KR200310517Y1 - Double-closing, bottom-type discharge system - Google Patents

Abstract

The present invention relates to a conducting automatic bogie sluice that doubles and opens the fish, and more specifically, the rotation shaft of the sluice is rotatably coupled to the rotating shaft fixed to the wall and is configured on one side and the other side of the body. It is configured to operate the rotating cylinder to rotate the floodgate, and to configure the upper and lower operating cylinders inside the floodgate to discharge the inflow water through the lower part of the floodgate. It is about.

In the bank of the river is a structure that is configured to open and close the lower part of the gate by the control system constituting the control device for regulating the water gate, and a double opening and closing system that is configured to allow the water gate to fall and stand.

The lower part discharge type sluice of the present invention is installed in rivers, rivers, farms and reservoirs of Yeosu and keeps the water level constant, and the lower part of the sluice serves as the fishery while improving the contaminated water quality. It is about automatic floodgate.

Description

Combined conducting automatic self-locking door with double opening and closing bottom discharge system {omitted}

The present invention relates to a self-contained automatic sluice gate with a double bottom drainage type that is dual-controlled to discharge the inflow to the lower portion of the sluice, and is installed on a beam provided in a river, a river or a reservoir, so that the sluice can be opened and closed with less force. In addition, in order to keep the door closed or open all the time, it is possible to open and close smoothly with little force without having a large force. It is related to the automatic automatic flood gate, and more specifically, the inflow water flowing from the upstream of the stream can be smoothly discharged to the lower part of the flood gate by the role of a double switchgear even if the cylinder operated in the flood gate fails. It is also the structure of the double automatic self-supporting floodgate.

In cities, amusement parks are formed by blocking water to create amusement parks.In rural areas, dams can be piled up with concrete to form agricultural waters, or reservoirs can be constructed to contain water, which may require heavy farming season or drought. In preparation for the times, these days, flood control and industrial or living water are secured by blocking rivers flowing in urban centers and suburban areas.

The dams accumulated in the rivers or rivers are called "underwater bridges", and a part of the submersibles that are opened and opened is called "waterway", and a place for discarding the overflowing water from the reservoir is called "Yeosu-ro". In the present invention, it is referred to as "water channel" below. Automatic floodgates are installed in these waterways to control floods and to automatically control the water supply. In other words, when water flows above a certain level, the automatic floodgate is opened to discharge water until it reaches a certain level, and the lower part of the floodgate acts as a natural fishery. To keep the planned reservoir low.

In the past, most of the water gate to control the low water as described above was to open and close by the work force, but recently, as shown in Utility Model Registration No. 20-0185608, a speed reducer operated by a motor is installed inside the body of the water gate. The pinion gear, which is operated by the power generated when the motor is operated, is configured to engage with the rack gear fastened to the body. When the power generator is operated artificially to generate the power, the gate is automatically operated in the desired direction. There is a way to open or close the system, but the registration proposal has the following major drawbacks.

If the reducer driven by the motor constituted inside the water gate is not operated due to mechanical failure, there is no way to avoid disasters caused by human resources such as flood damage caused by heavy water phenomenon because the water gate does not open during a large flood. .

In particular, if a motor operated by electricity supply fails due to an abnormal short circuit, the method to start the reducer is a structural serious defect that cannot be functioned much by dismantling the water gate and repairing the reducer or motor. It is the way of having a sluice.

In addition, the structure itself of the pinion gear engaged with the rack gear composed of the body is composed so that the sand and the gravel from the upstream can be caught between the rack gear and the pinion gear. It's a serious fault that can't function.

In addition, the automatic opening and closing gate of the method shown in the application number 10-1998-6872 together with the configuration as shown in the application number 10-1998-006871 has a rotating shaft formed on the upper side when opening or closing When maintaining a closed state, there has been a problem in that it is necessary to use a reducer of a complicated structure which is driven over various stages that require a large force and are rotated by a large capacity motor.

That is, the rotating shaft is formed on the upper side of the sluice and its front ends are fastened to the beam so that the sluice is rotated around the rotating shaft. The upper side of the sluice does not change its position and the lower side rises or falls into the circular orbit. To open and close the channel.

Since the rotating shaft that opens and closes the gate is located on the upper side of the gate, the diameter of the rotating shaft needs to be large and the capacity of the reducer and the motor must be large in order to support the weight of the gate and ensure smooth opening and closing. It is.

