JP2008025293A - Derricking gate - Google Patents

Derricking gate Download PDF

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JP2008025293A
JP2008025293A JP2006201699A JP2006201699A JP2008025293A JP 2008025293 A JP2008025293 A JP 2008025293A JP 2006201699 A JP2006201699 A JP 2006201699A JP 2006201699 A JP2006201699 A JP 2006201699A JP 2008025293 A JP2008025293 A JP 2008025293A
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door body
bag
air
door
bag body
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JP4686415B2 (en
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Haruhiko Matsuoka
春彦 松岡
Shinichiro Nakai
信一郎 中井
Yoshinori Nabeta
吉則 鍋田
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Marsima Aqua System Corp
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Marsima Aqua System Corp
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a derricking gate which enables the flow rate of a water way to be accurately adjusted by preventing a change in the height of a weir on both the banks of the water way. <P>SOLUTION: Bag bodies 4A and 4B for turning a door body 3 between an erect position U and a fall position D are split into at least two portions in the width direction of the door body 3, and arranged on the sides of both ends of the door body 3, respectively; air supply and exhaust pipes 8A and 8B are connected to the bag bodies 4A and 4B, respectively; and control means (electromagnetic switching valves 14A and 14B, and a control circuit 17) for controlling the supply and exhaust of the air are provided in the bag bodies 4A and 4B, respectively. Thus, when the side of one end 3a of the door body 3 on the side of a greater external force is deflected to a downstream side, a larger quantity of air is supplied to the bag body 4A on this side, so that the bearing power of the bag body 4A can be increased. This prevents the deflection of the side of one end 3a of the door body 3. Consequently, since the height of the weir is not changed on both banks of the water way 1 (the heights of the weir are synchronized with each other), the flow rate of the water way 1 can be accurately adjusted. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

本発明は、起伏ゲートに関する。   The present invention relates to a relief gate.

従来、水路の底部で、上流側の起立位置と下流側の倒伏位置との間で回動可能にクランプされた扉体と、この扉体の下流側に設置された袋体とが設けられて、空気の供給による袋体の膨張で扉体が起立方向に回動されるとともに、空気の排出による袋体の収縮で扉体が倒伏方向に回動されるようになった起伏ゲートがある(特許文献1参照)。   Conventionally, at the bottom of the water channel, there is provided a door body that is clamped to be rotatable between an upstream standing position and a downstream lying position, and a bag body that is installed on the downstream side of the door body. In addition, there is a undulation gate in which the door body is rotated in the upright direction due to the expansion of the bag body due to the supply of air, and the door body is rotated in the inclining direction due to the contraction of the bag body due to the discharge of air ( Patent Document 1).

前記のような起伏ゲートにおいて、水路の流量調整のために、扉体を中間開度(起立位置と倒伏位置との間の位置)で使用する場合がある。この中間開度では、扉体の自重および扉体に作用する水圧や土砂圧等の外力(以下、単に外力と言う。)と袋体の支持力との釣り合いで扉体の高さ(堰高)が定まることになる。
特開2002−309547号公報
In the undulation gate as described above, the door body may be used at an intermediate opening (a position between the standing position and the lying position) in order to adjust the flow rate of the water channel. At this intermediate opening, the height of the door body (weir height) is balanced between the weight of the door body and the external force (hereinafter simply referred to as external force) such as water pressure and earth pressure acting on the door body and the supporting force of the bag body. ) Will be determined.
JP 2002-309547 A

しかしながら、水路で偏流等が発生したり、水路が曲がっているような箇所においては、水路の両岸部で外力が異なるから、袋体の支持力が一定であれば、外力が高い側の扉体の一方端側が下流側に撓むようになるので、扉体の一方端側の高さ(堰高)が他方端側よりも低くなって、両岸部で堰高が変わることで水路の流量調整が正確に行えなくなるとともに、景観的な見苦しさ、著しい偏流による下流河床部の洗掘を助長するという問題があった。   However, in places where uneven flow or the like occurs in the water channel or the water channel is bent, the external force is different on both sides of the water channel, so if the supporting force of the bag body is constant, the door body on the side where the external force is higher As one end side of the door bends to the downstream side, the height (weir height) of the one end side of the door body is lower than the other end side, and the weir height changes on both banks, so the flow rate adjustment of the water channel is accurate In addition, the problem was that the landscape was unsightly and encouraged scouring of the downstream riverbed due to significant drift.

