KR100990698B1 - A submerging type dam - Google Patents

Abstract

The beams installed in the width direction of rivers or rivers are raised and lowered so that water can be controlled by blocking or overflowing water in all sections of the beams, and when the beams are not needed, the beams are lowered to the bottom of the rivers. Disclosed is a submersible beam that can be hidden and hidden. In the beam installed in the width direction to block or flow the water of the river or river according to the present invention, in the bottom of the river or river to form an excavation space in the width direction, at least one or more blocks in the excavation space It is installed so as to enter, it is characterized by having a lifting means at the bottom of the block. At this time, one side of the excavation space is provided with a shutter device for closing the open top of the excavation space can be prevented from infiltrating foreign matter such as sand or gravel. In addition, the blocks have a rhombic shape, and the inclined surfaces of both sides may be designed to have the same inclination, so that the hydraulic pressure may be alleviated to the shape of the inclined surfaces. In addition, a guide rod perpendicular to the seating space of the lower block is formed, and a guide groove corresponding to the guide rod is formed on the lower surface of the upper block so that the load by the hydraulic pressure can be more firmly supported when the blocks are elevated. Can be.

Description

Submersible beams {A submerging type dam}

The present invention relates to a beam (물) to block the waterway, such as rivers and rivers, and more specifically, it is possible to control the flow of water by allowing the beam itself to go up and down, and when the beam is not needed, it is lowered into the bottom of the river to hide Lost on submerged beams.

In general, as a structure for blocking waterways such as rivers and rivers, as shown in FIG. By selectively opening and closing the gate (2) to control the water storage.

However, the upstream and downstream of the beam is blocked by the beam, there is a problem that the upstream and downstream movement is not smooth.

In other words, the upstream water is always available only through the water gate in order to flow downstream, and in the case of a ship, which is a vehicle, there is a problem that the source is blocked and blocked.

The present invention has been made in order to solve the above problems, the beam (洑) installed in the width direction of the river or river to be raised and lowered to prevent the water flow in the entire section of the beam can be controlled to the low flow rate It is to provide a submersible beam that can be hidden by lowering the beam into the bottom of the river when the beam is not needed.

The present invention to solve the above problems,

In beams installed in the width direction to block or flow water in rivers or streams,

Forming an excavation space in the width direction in the bottom of the river or river provides a submersible beam, characterized in that installed in the excavation space at least two or more blocks are raised and lowered.

At this time, one side of the excavation space is provided with a shutter device for closing the open upper portion of the excavation space, the shutter device is a cover plate formed on the lower surface of the cover plate while sliding the open upper portion of the excavation space, the lower portion of the cover plate It is preferable that the drive motor is equipped with a fitted Patio gear.

And the block has a rhombic shape, it is preferable that the oblique sides of both sides have the same slope.

In addition, it is preferable that a guide rod is formed in the lower block of the block, and a guide groove corresponding to the guide rod is formed in the upper block.

As described above, the submersible beam according to the present invention can adjust the level of rivers or rivers while descending, and if necessary, settles into the river bed to solve the problem as an obstacle that the beam originally has.

Hereinafter, a submersible beam according to a preferred embodiment of the present invention with reference to the accompanying drawings.

Figure 2 is a side view showing a submersible beam according to the present invention installed in a river or river, Figure 3 is an enlarged cross-sectional view showing the submersible beam according to the invention in detail, and Figure 4 is an underblock, middle block shown in FIG. And a cross-sectional view showing the top block separated.

2 and 3, the submersible beam 100 according to the present invention is installed on the underwater bottom surface of the river or river (R). The submersible beam 100 forms an excavation space 111 deep in the width direction of the river or river in the ground (G). The excavation space 111 is a space where the beam 100 according to the present invention is to be installed to be installed by placing the floor and the wall concrete.

The underblock 120 is seated in the excavation space 111 formed as described above. The underblock 120 has a rhombic shape that narrows as it extends upward, and extends in the width direction of a river or a river like the excavation space 111. The under block 120 has a height that can enter into the excavation space 111, and is formed so that the front and rear, left and right coincide with the excavation space (111). In addition, an under seating space 121 is formed on the upper surface of the under block 120 so that another block is seated.

On the other hand, the first lowering means is installed in the lower portion of the under block 120 so that the under block 120 is raised and lowered in the excavation space (111).