The reason is that the center of hydraulic pressure applied to the hydrologic gate is on the lower side, but since the supporting shaft is located on the upper side, it must endure the hydraulic pressure transmitted from the lower end of the hydrologic gate to the rotating shaft, and the load of the power transmitted to the upper rotary shaft is This is because it requires a speed reducer and a motor capable of producing a large force in order to deliver the concentrated lower side to raise or lower the gate.

In other words, the automatic opening / closing sluice has a large diameter of the sluice in order to install a large rotating shaft, a large speed reducer, and a motor inside the body of the sluice. In addition to causing water phenomenon, there are structural defects that inevitably lead to heavy weight of the gate.

It is expensive because each part has to be big to manufacture the floodgate, and it is a mechanical structure of complex structure. Therefore, if a sudden failure occurs during flood, the floodgate is stopped and the floodgate is restarted to restart the floodgate. Due to the structural defect that the water gate is automatically operated only when it is approached and repaired by the waterway that the driving device is composed of, the floodgate cannot be repaired when the floodwater is broken at the time of flooding. There is a serious flaw that must be made.

Therefore, if the hydrogear drive fails, there is a serious problem causing large flood damage.

The present invention is to solve the problems as described above, the purpose of the present invention is automatically standing up and automatically conducting water quality improvement of the lower end discharge method to discharge the inflow water from the upstream of the stream to the double and automatic double conduction type automatic It is in providing a floodgate.

The main technical problem is that the inflow water flowing from the upstream of the stream is discharged to the lower end of the sluice and the contaminated water quality is discharged to the lower end of the sluice.

1 is a perspective view of a state in which the inlet water is discharged to the lower end in a state in which the lower end type automatic bogie gate constructed by the present invention is standing up

Figure 2 is a perspective view of a state in which the water is trapped in the state of the bottom discharge type automatic security gate is constructed by the present invention

Figure 3 is a perspective view showing a state in which the lower portion of the automatic discharge automatic discharge door configured by the present invention

Figure 4 is an internal perspective view of the water gate according to the first embodiment showing a state in which the lower portion of the automatic self-supporting gate is conducted in accordance with the present invention

Figure 5 is a perspective view of the inner skeleton of the inner guide bar according to a first embodiment of the present invention

Figure 6 is a side perspective view showing a state in which the water gate [1] of the present invention is inverted

Figure 7 is a cross-sectional view showing a state in which the influent water control plate 30 is rearward in a state in which the water gate [1] of the present invention is standing up.

8 is a cross-sectional view showing a state in which the inflow water control plate 30 seals the lower end passage 110 of the water gate [1] while the water gate [1] of the present invention is inverted.

9 is an airway combined waterway passage [110] formed at the lower end of the sluice [1] with the body of the sluice [1] raised to the upper side of the body [100] after standing up the sluice [1] of the present invention; Showing the state in which the natural form

<Explanation of symbols for main parts of drawing>

DESCRIPTION OF SYMBOLS 1 Sluice 2: Inner cylinder bracket 3: Inner cylinder 4: Cylinder rod 5: Connecting rod 7. Cylinder bracket comprised to body 8. Cylinder comprised to body 9. Cylinder bracket comprised to body 10. Cylinder rod comprised to body 11.Up and down operation guide bar 22.Sluice shaft 23.Slug white paper bracket 24.Flow groove 30.Inflow control plate 31.Indicator member 100.Horizontal or wall 110.Communication for water quality improvement

According to the drawings, the air-conducting automatic floodgate of the lower part which is double-opened and closed by the structure of the double open / close system of the present invention is a conductive automatic floodgate installed in the river, farm water channel, or reservoir channel. It is composed as follows.

1 is a perspective view showing a state of discharging the inflow water flowing in the upstream through the airway passage 110 configured at the lower end of the water gate in the state in which the bottom discharge type automatic guard gate is constructed by an embodiment of the present invention Is,

Figure 2 is a perspective view of a state in which the water trapped in the state in which the bottom discharge type automatic guard gate is constructed by an embodiment of the present invention,

Figure 3 is a perspective view showing a state in which the lower portion of the automatic discharge automatic discharge door configured by an embodiment of the present invention,

Figure 4 is an internal perspective view showing a state in which the lower portion of the automatic discharge automatic discharge door configured by the embodiment of the present invention,

Figure 5 is a perspective view showing the internal skeleton showing the configuration of the inner guide bar [11] that is configured inside the sluice [1] according to an embodiment of the present invention. 7 is a cross-sectional view showing a state in which the inflow water control plate 30 is opened rearward in a state in which the water gate [1] of the present invention is standing up, FIG. 8 is a water gate [1] of the present invention. 9 is a cross-sectional view showing a state in which the inflow water control plate 30 seals the lower passage 110 of the water gate [1], and FIG. 9 shows the body of the water gate [1] after standing up the water gate [1] of the present invention. It is sectional drawing which shows the state in which the combined use water quality improvement passage 110 formed in the lower end part of the water gate 1 in the state which raised to the upper side of the body 100 was naturally formed.

