KR20100012277U - Index structure of the conductive movable beam - Google Patents

Abstract

The present invention relates to a conductive movable beam, and more particularly, the conductive movable beam for removing sand and foreign matter accumulated on the bottom of the river by simultaneously discharging the stored water to the upper and lower portions of the hydrological gate according to the standing degree of the hydrological gate. It is about exponential structure.
To this end, the index structure of the conductive movable beam according to the present invention is rotated up and down in the multi-stage conductive hydrologic to discharge or store water,
When the water gate is completely open and the top surface of the water surface is positioned horizontally with the water surface, the watertight frame includes watertight frames installed at intervals from the watertight surface. The lever plate, the exponential expansion, the fixed plate is coupled to the upper surface of the watertight frame by the fastener, the rubber plate is further extended over the upper surface of the hydrologic seal, the exponent packing is formed through the hole integrally to the center, The front end is formed in a circular finish, the rear end is formed in a horizontal plane so that the fixed plate is located, characterized in that the contact is made to be in close contact with the upper surface of the water so as to stop the discharge when standing up.

Description

Exponential Structure of Conductive Movable Beams {.}

The present invention relates to a conductive movable beam, and more particularly, the conductive movable beam for removing sand and foreign matter accumulated on the bottom of the river by simultaneously discharging the stored water to the upper and lower portions of the hydrological gate according to the standing degree of the hydrological gate. It is about exponential structure.

In general, water gates installed in waterway or river can play various roles for flood control, irrigation water, living and industrial water, sediment control, tourism and recreation, watershed management, fish and wildlife protection.

In general, the water gate should be able to withstand the water pressure to be stored sufficiently, and should have the convenience of operation evenly to solve the conventional problem of operating the water gate by generating a driving force by a combination of gears, for which the present applicant has a patent Registration Nos. 647352 " Multistage Conductive Hydrologic Systems "

In the known example disclosed by the present applicant, the driving cylinder opens or closes the water gate by a driving wheel and a wire rope coupled to one side, or includes a driving wheel, a rotating shaft, and a rotation support to open and close the water gate.

The water trapped in the beam is generally designed to flow over the water gate when the water gate is opened in multiple stages, and the known examples are the same.

However, if only the role of the floodgate is fulfilled, various foreign matters, earth and sand, etc. remain as the bottom of the river, which has a problem that must be dredged again at a high cost.

The present invention was devised to solve such a problem, and the purpose of the present invention is to discharge foreign substances accumulated in the bottom of the river, various soils, etc. to the lower side of the water gate according to the opening and closing of the water gate to reduce the burden of dredging. It is to provide an exponential structure of the formula operation.

The index structure of the conductive movable beam according to the present invention is rotated up and down in the multi-stage conductive hydrologic to discharge or store water,

When the water gate is completely open and the top surface of the water surface is positioned horizontally with the water surface, it includes a watertight frame installed at intervals from the top surface of the water gate,

The upper plate of the watertight frame is installed in the order of the lever plate, exponential expansion, fixed plate, the lever plate, the exponential expansion, the fixed plate is coupled to the upper surface of the watertight frame by a fastener,

The rubber plate is extended further over the upper surface of the sluice,

The exponential packing has a through hole integrally formed at the center thereof, and the front end is formed in a circular finish, and the rear end is formed in a horizontal plane so that the fixed plate is positioned. Characterized in that the contact is made.

Still other objects and effects of the present invention will become apparent from the following detailed description, and the detailed description and examples showing the preferred embodiments of the present invention do not limit the scope of the present invention.

According to the exponential structure of the conductive movable beam according to the present invention, a watertight frame is installed so as to be horizontal with the top surface of the horizontal sluice at intervals so that the sluice rotates between the gaps so that the sluice rotates to a constant inclined position. When the water is discharged between the intervals, when the water gate is standing up completely it can be achieved to achieve the watertight by the exponential packing.

1 is an embodiment of a conductive movable beam to which the present invention can be applied.
Figure 2 is a view showing the index structure of the conductive movable beam applied in FIG.
3a and 3c is a view showing the state of the exponential structure as the conductive movable beam applied to the present invention operates.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings. First, like reference numerals designate functionally identical or similar parts throughout the drawings.

Figure 1 is an embodiment of a conductive movable beam to which the present invention can be applied, Figure 2 is a view showing the exponential structure of the conductive movable beam applied to Figure 1, Figure 3a and 3c is a conductive type applied to the present invention The figure shows the state of the exponential structure as the movable beam operates.

1 to 3C, the exponential structure of the conductive movable beam according to the present invention is applied to a multi-stage conductive water gate 10 that is rotated up and down to discharge or store water.

