KR101977546B1 - Rising sector gate structure with double watertight structure - Google Patents

Abstract

The present invention relates to a rising sector gate structure with a double watertight structure, wherein a gap between a rising sector gate and a bottom surface of a waterway is doubly sealed with high efficiency, thereby significantly increasing watertightness and preventing foreign substances from being introduced into the gap with high efficiency. Moreover, facilities including a stopper part, a lower exponent part, and an upper exponent part can be prevented from being damaged due to the falling rising sector gate. In addition, watertightness can be significantly increased.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a double-

According to the present invention, the gap between the rising gate gate and the bottom surface of the water channel can be double-sealed with a higher efficiency, so that water tightness can be further improved, and foreign matter can be prevented from flowing into the gap with high efficiency And a riser sector gate structure having a double watertight structure in which the watertightness can be further improved without fear of damage to facilities including the stopper portion, the lower exponent portion, and the upper exponent portion due to the falling riser sector gate.

Generally, four major rivers, rivers, irrigation channels, and reservoirs are used for the purpose of storing a certain amount of water in order to appropriately utilize agricultural management or irrigation water and use it when necessary.

These waterways are equipped with hydrants and opening and closing devices to store water in the dry season and drain water in the wet season.

These hydrological gates and their opening and closing apparatuses are classified into a conduction type and a bottom discharge type called a rising sector gate (2) as shown in FIGS. 1 and 2, and a bottom discharge Recently, there has been proposed a rotary type automatic water gate in which a circular pipe in the longitudinal direction is installed inside and a reinforcement structure using a wire is installed in the empty space of the pipe to improve the overall strength, -1262288.

However, in the case of the large-scale rotary automatic canal proposed in the above-mentioned Korean Patent Registration No. 10-1262288, the water gate is enlarged and water leakage occurs due to the gap generated between the water gate and the bottom surface of the water channel, There is a problem of deterioration.

Korean Registered Patent Publication No. 10-1262288

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a waterproof structure capable of double sealing a gap between a rising sector gate and a bottom surface of a water channel with higher efficiency, Can be prevented with a high efficiency. Furthermore, there is no possibility that facilities including the stopper portion, the lower exponent portion, the upper exponent portion and the like are damaged due to the descending riser sector gate, and the water tightness can be further improved. And a gate structure of the gate structure.

According to another aspect of the present invention, there is provided a semiconductor device comprising: a lower exponent portion having a front side fixed to a channel provided with a rising sector gate and a rear side closely contacting the rising sector gate; And an upper exponent portion having a front side fixed to the water channel so as to be positioned in an upper direction of the lower exponent portion and a rear side closely adhered to the rising sector gate, and a raising sector gate structure having a double watertight structure .

The gate electrode of the semiconductor memory device according to the present invention is characterized in that the semiconductor memory device further comprises a gate electrode formed on the semiconductor substrate, A lower standing-up tip portion for pushing up the wafer; Wherein the upper portion of the upper exponent portion is protruded from the outer surface of the rising sector gate so as to be positioned in an upper direction of the lower riser tip portion and moves up and down along the rising sector gate, And an upper standing tip portion for pushing up the rising sector gate toward the upper side of the rising sector gate.

The fixing bracket is fixed to the water channel so as to be positioned below the lower exponent portion and the lower portion of the upper exponent portion. The upper bracket is fixed to the upper portion by the elastic force of the elastic member, And a rotating movement bracket that rotates in the gate direction and is brought close to the outer surface of the rising sector gate, the rear side of the lower exponent part and the rear side of the upper exponent part, which are lowered along the rising sector gate, .

Furthermore, it is preferable that the width of the lower standing portion is formed to be larger than the thickness of the lower exposing portion, and the width of the upper standing portion is formed to be larger than the thickness of the upper exposing portion.

The present invention is capable of double sealing the gap between the rising sector gate and the bottom surface of the water channel with a higher efficiency through the lower exponent portion and the upper exponent portion so that the water tightness can be further improved, It is possible to effectively prevent foreign matter from being introduced into the gap between the sector gate and the bottom surface of the water channel and also to significantly improve the prevention efficiency. Further, the lower exponent portion It is possible to prevent foreign matter from flowing into the lower exponent part with higher efficiency while more stably protecting the exponential part.

In addition, according to the present invention, there is no fear that the lower portion of the rising sector gate presses the upper portion of the stopper portion during the descending of the rising sector gate, and the stopper portion, the lower exponent portion, There is no fear that the facilities including the wealth will be destroyed.