The primary raising and lowering means has a primary hydraulic cylinder 115 mounted on the bottom of the excavation space 111. The primary hydraulic cylinder 115 is fixed to the lower cylinder housing, the rod is stretched is fixed to the fixed end 123 on the lower surface of the underblock 120. Preferably, the primary hydraulic cylinder 115 may be a hydraulic cylinder that is stretched to one end that is commonly used, but it is useful to use a double hydraulic cylinder short and long. In addition, several primary hydraulic cylinders 115 are installed at equal intervals in the longitudinal direction of the excavation space 111 and the underblock 120.

The submersible beam 100 according to the present invention may be used by installing a middle block 130 or a top block 140 on the under block 120.

Here, if only the middle block 130 is installed on the under block 120, the submersible beam 100 according to the present invention is composed of two stages, the top block 140 is installed on the middle block 130 again. If it is composed of three stages. Preferably, the stage may be arranged in more than three stages, but the detailed description and drawings will be omitted.

Therefore, when the submersible beam 100 according to the present invention is configured in two stages, the middle block 130 having a rhombic shape is seated in the under seating space 121 of the underblock 120. At this time, the under block 130 has a corresponding height to enter the under seating space 121, and is formed to match the front, rear, left and right. And the lower portion of the middle block 130, the second lowering means for raising and lowering the middle block 130 is installed.

The secondary lifting means, like the primary lifting means, the cylinder housing of the secondary hydraulic cylinder 125 is fixed in the under seating space 121 or buried, and the cylinder rod that is expanded and contracted of the secondary hydraulic cylinder 125 is It is fixed to the fixed end 133 on the lower surface of the middle block 130. At this time, the second hydraulic cylinder 125 is installed in the longitudinal direction of the underblock 120, a plurality of equal intervals.

Alternatively, when the submersible beam 100 according to the present invention is configured in three stages, a middle seating space 131 is formed on the upper surface of the middle block 130, and a tower having a rhombic shape in the middle seating space 131. Block 140 is installed. In this case, a third lowering means such as a first lowering means for lowering and lowering the top block 140 is installed below the top block 140. And the third lowering means is the cylinder housing is fixed to the middle seating space 131, or the fixed cylinder rod is fixed to the fixed end 143 on the lower surface of the top block 140, the fixed hydraulic cylinder 135 ). In addition, as in the first raising and lowering means and the second raising and lowering means, several dogs are installed at equal intervals in the longitudinal direction of the top block 140.

Meanwhile, a hydraulic line for supplying hydraulic pressure to the third hydraulic cylinder 135 and the secondary hydraulic cylinder 125 for elevating and lowering the top block 140 and the middle block 130 is shown in FIG. The differential hydraulic cylinder 125 and the tertiary hydraulic cylinder 135 extend downward while passing through the embedded block and are wound or unwound by winding rolls 160a and 160b formed on the bottom surface of the excavation space 111. That is, when the secondary hydraulic cylinder 125 is raised or lowered, a plurality of winding rolls 160a located at the lower side of each secondary hydraulic cylinder 125 are rotated at the same time while being mounted coaxially to the secondary hydraulic cylinder. The hydraulic line to 125 is reduced or drooped. And while the third hydraulic cylinder 135 is also mounted on the coaxial when lifting or lowering a plurality of winding rolls (160b) located on the lower side of each of the third hydraulic cylinder (135) while rotating the third hydraulic cylinder Reduce or hang the hydraulic line to (135).

The under block 120, the middle block 130, and the top block 140 formed as described above are moved up and down step by step. A covering shutter device 150 is provided.

The shutter device 150 is for preventing foreign matter such as sand or gravel from entering the excavation space 111, and includes a cover plate 151 and a driving motor 152. At this time, a gear is formed on a portion of the lower surface of the cover plate 151, the pinion gear is mounted to the drive motor 152, the cover plate 151 and the drive motor 152 is engaged by a conventional rack and pinion coupling operation. do. Preferably, the cover plate 151 is formed with a guide (not shown) on the edge on the upper surface of the excavation space 111 to slide in the upper portion of the open excavation space 111. And a bearing (not shown) may be mounted on the lower surface of the cover plate 151 for smooth movement.

Meanwhile, as shown in FIG. 5, the oblique surfaces S on both sides of the underblock 120, the middle block 130, and the top block 140 have the same slope, and on both sides of each block 120, 130, and 140. On the lower side, a vertical surface V is formed. At this time, the vertical surface (V) is provided so as to coincide with the front and rear, left and right surfaces when the upper block enters the seating space of the block located below. And the vertical surface (V) is designed not to be exposed to the upper side when each block is elevated, so that when the under block 120, the middle block 130 and the top block 140 are all elevated to the top, both sides between the blocks are not curved Will be matched in line. In addition, the vertical surface (V) is inserted into the seating space of the lower side also serves to support the lateral pressure of the upper blocks.