本発明は、前記問題を解消するためになされたもので、水路の両岸部で堰高が変わらないようにすることで、水路の流量調整が正確に行えるとともに、景観的な見苦しさを解消し、下流河床部の洗掘を低減できるようにした起伏ゲートを提供することを目的とするものである。   The present invention has been made to solve the above problems, and by preventing the weir height from changing on both sides of the water channel, the flow rate of the water channel can be adjusted accurately and the unsightly appearance is eliminated. An object of the present invention is to provide a relief gate that can reduce scouring of the downstream riverbed.

前記課題を解決するために、本発明は、水路の底部で、上流側の起立位置と下流側の倒伏位置との間で回動可能にクランプされた扉体と、この扉体の下流側に設置された袋体とが設けられて、空気の供給による袋体の膨張で扉体が起立方向に回動されるとともに、空気の排出による袋体の収縮で扉体が倒伏方向に回動されるようになった起伏ゲートにおいて、前記袋体は、扉体の横幅方向に少なくとも2分割されて、扉体の両端側にそれぞれ配置され、袋体毎に空気の給排気管がそれぞれ接続されているとともに、袋体毎に空気を給排気制御する制御手段が設けられていることを特徴とする起伏ゲートを提供するものである。   In order to solve the above problems, the present invention provides a door body clamped to be rotatable between an upstream standing position and a downstream lying position at the bottom of a water channel, and on the downstream side of the door body. And the door body is rotated in the upright direction by the expansion of the bag body due to the supply of air, and the door body is rotated in the lying down direction by the contraction of the bag body due to the discharge of air. In the undulation gate, the bag body is divided into at least two parts in the lateral width direction of the door body, and is arranged on both ends of the door body, and an air supply / exhaust pipe is connected to each bag body. In addition, the present invention provides a undulation gate characterized in that control means for supplying and exhausting air is provided for each bag body.

請求項2のように、前記扉体の両端側に、扉体の両端部の傾斜角度をそれぞれ検出する傾斜計が設けられていることが好ましい。   It is preferable that the inclinometer which each detects the inclination angle of the both ends of a door body is provided in the both ends side of the said door body like Claim 2.

本発明によれば、扉体の両端側の袋体を、袋体毎に制御手段で空気を給排気制御することにより、外力が高い側の扉体の一方端側が下流側に撓むようになれば、この側の袋体に空気をより多く供給して袋体の支持力を高めることで、扉体の一方端側が撓まなくなる結果、水路の両岸部で堰高が変わらないようになって(堰高の同調)、水路の流量調整が正確に行えるようになる。   According to the present invention, if one side of the door body on the side with high external force bends to the downstream side by controlling the air supply / exhaust control of the bag body on both ends of the door body by the control means for each bag body. As a result of supplying more air to the bag body on this side and increasing the supporting force of the bag body, one end side of the door body will not bend, so that the weir height will not change on both sides of the waterway ( The weir height can be adjusted), and the flow rate can be adjusted accurately.

また、水路の両岸部で堰高が変わらないので、景観的な見苦しさが解消され、下流河床部の洗掘も低減できるようになる。   In addition, since the weir height does not change on both sides of the waterway, the unsightly scenery is eliminated and scouring of the downstream riverbed can be reduced.

請求項2のように、扉体の両端部の傾斜角度を傾斜計で検出することにより、傾斜角度がほぼ同じとなるように空気の給排気制御を自動的に遠隔操作で行うことが可能となるので、水路の流量調整が常に正確に行えるようになる。   As described in claim 2, by detecting the inclination angles of the both ends of the door with an inclinometer, it is possible to automatically perform air supply / exhaust control by remote control so that the inclination angles are substantially the same. Therefore, the flow rate of the water channel can always be adjusted accurately.

以下、本発明を実施するための最良の形態について、図面を参照しながら詳細に説明する。   Hereinafter, the best mode for carrying out the present invention will be described in detail with reference to the drawings.

図1および図2に示すように、河川や水路1を横切るように設けられる起伏ゲート2は、水路1の底部1aで、上流側の起立位置Uと下流側の倒伏位置Dとの間で回動可能にクランプされた扉体3と、この扉体3の下流側に設置された袋体4A,4Bとが設けられて、空気の供給による袋体4A,4Bの膨張で扉体3が起立方向に回動されるとともに、空気の排出による袋体4A,4Bの収縮で扉体3が倒伏方向に回動されるようになっている。   As shown in FIGS. 1 and 2, the undulating gate 2 provided so as to cross the river or the water channel 1 is a bottom 1 a of the water channel 1, and rotates between an upstream standing position U and a downstream lying position D. The door body 3 clamped movably and the bag bodies 4A and 4B installed on the downstream side of the door body 3 are provided, and the door body 3 stands up by the expansion of the bag bodies 4A and 4B due to the supply of air. The door body 3 is rotated in the lying down direction by contraction of the bag bodies 4A and 4B due to the discharge of air.