In addition, the present invention is characterized in that a lower standing portion and a lower standing portion, which support the rear side of the lower exponent portion and the rear side of the upper exponent portion, respectively, with the rear side of the lower exponent portion and the rear side of the upper exponent portion being respectively seated, It is possible to maintain the close contact state of the lower exponent portion and the close contact state of the upper exponent portion while preventing the rear side of the exponential portion and the rear portion of the upper exponent portion from being moved further than necessary in the downward direction of the rising sector gate, And the watertightness through the upper exponent portion can be significantly improved.

1 is a perspective view schematically showing a conventional rising sector gate,
2 is a cross-sectional view schematically showing a conventional rising sector gate,
3 is a cross-sectional view schematically showing a rising sector gate structure having a double watertight structure, which is an embodiment of the present invention,
Fig. 4 is a partially enlarged cross-sectional view of the portion A in Fig. 3,
5 is a cross-sectional view schematically showing a state in which the stopper is provided in the lower direction of the lower exponent portion and in the lower direction of the upper exponent portion,
FIG. 6 is a partially enlarged cross-sectional view showing an enlarged portion B in FIG. 5,
FIGS. 7 to 10 are enlarged cross-sectional views sequentially showing a process of raising the rising sector gate,
11 is a cross-sectional view schematically showing a state in which the rising sector gate has been raised,
12 to 14 are partial enlarged cross-sectional views sequentially showing the descending process of the rising sector gate,
15 is a cross-sectional view schematically showing a state in which the rising sector gate is completely lowered.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. It is to be understood that the scope of the present invention is not limited to the following embodiments, and various modifications may be made by those skilled in the art without departing from the technical scope of the present invention.

FIG. 3 is a cross-sectional view schematically showing a rising sector gate structure having a double watertight structure, which is an embodiment of the present invention, and FIG. 4 is a partially enlarged cross-sectional view of a portion A of FIG.

As shown in FIGS. 3 and 4, the riser sector gate structure having a double watertight structure, which is one embodiment of the present invention, includes a lower exponent portion 7 and an upper exponent portion 8.

A fixed frame 11 extending in a predetermined length from one side of the water channel 5 to the other side is formed at a predetermined depth on the front side of the bottom surface 5a of the water channel 5 provided with the rising sector gate 2, It can be fixed in various ways such as fixing bolts in an inserted state.

The stationary frame 11 includes a lower stationary frame 111 provided on the front side of the bottom surface 5a of the channel 5, And an upper fixing frame 112 provided on the front side of the bottom surface 5a of the water channel 5 so as to be positioned in an upper direction of the lower fixing frame 111. [

The rising sector gate (2) is a rotating water gate which is vertically rotatably moved by a simple power transmission system, the water gate being formed in a rounded shape in a state in which a water gate composed of a rounded shape is rotatably installed on both side support structures, Therefore, detailed explanation will be omitted below.

The lower exponent part 7 and the upper exponent part 8 may be made of various kinds of materials having elasticity such as an exponential rubber which is formed to extend horizontally along the fixed frame 11 to a predetermined length.

The front side of the lower exponent part 7 may be fixed to the middle part of the lower fixed frame 111 fixed to the front side of the bottom surface 5a of the water channel 5 by various methods such as bolt fixing.

The front portion of the exponent portion 12 may be fixed to the upper portion of the lower fixed frame 111 in various ways such as bolt fixation, The length of the front and rear ends of the first and second guide grooves 22,

It is possible to more effectively prevent foreign matter from flowing into the lower exponent part 7 while protecting the lower exponent part 7 more stably through the separate exponent part 12.

The front side of the upper index part 8 is fixed to the upper part of the upper fixing frame 112 which is fixed to the front side of the bottom surface 5a of the water channel 5 so as to be positioned in the upper direction of the lower fixing frame 111, And fixed in various ways.

The rear side of the lower exponent portion 7 and the rear side of the upper exponent portion 8 are respectively brought into close contact with the front outer surface of the rising sector gate 2, respectively.

A gap G between the outer surface of the front side of the rising sector gate 2 and the bottom surface 5a of the water passage 5 is formed through the lower exponent portion 7 and the upper exponent portion 8, The watertightness of the rising sector gate 2 can be further improved and the watertightness between the rising sector gate 2 and the bottom surface 5a of the water channel 5 can be increased through the upper exponent portion 8, It is possible to effectively prevent foreign matter from flowing into the clearance G of the gasket.