In addition, when the middle block 130 or the top block 140 is raised and lowered to support the shaking by the hydraulic pressure, the under seating space 121 of the underblock 120 and the middle seating space 131 of the middle block 130. ), Vertical guide rods 128 and 138 may be formed. The guide grooves 139 and 149 into which the guide rods 128 and 138 are inserted are formed on the lower surface of the middle block 130 and the lower surface of the top block 140. At this time, the guide rods 138 formed in the middle block 130 should be inserted together with the guide rods 128 formed in the underblock 120, it will be preferable to have a structure in which the inside is in communication with the guide groove 129. .

Hereinafter, the use state and operation method of the submersible beam 100 formed as described above will be briefly described.

FIG. 5 is a view showing the top block descending, FIG. 6 is a view showing the middle block descending, FIG. 7 is a view showing the underblock descending, and FIG. 8 is a shutter device closed. It is a drawing showing the loss.

The submersible beam 100 according to the present invention, when all the blocks (120, 130, 140) is elevated, the water of the river or river is not overflowed to block all the water (see Fig. 2).

And in order to flow the upstream water downstream to the center of the submersible beam 100, the top block 140 or the middle block 130 may be lowered. Therefore, as shown in FIG. 5, the tertiary hydraulic cylinder 135 is operated to be reduced so that the top block 140 enters the middle seating space 131 so that the water of the river or the river overflows the middle block 130. do.

Alternatively, the middle block 130 may also be lowered as shown in FIG. 6 to allow more water to flow downstream.

On the other hand, when opening both the upstream and downstream, as shown in Figure 7, the top block 140 and the middle block 130 is also lowered in the lower block 120 in the lowered state. In addition, the cover plate 151 is closed by operating the shutter device 150 as shown in FIG. 8 to prevent foreign substances such as sand or gravel from penetrating.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined by the appended claims. .

1 is a perspective view schematically showing a beam installed in a river or a river,

2 is a view showing a state in which the submersible beam is installed according to the present invention,

3 is a cross-sectional view showing in detail the submersible beam according to the present invention,

4 is a cross-sectional view of the underblock, the middle block and the top block shown in FIG. 3 separately;

5 to 8 are views showing the descending state of the submersible beam according to the present invention,

5 is a cross-sectional view showing the top block is lowered,

6 is a cross-sectional view showing the middle block is lowered,

7 is a cross-sectional view showing a state that the underblock is lowered, and

8 is a cross-sectional view showing the operation of the shutter device.

Claims (5)

Excavation space 111 is formed in the width direction in the width direction in the bottom of the river or river; An underblock 120 having a lozenge shape to be inserted into the excavation space 111 and having an under seating space 121 formed at an upper end thereof; A middle block 130 having a rhombus shape to be inserted into the under seating space 121; A guide rod 128 formed to protrude upward on a bottom surface of the under seating space 121; A guide groove 139 formed on the lower surface of the middle block 130 to insert the guide rod 128 therein; It is installed on the bottom surface of the excavation space 111, the end of the rod is coupled to the lower surface of the underblock 120, the primary hydraulic pressure for raising and lowering the underblock 120 in the excavation space 111 Cylinder 115; It is installed to be buried on the bottom surface of the under seating space 121, the end of the rod is coupled to the lower surface of the middle block 130 to raise and lower the middle block 130 in the under seating space 121 Secondary hydraulic cylinder 125 to make; And Submersible beams comprising a; a shutter device installed horizontally on one side of the excavation space 111 to close the open upper portion of the excavation space (111). According to claim 1, Middle seating space 131 is formed on the upper end of the middle block 130, and further comprises a top block 140 having a rhombic shape to be inserted into the middle seating space 131, A guide rod 138 having the guide groove 139 formed therein is formed to protrude upward in the middle seating space 131, and the guide rod 138 is inserted into the lower surface of the top block 140. A groove 149 is formed, and an end of the rod is coupled to the bottom surface of the top block 140 on the bottom surface of the middle seating space 131 so that the top block 140 is in the middle seating space 131. Submersible beam, characterized in that the third hydraulic cylinder 135 to be raised and lowered in buried. The cover plate 151 of claim 1, wherein the shutter device 150 slides an open upper portion of the excavation space 111, and a cover plate 151 having a gear formed on a lower surface thereof, and a lower portion of the cover plate 151. Submersible beam, characterized in that consisting of a drive motor is fitted with a fition gear is fitted to. The submersible beam according to claim 1 or 2, wherein the blocks (120, 130, 140) have the same inclination of the inclined surfaces of both sides. delete

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