1 and 2 is a multi-stage conductive water gate that can be applied to the present invention by one embodiment, the structure for rotating the water gate 10 can be variously modified.

That is, when describing the structure in which the water gate 10 can be conducted by one embodiment, the water gate 10 to which the present invention is basically applied is provided with an operation cylinder 20 operated by hydraulic pressure or pneumatic pressure. It is coupled to the front end of the rod 22 of the operation cylinder 20, rotates through the rotation point 32, and comprises a rotation support 30 is coupled to the interior of the water gate (10).

Typically, the water gate 10 is limited to the rotation by the concrete high information 40, the discharge is stopped and the watertight as the high information 40 and the water surface upper surface 12 is in close contact.

The sluice 10 extends in the longitudinal direction, and the sluice upper surface 12 extends longer than the sluice surface 14 forming the skirt portion 12a at the bottom.

As shown in FIG. 2, the present invention provides a watertight frame 50 at a spacing (W) with a space (W) when the sluice 10 is completely open so that the sluice upper surface 12 is positioned horizontally with the water surface. This is installed.

The interval W is a space for the skirt portion 12a of the upper surface 12 of the hydrologic upper surface 12 to rotate without being caught by the watertight frame 50 when the water gate 10 is inverted, and discharged between the intervals W as described later. .

The watertight frame 50 applied to the present invention is installed horizontally in the state where the gap (W) and the hydrological upper surface 12 inverted completely horizontally.

As the upper surface of the watertight frame 50, the lever plate 60, the expansive expansion 70, and the fixed plate 80 according to the present invention are sequentially installed and coupled by the fastener 90.

The lever plate 60 applied to the present invention is made of a synthetic resin or rubber material, and is further extended over the upper surface of the sluice 12 as shown in FIG. 3A.

The rubber plate 60 further extended above the hydrologic upper surface 12 is moved in surface contact with the hydrological upper surface 12, preferably the skirt portion 12a when the hydrological gate 10 is rotated.

The exponential packing 70 is in close contact with the upper surface of the sluice 12 in order to stop discharge when the sluice 10 stands up.

The exponential packing 70 is formed by the end of the circular finish, the rear end is made of a horizontal plane so that the fixing plate 80 is located.

In particular, as shown in Figure 3b, the tip of the exponent packing 70 is pushed along the top surface 12 of the ram plate 60 when the sluice 10 is standing up, the Raver plate 60 is also exponential packing It is pushed to the tip of 70 and is in surface contact with each other to perform watertightness.

In addition to this role, as shown in FIG. 3C, when the water gate 10 rotates at an angle smaller than the standing position, the gap W is opened, and water is discharged between the gaps W. FIG.

The present invention is to accommodate the elastic force when the through-hole 71 is formed in the center of the front end of the index packing 70 is in close contact with the upper surface of the sluice.

That is, as will be clear from the above description, this design can be overflowed or discharged to the upper part of the water gate 10 according to the standing state of the water gate 10, and, if fully standing up, can perform watertightness completely. .

This invention can be implemented in other various forms, without deviating from the mind or main characteristic. For this reason, the above-described embodiments are merely examples in all respects and should not be interpreted limitedly. The scope of the present invention is indicated by the scope of the utility model registration request, and is not limited by the text of the specification. Again, all variations and modifications falling within the equivalent scope of the utility model registration claims are within the scope of the present invention.

* Description of the symbols for the main parts of the drawings *
10: sluice 12: sluice face
12a: skirt 20: working cylinder
22: rod 30: rotation support
40: high information 50: watertight frame
60: Lava plate 70: Index packing
80: fixing plate 90: fastener

Claims (1)

In the multi-stage conduction sluice that rotates up and down to discharge or store water,
When the water gate 10 is fully open and the water gate upper surface 12 is positioned horizontally with the water surface, it includes a watertight frame 50 which is installed at intervals from the water gate upper surface 12,
The upper plate of the watertight frame 50 is provided with a lever plate 60, an exponential swelling 70, a fixed plate 80 is sequentially installed, the lever plate 60, an exponential swelling 70, a fixed plate 80 Is coupled to the top surface of the watertight frame 50 by the fastener 90,
The lever plate 60 is further extended over the sluice upper surface 12 and finished,
The exponential packing 70 has a through hole 71 integrally formed at the center thereof, the front end of which is formed in a circular shape, and the rear end is formed in a horizontal plane so that the fixing plate 80 is located, and the sluice 10 ), The index structure of the electrically conductive movable beam, characterized in that it is made to be in close contact with the upper surface of the sluice 12 to stop the discharge.

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