鋼製の扉体3は、横長長方形状に形成されて、下端部が水路1の底部1aにヒンジ部材6で回動可能にクランプされるとともに、上端部と底部1aとの間がチェーン等の可撓性連結部材7で連結されて、この連結部材7によって扉体3の起立位置Uの上限が規制されるようになる。   The steel door 3 is formed in a horizontally long rectangular shape, and its lower end is clamped to the bottom 1a of the water channel 1 by a hinge member 6 so as to be rotatable, and a space between the upper end and the bottom 1a is a chain or the like. Connected by the flexible connecting member 7, the upper limit of the standing position U of the door body 3 is regulated by the connecting member 7.

ゴム製の袋体4A,4Bは、本実施形態では、扉体3の横幅方向に2分割されて、扉体3の両端側にそれぞれ配置されているが、3分割以上であっても良く、要するに、少なくとも扉体3の両端側に袋体がそれぞれ1個ずつ配置されていれば良い。   In this embodiment, the rubber bag bodies 4A and 4B are divided into two in the width direction of the door body 3 and are arranged on both ends of the door body 3, respectively, but may be divided into three or more parts. In short, it is sufficient that at least one bag is arranged on each side of the door 3.

各袋体4A,4Bは、横長枕状に形成されて、下部が底部1aに固定されることにより、上方に膨張すると共に、下方に収縮するようになる。   Each bag 4A, 4B is formed in a horizontally long pillow shape, and its lower part is fixed to the bottom 1a, so that it expands upward and contracts downward.

袋体4A,4Bには、コンプレッサ12、圧縮空気タンク13および電磁切換弁14A,14B等を介して空気の給排気管8A,8Bがそれぞれ接続されて、電磁切換弁14A,14Bの切換によって、袋体4A,4Bに個別に空気を給気するとともに、袋体4A,4Bから個別に空気を排気するようになっている。   Air supply / exhaust pipes 8A and 8B are connected to the bag bodies 4A and 4B via the compressor 12, the compressed air tank 13 and the electromagnetic switching valves 14A and 14B, respectively. By switching the electromagnetic switching valves 14A and 14B, Air is individually supplied to the bag bodies 4A and 4B, and air is individually exhausted from the bag bodies 4A and 4B.

扉体3の両端側には、扉体3の両端部の傾斜角度をそれぞれ検出する傾斜計(開度計)16A,16Bが設けられているとともに、傾斜計16A,16Bの検出信号で電磁切換弁14A,14Bを切換制御させるための制御回路17が設けられている。この制御回路17や電磁切換弁14A,14Bは、袋体4A,4B毎に空気を給排気制御する制御手段を構成する。   Inclinometers (opening gauges) 16A and 16B for detecting the inclination angles of both ends of the door body 3 are provided on both ends of the door body 3, and electromagnetic switching is performed by detection signals of the inclinometers 16A and 16B. A control circuit 17 for switching and controlling the valves 14A and 14B is provided. The control circuit 17 and the electromagnetic switching valves 14A and 14B constitute control means for controlling air supply / exhaust for each of the bags 4A and 4B.

前記のように起伏ゲート2を構成すれば、通常時は、扉体3の両端側の袋体4A,4Bに空気を等量で給排気制御することで、扉体3を起立位置Uと倒伏位置Dとに回動させるようになる。   If the raising / lowering gate 2 is configured as described above, normally, the door body 3 is lowered from the standing position U by controlling the air supply / exhaust to the bag bodies 4A and 4B at both ends of the door body 3 in equal amounts. Rotate to position D.

そして、水路1の流量調整のために、扉体3を中間開度(図2の符号N参照)で使用する場合には、図3のように、水路1の両岸部で外力が同じであれば、起伏ゲート2の扉体3の両端部3a,3b側が撓むことが無いので、扉体3の高さ(堰高)が定まることになる(堰高H1参照)。   When the door body 3 is used at an intermediate opening (see the symbol N in FIG. 2) for adjusting the flow rate of the water channel 1, the external force should be the same on both banks of the water channel 1 as shown in FIG. In this case, both ends 3a and 3b of the door 3 of the hoisting gate 2 are not bent, so that the height (weir height) of the door 3 is determined (see weir height H1).