Next, a lower standing tip portion 21 and an upper standing tip portion 22 may be provided for moving up and down along the rising sector gate 2.

The lower standing portion 21 and the upper standing portion 22 may be extended laterally to a predetermined length along the lower exposing portion 7 and the upper exposing portion 8, respectively.

The lower standing tip 21 may protrude from the lower outer surface of the rising sector gate 2 at a predetermined length in the forward direction of the rising sector gate 2.

The upper standing tip 22 is protruded to a predetermined length in the forward direction of the rising sector gate 2 at the front lower outer surface of the rising sector gate 2 so as to be positioned in the upper direction of the lower standing tip 21 .

When the rising sector gate 2 rises, the lower standing portion 21 and the upper standing portion 22 come into contact with the rear side of the lower exponent portion 7 and the rear side of the upper exponent portion 8, respectively, The rear side of the lower exponent portion 7 and the rear side of the upper exponent portion 8 can be respectively pushed upward in the upward direction of the rising sector gate 2 (see FIGS. 7 to 9).

FIG. 5 is a cross-sectional view schematically showing a state in which a stopper is provided in a lower direction of a lower exponent portion and a lower direction of an upper exponent portion, and FIG. 6 is a partially enlarged cross-

5, the lower exponent portion 7 and the lower exponential portion 7 are brought into contact with the lower portion of the lower exponent portion 7 and the lower portion of the upper exponent portion 8 which come into close contact with the outer surface of the rising sector gate 2, The rear side of the upper exponent portion 8 and the rear side of the upper exponent portion 8 are brought into close contact with the outer surface of the front side of the rising sector gate 2 so that the close contact state of the lower exponent portion 7 and the close contact state of the upper exponent portion 8 Of the lower exponent part (7) adhered to the outer surface of the rising sector gate (2) while improving the dustproof efficiency of the lower exponent part (7) and the dustproof efficiency of the upper exponent part (8) The stopper portion 30 may be further provided to prevent the rear side of the upper exponent portion 8 from being slid and pushed and moved toward the lower side of the rising sector gate 2 more than necessary.

As shown in FIG. 6, the stopper part 30 may include a fixed bracket 310 and a rotary moving bracket 320.

The fixing bracket 310 is positioned in the lower direction of the lower exponent portion 7 and the lower portion of the upper exponent portion 8 which are in close contact with the outer surface of the rising sector gate 2, The upper portion of the fixing bracket 310 may be fixed to the lower portion of the lower fixing frame 111 of the fixing frame 11 and the lower portion of the upper fixing frame 112 by bolts and the like.

The upper portion of the rotary movement bracket 320 is elastically deformed by an elastic force of an elastic member (not shown) such as a torsion spring or the like when the lower portion of the rotary movement bracket 320 is axially coupled to the center of the fixing bracket 310 The rear portion of the lower exponent portion 7 and the rear portion of the upper exponent portion 8 which are rotated in the front outer surface direction of the rising sector gate 2 and lowered along the rising sector gate 2, Can be brought into close contact with the outer surface on the front side of the sector gate (2).

Next, the lower standing portion 21 and the upper standing portion 22 are lifted along the rising sector gate 2 to the rear side of the lower exponent portion 7 and the rear side of the upper exponent portion 8, The rear portion of the lower exponent portion 7 and the rear portion of the upper exponent portion 8 are pushed upward in the upward direction of the rising sector gate 2 (refer to FIG. 7 to FIG. 9) The rising tip portion 21 and the upper standing tip portion 22 are more easily moved to the rear side of the lower exponent portion 7 and the rear side of the upper exponent portion 8 in the upward direction of the rising sector gate 2 to be able to boost, is the lower figure portion 7 before and after the width (W ₂ in Fig. 6) of the (W ₁ in FIG. 6) and the upper rising tip 22 before and after the lower rising tip 21 width (T _{1 in} FIG. 6) and the upper and lower thickness (T _{2 in} FIG. 6) of the upper exponent portion 8 .

FIGS. 7 to 10 are a partially enlarged cross-sectional view sequentially showing a process of raising the rising sector gate, and FIG. 11 is a cross-sectional view schematically showing a state in which the rising sector gate has been raised.

7 to 9, during the lifting of the rising sector gate 2, the lower standing-up tip portion 21 and the upper standing-up tip portion 22 are engaged with the rotation moving bracket 320 of the stopper portion 30, And the rear side of the lower exponent portion 7 and the rear side of the upper exponent portion 8 while being in contact with the rear side of the lower exponent portion 7 and the rear side of the upper exponent portion 8, The rear side of the lower exponent portion 7 and the rear side of the upper exponent portion 8 are moved to the upper side of the rising sector gate 2 As shown in Fig.

