KR20010035198A - How to configure automatic sluice using connecting rod - Google Patents

Abstract

PURPOSE: An automatic water gate composing method using a connecting rod is provided to keep the level of water uniformly all the time by installing a submerged weir of rivers, a waste-way bank of a reservoir, or an irrigation canal installed to use the stored water for agricultural or industrial purposes. CONSTITUTION: An automatic water gate comprises a wall or a bank(8) constructed to a submerged weir of rivers, a waste-way bank of a reservoir, a wall of an agricultural watercourse installed for agricultural or industrial purposes, a floodgate(2) in hollow rectangular plate shape, wherein the floodgate is filled with the gas of low specific gravity, a fixed hinge(9) installed on both sides of the upper plate of the floodgate, an upper connecting rod(5) connected with the fixed hinge, a cylinder fixing bracket(11) installed to a bank, a cylinder(4) hinged with the cylinder fixing bracket, an upper connecting rod(5) and a lower connecting rod(6) connected to a cylinder shaft(10), a lower connecting rod bracket(12) fixed to a column(7), and a lower connecting bar(6) hinged with the lower connecting rod bracket.

Description

How to construct automatic sluice using connecting rod {omitted}

The present invention relates to an automatic sluice, and more particularly, it is installed in an underwater channel of a river installed in order to store water for use in agriculture or industrial use, or in a waterway or a related water channel of a reservoir. It is related to automatic sluice that functions to keep the water level within a certain range at all times.

In other words, it is heated by a cylinder operated by an automatic water level sensing sequence that is automatically transmitted by a naturally occurring water pressure during flooding or raining without artificial force, and the gate is automatically operated by a cylinder that automatically operates when the rain is over. It is about an automatic sluice which is configured to close automatically.

Sluices installed in the reservoir of Yeosu in the reservoir, sluices installed in the subsurface of rivers, or agricultural waterways are installed by the sluice to prevent the flooding of water during flooding or raining. As mentioned above, the sluice installed in the river, reservoir or agricultural waterway is installed in most cases by elevating adjustment handles for elevating the water gate up and down on the upper side of the sluice to rotate the elevating control handle to open and close the water gate. However, when the water gate is opened and closed by manpower in this way, a great force is required at the time of opening and closing, and when the water gate is not opened and closed at an appropriate time, it causes flooding of water or fails to drain the water over an appropriate low amount. There is a problem. In the case of underwater floodgates installed in rivers to store water, there were problems that caused tremendous property damage due to the loss of the levee caused by the rising flood level.

In addition, it is a fact that it is unusual to go to open the floodgates made of steel when it rains, and to suffer human injury by being swept into the river by flooding floods.

The present invention, in view of the conventional problems as described above, when the flow rate is introduced from the upstream is closed by the pressure of the cylinder configured on the side of the water gate, the storage process is progressed and the flow rate from the upstream is automatically increased When the pressure generating device operated by the signal of the known level sensor, which is a well-known technology, regulates the operation, the pressure of the cylinder is adjusted, and the water gate starts to open by the water pressure and buoyancy, which drains and keeps the water level within a certain range. It is a technical task to provide automatic flood gates.

1 is a side view showing a closed state of the present invention.

Figure 2 is a side view of the open state of the present invention.

※ Explanation of symbols for main parts of drawings ※

1. White paper 2. Water gate 3. Door frame 4. Cylinder 5. Top connector 6. Bottom connector 7. Column or, support 8. Unmounted or wall 9. Fixed white paper 10. Cylinder shaft 11. Cylinder fixing bracket 12. Connecting bracket

The automatic sluice of the present invention includes a wall formed at a predetermined interval in an underwater beam of a river, a sewage soil of a reservoir, an agricultural water channel and a main body of the sluice [2] in a hollow rectangular plate shape. In addition, the inside of the sluice is filled with a gas that is easy to generate buoyancy, that is, helium gas, and a rotating shaft [1] is provided on both sides of the sluice, so that the reservoir side is perpendicular to the bottom of the channel or is inclined. It is arranged between the walls [8] in the drainage side and the rotation shaft [1] is a hydrological body [2] rotatably coupled to the pillar [7] to form a connecting rod [5] on both sides of the hydrological [2] Fixing white paper [9] is configured to, and the bracket [12] for constituting the connecting table [6] on the front surface of the support [7] is composed of white paper.

At the top of the door frame [3], the bracket [11] for fixing the cylinder [4] is made white with the cylinder [4], and the upper connecting rod [5] and the lower connecting rod [6] are based on the cylinder shaft [10]. It is a structure connected to the cylinder [4].