Referring to the configuration of the present invention based on the drawings shown as above as follows.

The sluice [1] is supported by the sluice bracket [23] fixed between the wall or the support 100 based on the sluice [22] of the sluice; The guide bar [11], which serves as a guide when the water gate [1] performs up and down functions, is a number of guide bars [11] starting from the axis of the water gate [22], which is the main component of the water gate [1]. In the present invention, the number of the guide bars 11 is not limited.

Inside the body [100] formed on one side and the other side of the gate [1], each connecting rod [5] coupled to the shaft [22] of the gate is provided on one side and the other side of the gate [1], and the connecting rod [5]. ] Is combined with cylinder rod bracket [9] and white paper, while cylinder rod [10] is combined with cylinder [8], while cylinder [8] is white with cylinder bracket [7] fixed to one side and the other side of body [100]. It is fixed.

The sluice [1] supported by the guide bar [11] is configured in a rectangular shape so that it can be operated up and down from the sluice shaft [22] as shown in Figs. One side and the other side of the lower part of the sluice [1] are composed of elliptical flow grooves [24] necessary for the sluice [1] to operate up and down.

As shown in FIG. 4, the up and down operating system of the water gate [1] using a contraction member which operates the water gate up and down and exerts the function of the waterway passage for water quality improvement [110] at the lower end of the water gate [1]. Consists of:

The inner hollow portion of the sluice [1] is provided with a plurality or two pairs of cylinders [3], the rear end of the cylinder [3] being coupled to the upper side of the sluice [1] by a bracket [2], The lower end part is coupled to the cylinder rod [4] by the white paper bracket [6] provided on the shaft [22].

Thus, as shown in FIG. 4, the expansion and contraction member [2.3.4.6] of the sluice [1] increases the inflow of water from the upper side of the river where the sluice [1] is installed, and at the same time, the cylinder [3] contracts. As the cylinder rod [4] connected to the cylinder [3] is retracted, the water gate [1] is moved upwards, and the lower end of the water gate [1] naturally becomes the discharge passage [110] of the inflow water, and the airway [110] forms naturally. It will be.

The scope of the present invention does not limit the contraction member using a cylinder.

Since the hydraulic pipe line and the automatic control system provided as described above are well-known techniques, the drawings are not shown and description thereof is omitted.

The following describes the principle of operation according to the drawings.

As the inflow of the inflow from the upstream of the river decreases, as shown in FIG. 2 showing the standing state, a certain amount of water is kept inside the sluice [1], and then the inflow of the inflow from the upstream of the river increases. As shown in Fig. 1, the cylinder [3] configured inside the gate [1] is operated and the cylinder rod [4] is retracted while the gate [1] moves upward along the guide bar [11]. The lower part of [1] naturally plays the role of the inflow water discharge passage and the fishery [110], and serves to discharge the inflow water immediately.

The upper side of the conducting automatic guard gate, which is also used as a fishery that repeats the above operation, is always storing a certain quantity.

When the inflow flowing from the upstream of the river is repeated while the above operation is repeated, as shown in FIG. 3, the hydrologic gate [8] is operated by the force of the hydraulic cylinder [8] configured for opening and closing on one side and the other side of the gate [1]. 1] is configured to discharge the stored water stored in the downstream of the river as it is inverted.

In the construction of the hydrological structure of the present invention, in order to have the same structure that can block the water pressure, it is natural to configure the structure to endure strong water pressure by using dynamic applications of various structures. Therefore, structural problems not specified in the present invention are distorted. Even if it belongs to the scope of the present invention will be natural.

In constructing a water gate with such a structure, a water level automatic detection sensor, which is a well-known technology, is formed on a water channel, so that a pressure generating device capable of automatically controlling a water gate at a dike may be configured, and a control room may be constructed. In the general control room, which can be controlled in a comprehensive manner, the hydrological control can be configured to be controlled artificially or automatically according to the climate change or changing situation.

