinder 20, but the two-row feed roller 30 is inserted into the guide member 25 fixed to the upper space 110 to be transported on the guide member 25. To do so, the two-row feed roller 30 is to be moved left and right by the operation of the hydraulic cylinder (20).

And in the upper space 110, respectively, two-row fixing rollers 31 and one-line fixing rollers 33 are installed on both sides, but the support rollers 32 are installed at the front end of the one-line fixing rollers 33 to fix the wire fixtures 11 and 12. After the wires 41 and 42 fixed to the two pass through the two-row feed roller 30 and the two-row fixed roller 31, one wire 41 passes through the turning roller 34 and the other. The wire 42 passes through the supporting roller 32 and the single row fixed roller 33 and passes through the turning roller 35. The wires 41 and 42 passing through the turning rollers 34 and 35 are Respectively coupled to the tension controller 51, 52 installed to rotate on the support plate 50.

The tension controllers 51 and 52 are coupled to the wires 41 and 42 so that the wires 41 and 42 can be tensioned by tightening the adjustment nuts 53 and 54, and the tension controller 51 is provided. The support rod 55 of the 52 to form a fitting groove 56, the fitting groove 56 is fitted to the fixing bolts 57 so that the tension regulator 51, 52 can be rotated without falling out.

The conduction gate 100 of the present invention is provided with a fishery 120 is provided to provide a passage through which fish can move, but the fishery 120 is a utility model (application number 10-2004-0030741) previously filed by the present applicant Since it is described in detail in the present invention, a detailed description will be omitted.

According to the present invention configured as described above, the two-row feed roller 30 moves left and right by the guide member 25 as the hydraulic cylinder 20 is operated, and the two-row feed roller 30 moves away from the hydraulic cylinder 20. When moving, the wires 41 and 42 are pulled to close the conductive gate 100, and when the two-row feed roller 30 moves toward the hydraulic cylinder 20, the wires 41 and 42 are loosened so that the conductive gate 100 is closed. It will be laid down by its own weight.

The wires 41 and 42 of the present invention go through the two-row feed roller 30 in a state where one end is fixed to the wire fixtures 11 and 12 fixed to the lower portion of the fixing plate 10, and the two-row fixing roller 31 After passing through the two wire feed rollers 31, one wire 41 passes through the direction turning roller 34 fixed to the conductive gate 100 and is fixed to the tension controller 51, and the two wire feeds. The other wire 42 passing through the roller 31 passes through the supporting roller 32 installed in the upper space 110, passes through the single row fixed roller 33, and then rotates the direction turning roller 35 fixed to the upper portion of the conductive gate 100. To be fixed to the tension controller 52, at this time by using the tension controller 51, 52 to keep the wire (41, 42) in a tensioned state.

Here, when the wires 41 and 42 passing through the two-row feed roller 30 are supported by the two-row fixing roller 31, the wires 41 and 42 may be supported by the supporting member 15 fixed to the upper portion of the fixing plate 10. 41) (42) is not hindered to move, the support roller 32 is supported so as not to be disturbed when the wire 42 through the two-row feed roller 30 is caught to the lower part of the single row fixed roller 33 Given.

The state in which the conduction gate 100 is laid down in this state is the state in which the hydraulic cylinder 20 moves the two-row feed roller 30 toward the hydraulic cylinder 20, and in this state, the conduction gate 100 is laid down. Look at the process of building the conduction gate (100).

Although not shown, by operating the hydraulic cylinder 20 by using the hydraulic pressure of the hydraulic generator installed on the bank, moving the two-row feed roller 30 away from the hydraulic cylinder 20, the two-row feed roller 30 is a guide member ( 25 is inserted and moved while pulling the wires 41 and 42 sandwiched between the wire fasteners 11 and 12 and the two-row fixing roller 31, and when the wires 41 and 42 are pulled, they are conducted. The gate 100 is gradually erected, and when the expansion of the hydraulic cylinder 20 is completed, the conductive gate 100 is completely upright.

That is, one side of the wires 41 and 42 is fixed to the fixed tension regulators 51 and 52, and the other side of the wires 41 and 42 is fixed to the wire fixtures 11 and 12 in the upper space 110 of the conductive gate 100. , By moving the two-row feed roller 30 to the hydraulic cylinder 20 to pull the wire 41, 42 will stand the conductive gate 100.