10 and 11, when the rising sector gate 2 is completely raised to the rear side of the lower exponent part 7 and the rear side of the upper exponent part 8, The upper exponent portion 7 and the upper exponent portion 8 are restored to the horizontal state by the elastic force and the foreign matter such as the gravel or the like introduced into the space between the front outer surface of the rising sector gate 2 and the bottom surface 5a of the water passage 5 9) can flow downward from the front side of the water channel (5).

FIGS. 12 to 14 are partial enlarged cross-sectional views sequentially showing the descending process of the rising sector gate, and FIG. 15 is a cross-sectional view schematically showing the descending completion of the rising sector gate.

12 to 14, the rising sector gate 2 is located on the rear side of the lower exponent portion 7 and on the rear side of the upper exponent portion 8 in the process of descending the rising sector gate 2, To the lower side of the rising sector gate 2, respectively.

At this time, the rear side of the lower exponent part 7 and the rear side of the upper exponent part 8 are gradually curved downwardly of the rising sector gate 2, respectively, so that the rotational movement bracket 320 of the stopper part 30, So that the lower portion of the rising sector gate 2 can be brought into close contact with the outer surface of the front side of the rising sector gate 2 while preventing the lower portion of the rising sector gate 2 from being drawn between the fixing bracket 310 and the rotary moving bracket 320 .

12 to 14, the lower portion of the rising sector gate 2 is drawn between the fixing bracket 310 and the rotary moving bracket 320 during the descending of the rising sector gate 2, The upper outer surface of the rotary movement bracket 320 is moved in the direction of the rotation of the rotary sector in order to smoothly descend in the downward direction of the rising sector gate 2 without pressing the upper portion of the rotary movement bracket 320 of the rotary section 320. [ And may be formed in a convex arc shape toward the upper side of the bracket 320.

The lower portion of the rising sector gate 2 is not likely to press the upper portion of the rotary moving bracket 320 of the stopper portion 30 during the descending of the rising sector gate 2, The lower exponent portion 7 and the upper exponent portion 8 are prevented from being damaged by the lowering of the upper exponent portion 8 and the stopper portion 30,

15, the rear side of the lower exponent part 7 and the rear side of the upper exponent part 8 are respectively seated on the upper part of the lower standing part 21 and the upper standing part 22, respectively, Of the lower exponent portion (7) through the lower riser tip portion (21) and the upper riser tip portion (22) supporting the rear side of the lower exponential portion (7) and the rear side of the upper exponent portion And the lower exponent portion (7) and the upper exponential portion (8) in a state in which the rear portion of the upper exponent portion (8) is prevented from moving further than the lower portion of the rising sector gate The watertightness through the lower exponent portion 7 and the upper exponent portion 8 can be further improved greatly.

7; Lower index portion, 8; Upper index part.

Claims (4)

A lower exponent portion having a front side fixed to a water channel provided with a rising sector gate and a rear side closely contacting the rising sector gate;
An upper exponent portion having a front side fixed to the water channel so as to be positioned in an upper direction of the lower exponent portion and a rear side closely adhered to the rising sector gate;
Wherein the rising sector gates are formed on an outer surface of the rising sector gate so as to move up and down along the rising sector gate and contact the rear side of the lower exponent portion during the rising of the rising sector gate to push the rear side of the lower exponent portion upward A lower standing tip portion;
Wherein the upper portion of the upper exponent portion is protruded from the outer surface of the rising sector gate so as to be positioned in an upper direction of the lower riser tip portion and moves up and down along the rising sector gate, And a top rising tip portion for pushing up the rising sector gate toward the upper side of the rising sector gate.
The method according to claim 1,
A fixing bracket fixed to the water channel so as to be positioned respectively in a lower direction of the lower exponent part and a lower direction of the upper exponent part, and a lower bracket fixed to the upper exponent part by an elastic force of the elastic member, And a rotating moving bracket for closing the rear side of the lower exponent part and the rear side of the upper exponent part, which are lowered along the rising sector gate, to closely contact the outer surface of the rising sector gate, respectively And a double-water-tight structure.
The method according to claim 1,
The width of the lower standing portion is greater than the thickness of the lower portion,
And the width of the upper standing tip portion is formed to be larger than the thickness of the upper exposing portion. delete

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