When the installation of the water gate (1) automatically opened and closed as described above is opened and closed artificially due to the manual or automatic control function configured with a pressure generating device (hydraulic unit system) that can automatically adjust the hydraulic cylinder configured in the embankment The gate can be opened or closed manually or automatically.

In addition, in the general control room that can automatically control the water gate at a long distance, the pressure generator installed on the embankment is operated to supply or shut off the hydraulic pressure to the cylinder 27 inside the water gate 1 so that the lower portion of the water gate 1 can be controlled. You can open and close the.

These processes signal that the water pressure required to operate the gate is generated in the controller configured with the pressure generating device in the water level sensor that is automatically detected when the inflow rate increases due to a weather condition such as a sudden flood. Is input to the controller and at the same time the pressure generator is slowly operated, the gate can be opened or closed at the same time.

When power is supplied to the pressure generating device, the pressure generating device rotates, and the pressure generated by the rotational force is transmitted to the cylinder 8, and the water gate 1 is formed by the role of the connecting rod 5 configured together with the cylinder 8. ) Acts to open and close by acting to rotate.

That is, the water gate 1 rotates by the contraction and expansion action of the cylinder to act to be conducted.

Instead of the connecting rod used in the present invention, by using the pinion gear, the helical gear or the worm gear, it is possible to achieve the effect of the present invention even if it is transformed into the linear motion of the gear gear coupled to the cylinder. It is natural that they fall within the scope of their rights.

In addition, the method of configuring the drive shaft, the rack and the cylinder to be installed in a horizontal or vertical direction so that the gate can be opened and closed can also be configured simply by using the method of the present invention. It is natural.

In constructing the automatic self-supporting gate of the lower part discharge type that is configured and operated by the structure of the double opening and closing system of the present invention configured as described above, even when the exemplary mechanical gate is generated due to the failure of the gate which may occur when and when It was designed to prevent artificial disasters in advance. When the water gate of the present invention is installed, it can be opened easily, and even if the water gate is broken, the pressure shut-off device installed with the hydraulic pipe is pressurized. As the hydraulic power is discharged backwards, there is a structural characteristic that can make the standing gate to be opened very easily.

In the prior art, the switchgear of the sluice formed with the motor or the reducer had a serious defect that could not be artificially opened without the deceleration caused by the rotational force, but if the lower pressure type automatic sluice of the present invention was installed, the pressure was manually It is possible to close the floodgates by opening the gate and also to open the gate manually, so there is no worry even if the river floods due to a sudden flood, and it is a structure that can be operated manually even in the event of a power failure. It is a devise without.

Mechanical automatic opening and closing gates using a motor and a reducer used in the prior art had a structural defect that can not be helped by water damage if power failure occurs due to thunder lightning.

The present invention is designed to solve such structural defects, which can be easily opened and closed automatically using hydraulic pressure or pneumatic pressure, as well as designed to be opened and closed manually. If the pressure of the hydraulic pressure is discharged, the structure of the sluice itself is vacuum or hollow, so that it can be automatically opened by water pressure.

In addition, since it can discharge as much inflow water as it flows in through the lower part of the sluice gate, there is a significant action effect to temporarily solve the environmental problem that the stored water rots after a long period of storage. Because the influent is discharged, the lower part of the floodgate has a significant action effect that acts as the fish of fish moving up and down.

In addition, the infrastructure and civil engineering parts that accompany the hydrology of the present invention are also within the scope of the right of the present invention.

Claims (1)

[5.8.9.10], which has a structure of a conductive automatic guard gate installed in a river, a farm channel, or a reservoir of a reservoir, and a hydrogate opening and closing system respectively configured on one side and the other side of a body; A flow shaft 23 fixed between the wall or the support 100; A hydrologic shaft 22 coupled to the flow shaft 23; Guide bars [11], each of which is coupled to an axle shaft [22]; A water gate [1] and a guide bar, which are provided such that the water gate [1] is operated up and down along the guide bar [11] by the shrinkage member system [2.3.4, 6] coupled with the axis of the water gate [22]; A combination of; and The flow grooves [24], each of which is formed in an elliptical shape on one side and the other side of the sluice [1]; to discharge through the lower end passage [110] of the sluice [1] by the amount of inflow from the upstream of the river. In the dual opening / closing system, the lower end of the sluice [1] is configured to act as a natural fishery and the water quality passage [110] by the role of the regulating member system [2.3.4.6] of the sluice [1]. Double bottom drain operated automatic door operated by