In the present invention as described above, while the amount of water flowing from the stream upstream of the submerged stream decreases, the water main body is kept closed by the pressure of the cylinder [4] while the water level on the reservoir side is low, and the amount of inflow water increases and the reservoir side is increased. When the water level rises, the pressure in the cylinder [4] is controlled by a signal from the automatic water level sensor, and the pressure generating device is controlled so that the lower part of the hydrologic body rotates to the upper side of the drainage by water pressure and buoyancy to drain. It is a structure of the automatic sluice that is opened and closed by a connecting rod that can maintain the water level on the reservoir side by repeating the above.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings.

Figure 1 is a side view of the closed state of the present invention, Figure 2 is a side view of the open state of the present invention shows a state in which the water gate is opened by buoyancy while the pressure of the cylinder is adjusted.

Directive 8 consists of reinforced concrete structures or metal plates constructed at intervals in the submerged streams of rivers for storing water, the freeway of reservoirs, or related waterways (WR). It is a wall, and a support 7 for supporting the hydrologic main body 2 is vertically fixed to the wall 8.

The sluice main body 2 provided between the walls 8 has a rectangular plate shape, and is filled with a substance such as helium gas, which is easy to generate buoyancy, inside the sluice. The rotating shaft 1 is provided. This hydrological body 2 is made of a material which floats in water or has a structure which floats in water as a hollow structure even if it uses the material which does not float in water. In addition, the structure of the hydrologic door structure, which is mounted to the hydrophilic body at the time of manufacturing and installing the automatic hydrologic gate of the present invention, has a structure capable of resisting the planned storage water level while overcoming the water pressure so as to always adjust the planned storage water level.

The cylinder [4] is composed of the bracket [11] and the white paper at a lower end of the door frame [3] formed with the hydrologic main body 2 at predetermined intervals on the drainage side surface of the hydrological main body 2 at a predetermined angle. do.

The support [7] is composed of a cylinder [4] and a cylinder shaft [10] connected with the lower connecting rod [6] and white paper, and fixed white paper [9] formed on both sides of the upper plate of the sluice [2]. The cylinder shaft [10] and the white paper structure in which the upper connecting rod [5] is connected to the cylinder [4] are structured.

The reason why the cylinder [4] is formed in the door frame [3] of the sluice gate [2] is to maintain the reservoir level by contracting or expanding the cylinder [4] by pneumatic or hydraulic pressure. In this case, when the pressure generated by the automatic pressure generating device operated by the automatic sensing sensor is transmitted to the cylinder [4], the water main body 2 can be easily opened by the pressure generated by the operation of the cylinder [4]. For sake.

Even if the method of operating the cylinder [4] formed on the upper side of the door [4] is changed to hydraulic or pneumatic, it is possible to perform all the functions of opening and closing the water gate of the present invention.

The action of automatically adjusting the water level by the present invention as described above is as follows.

Until the water level on the reservoir side becomes almost equal to the height of the wall 8, the closed state is caused by the pressure of the cylinder [4] formed on the upper part of the door frame [3] formed together with the water main body 2 as shown in FIG. Maintaining the water, the process of water storage is necessary for the underwater stream of rivers, reservoirs of reservoirs, agricultural waterways, etc.

After that, when the water level flows over the height of the wall (8) and the water level flows to the underwater beam of the river, the signal is input to the automatic detection sensor by the flow pressure of the water acting on the hydrologic main body (2). As the device is operated, the pressure of the cylinder [4] pressing the water gate [2] is adjusted, and as shown in FIG. 2, the water main body 2 has a lower portion to the upper portion of the drainage side by water pressure and buoyancy. Rotate to drain. Here, the sluice main body 2 is easily opened by the hydraulic pressure and buoyancy generated while the pressure acting on the cylinder 4 is adjusted, and the lower sluice main body 2 opens to the upper side of the ship side, so that the sluice main body 2 is located on the reservoir side. The cross-sectional area of the water flow formed between the channel and the bottom of the channel is maximized to achieve rapid drainage.

And the opening and closing operation as described above is to be automatically repeated by a continuous operation according to the water level introduced by the automatic water level detection process known in the art so that the water level on the reservoir side is always installed in the river while maintaining the water level in a certain range It is possible to reliably secure the planned storage of the underwater beams.

In addition, because the hydrostatic pressure and buoyancy to be transmitted to the water gate is increased by the role of the hydrologic body composed of low weight, the opening range of the water gate becomes larger.