At this time, the wire 41 is connected to the tension controller 51 after passing through the two-row feed roller 30 and the two-row fixing roller 31 and the turning roller 34 in a state fixed to the wire fixture (11), another The wire 42 passes through the two-row feed roller 30, the two-row fixed roller 31, the support roller 32, the one-line fixed roller 33, and the direction change roller 35 while being fixed to the wire fixture 12. Since it is connected to the tension controller 52, it is possible to pull the wire 41, 42 using the two-row feed roller (30).

Thus, in order to lay down the conduction gate 100 again while the conduction gate 100 is set up, the two-line feed roller 30 is moved to the hydraulic cylinder 20 by the hydraulic cylinder 20, and the two-line feed roller 30 Is moved toward the hydraulic cylinder 20, the tension of the wires 41 and 42 is released and the conducting gate 100 is gradually laid down by its own weight.

Here, the tension controller (51) (52) can adjust the tension of the wires (41) and (42) by tightening the adjustment nuts (53) and (54), and rotates as the conduction gate (100) is erected or laid down. While holding the wires 41 and 42, the fixing bolts 57 are fitted into the fitting grooves 56 formed in the support rods 55 of the tension controller 51 to ensure the rotation of the tension controller 51. But it does not fall.

The present invention allows the conduction gate to be installed in Yeosu channel to be simply laid down or erected using a single hydraulic cylinder and wire, but the hydraulic cylinder is installed in the upper space of the conduction gate so as not to be exposed to the outside while simultaneously on both sides of the conduction gate. By pulling with the same force, the conduction gate can be operated stably.

The present invention is because the hydraulic cylinder is installed in the upper space of the conductive gate is not exposed to the outside, it is possible to operate the conductive gate based on a simple structure while preventing the risk of corrosion and damage caused by external impact.

1 is a plan cross-sectional view of the installation state of the present invention

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

Figure 3 is a side cross-sectional view of the installation state of the present invention

Figure 4 is a front sectional view of the main part of the upper space of the present invention

5 is a plan view of the hydraulic cylinder of the present invention

6 is a front view of the hydraulic cylinder of the present invention

7 is a cross-sectional view of the upper space showing the support roller fixed state of the present invention

8 is a cross-sectional view of the upper space showing the hydraulic cylinder fixed state of the present invention

9 is a cross-sectional view of the upper space showing a fixed plate fixed state of the present invention

10 is a cross-sectional view of the upper space showing a fixed state of the two-row feed roller of the present invention

11 is a cross-sectional view of the upper space showing a fixed state of the two-row fixed roller of the present invention

12 is a plan view showing a two-row feed roller operating state of the present invention

13 and 14 are cross-sectional view of the tension controller of the present invention

15 is a cross-sectional view of a state in which the conductive gate of the present invention is standing

Figure 16 is a cross-sectional view of the conductive gate lying down state of the present invention

[Description of Symbols for Main Parts of Drawing]

10: fixing plate 11, 12: wire fixture

20: hydraulic cylinder 25: guide member

30: two-row feed roller 31: two-row fixed roller

34,35: direction change roller 41,42: wire

51,52: tension regulator 100: conduction gate

110: upper space

Claims (3)

The fixing plate 10 is fixed to the upper space 110 of the conduction gate 100, while the hydraulic cylinder 20 is hingedly fixed to the fixing plate 10 while fixing the wire fixing devices 11 and 12 at the bottom thereof. The cylinder shaft of the hydraulic cylinder 20 is provided with a two-row feed roller 30, but the two-row feed roller 30 to move on the guide member 25, two lines on each side of the upper space 110, respectively Fixing roller 31 and one-line fixing roller 33 is installed, and the turning rollers 34, 35 are installed on both sides of the conductive gate 100, and fixed to the wire fixing tool 11, 12. After the wires 41 and 42 pass through the two-row feed roller 30 and the two-row fixed roller 31, the tension regulator 51 coupled to the support plate 50 via the turning rollers 34 and 35. 52) hydraulic cylinder built-in conduction gate drive device characterized in that coupled to. According to claim 1, wherein the support roller 32 is provided in front of the single row fixed roller 33 installed in the upper space 110 of the conductive gate 100, the wire 41 (top) of the fixed plate (10) 42. A hydraulic cylinder built-in conduction gate driving device characterized in that a supporting member (15) is provided to support it. The tension adjusting device (51) (52) according to claim 1, wherein the tension adjusters (51) and (52) tighten the wires (41) and (42) by tightening the adjustment nuts (53) and (54) while fitting grooves (56) at the tip of the supporting rod (55). ), And the fitting groove 56, the hydraulic cylinder built-in conductive gate drive device, characterized in that the fitting bolt 57 is coupled to each other.