The manual adjustment position is attached so that the pressure of the cylinder can be manually removed in case of emergency and the water gate can be opened, so that any disaster can be dealt with immediately.

In the present invention, in the method of maintaining and removing the storage level in the above-described manner, there are a variety of methods capable of ensuring or removing the storage level and the opening level by pressing and releasing the water gate [2].

It is natural that the method of maintaining the storage level by reversing the installation angle of the connecting rod or connecting only one connecting rod with the cylinder to maintain the water level by pulling and pushing the water gate is also within the scope of the present invention.

It is natural that the effect of the present invention can be achieved by opening and closing the water gate by reversing the installation angle of the cylinder for pressing and releasing the water gate [2].

In the method of rotating the connecting rod formed on the side of the water gate, a plurality of pinions may be coupled to the lower end of the connecting rod to perform a reduction gear function, or the pinion and the rack may be configured to operate the water gate.

In addition, a member such as a rotary actuator that rotates by hydraulic force can be combined with the connecting rod so that the gate can be rotated.

It is natural that all of these methods fall within the scope of the present invention.

The present invention is an automatic sluice installed in a submersible of rivers constructed for farming or industrial use, when the water level on the low water side is low, the hydrologic main body is kept closed by the pressure of the cylinder, and the water level on the water storage side increases. As the pressure of the cylinder acting on the automatic sensing sensor is adjusted, the lower part of the sluice body rotates to the upper part of the drainage side, and drainage is made. Therefore, by repeating this operation, it is possible to automatically maintain the water level in the upper end of the submerged stream of the river within a certain range. In addition, if the automatic hydrology of the present invention is installed in the reservoir, agricultural farm, etc. It can be repeated continuously.

In addition, in the present invention, since the lower part of the hydrologic main body rotates to the upper part of the drainage side and is operated to open, even when the soil and the like are piled up, it is easy to discharge soil or gravel at the bottom of the water channel close to the hydrologic main body. This is done smoothly.

In addition, it is possible to increase the water pressure applied to the water gate because it is made by increasing the size of the body that constitutes the water gate. With this structure, the opening range of the water gate can be made wider than before.

The greatest advantage that appears when the automatic hydrological gate of the present invention is installed is that the stored water survives without decay because it discharges the water flowing into the river to the lower end of the hydrological gate.

The reason is that all the substances show specific gravity, but the less polluted water is lighter but the more polluted water is heavier and more contaminated at the lower end of the top discharge submerged beam. Since the inlet discharges water into the lower part of the sluice, it is possible to reduce environmental pollution because sediment does not accumulate in the riverbed.

In addition, if the pressure of the piston is adjusted to discharge the inflow to the lower part of the sluice, the lower part of the sluice serves as a natural language, thus playing a central role in restoring the ecosystem.

Whether screw-driven, rack-geared or rope pulled, it is an invention that can prepare for flood damage in advance while ensuring an adequate storage level.

Another effect of the present invention is to make the size of the cylinder constituted on the side of the water gate small to operate the water gate. If the size of the cylinder is made small, the gate can be opened and closed with small power. There is an effect that it is not necessary to largely configure the pressure generating device configured to operate the water gate.

Conventionally, the large size of the cylinder to be operated to operate the water gate was able to be easily operated by a large capacity, but the automatic water gate using the configuration of the present invention has a small capacity of the cylinder and a small capacity of the pressure generating device There is also an effect that can open and close the gate.

Claims (4)

Walls or bodies constructed at predetermined intervals, such as submerged streams of rivers installed for agricultural or industrial use, sedimentary bodies of reservoirs, walls of farms, etc., and bodies of sluices have a vacuum or hollow shape. In the automatic sluice composed of a low-specific gas such as gas filled in the main body of the door; Fixed white paper formed at both sides of the upper plate of the sluice gate; An upper connecting rod connected to the fixed white paper; A cylinder fixing bracket configured in the body; A cylinder connected to the cylinder fixing bracket and white paper; Upper and lower connecting rods connected to the cylinder shaft; A bottom connecting bracket fixed to the support; How to configure automatic sluice with lower bracket connection and white connection The method of claim 1 How to configure the device to operate the gate by installing the cylinder which is configured to open and close the gate in the direction of the support, and the cylinder and the connecting rod in the reverse direction so that the gate can be operated in the reverse direction. How to configure the operation device to operate the water gate by connecting one connecting rod to the cylinder so that the water gate can be operated by using only one connecting rod configured on the side of the water gate Method of opening and closing the water gate by configuring the tool for rotating the connecting rod formed on the side of the water gate by rotating power means using a reduction gear member such as a pinion or a rotary actuator.