これに対して、水路1で偏流等が発生したり、水路1が曲がっているような箇所においては、水路1の両岸部で外力が異なるから、袋体4A,4Bの支持力(空気の供給量)が一定であれば、外力が高い側の扉体3の一方端側(図3では向かって右側の端部3aとする。)が下流側に撓むようになるので、扉体の一方端部3a側の高さ(堰高)が他方端部3b側よりも低くなる(堰高H2参照)。これにより、両岸部で堰高H1,H2が変わることで水路1の流量調整が正確に行えなくなる。   On the other hand, in locations where drift or the like occurs in the water channel 1 or the water channel 1 is bent, the external force differs between the two banks of the water channel 1, so that the supporting force (supply of air) of the bags 4A and 4B If the amount is constant, one end of the door 3 on the side with high external force (the right end 3a in FIG. 3) bends to the downstream side, so one end of the door The height (weir height) on the 3a side is lower than the other end 3b side (see weir height H2). As a result, the weir heights H1 and H2 change on both banks, so that the flow rate of the water channel 1 cannot be adjusted accurately.

そこで、図1のように、扉体3の両端部3a,3b側の袋体4A,4Bを、袋体4A,4B毎に電磁切換弁14A,14Bの切換で、空気を給排気制御することにより、外力が高い側の扉体3の一方端部3a側が下流側に撓むようになれば、この側の袋体4Aに空気をより多く供給して袋体4Aの支持力を高めることで、扉体3の一方端部3a側が撓まなくなる結果、水路1の両岸部で堰高H1が変わらないようになって(堰高の同調)、水路の流量調整が正確に行えるようになる。   Therefore, as shown in FIG. 1, air supply / exhaust control is performed on the bag bodies 4A and 4B on the both end portions 3a and 3b side of the door body 3 by switching the electromagnetic switching valves 14A and 14B for the bag bodies 4A and 4B. Thus, if the one end portion 3a side of the door body 3 on the side where the external force is high comes to bend to the downstream side, by supplying more air to the bag body 4A on this side and increasing the supporting force of the bag body 4A, the door As a result of the one end 3a side of the body 3 not being bent, the weir height H1 does not change on both banks of the water channel 1 (weir height adjustment), and the flow rate of the water channel can be adjusted accurately.

特に、扉体3の両端部3a,3bの傾斜角度を傾斜計16A,16Bで検出して、この検出信号に基づいて制御回路17により電磁切換弁14A,14Bを切換制御することで、傾斜角度がほぼ同じとなるように空気の給排気制御を自動的に遠隔操作で行うことが可能となるので、水路の流量調整が常に正確に行えるようになる。   In particular, the inclination angles of the both end portions 3a and 3b of the door body 3 are detected by the inclinometers 16A and 16B, and the control circuit 17 switches and controls the electromagnetic switching valves 14A and 14B based on the detection signals. Since the air supply / exhaust control can be automatically performed by remote operation so that the flow rate is substantially the same, the flow rate of the water channel can always be adjusted accurately.

また、水路1の両岸部で堰高H1が変わらないので、景観的な見苦しさが解消され、下流河床部の洗掘も低減できるようになる。   Moreover, since the weir height H1 does not change in both banks of the water channel 1, the unsightly appearance is eliminated and the scouring of the downstream riverbed can be reduced.

さらに、扉体3の両端部3a,3b側が撓むことで扉体3が偏った場合、図3に示したように、水路1の側部戸当たり4a,4bに扉体3の端部5a,5bが接触し、扉体3の回動によって各々に擦れ傷が生じる。そして、側部戸当たり4a,4bの擦れ傷が不規則に生長した場合、扉体3の回動に対する抵抗力が増大し、扉体3の起伏機能に支障が生じることがある。これに対して、本実施形態では、扉体3の偏りが防止できるので、扉体3の端部5a,5bと水路1の側部戸当たり4a,4bとの接触を避けることができる。   Further, when the door body 3 is biased by bending the both end portions 3a and 3b sides of the door body 3, the end portions 5a of the door body 3 are placed on the side doors 4a and 4b of the water channel 1 as shown in FIG. , 5b come into contact with each other, and the door body 3 is rubbed to cause scratches. And when the abrasion of 4a, 4b per side door grows irregularly, the resistance with respect to rotation of the door body 3 increases, and the raising / lowering function of the door body 3 may be hindered. On the other hand, in this embodiment, since the bias of the door body 3 can be prevented, the contact between the end portions 5a and 5b of the door body 3 and the side doors 4a and 4b of the water channel 1 can be avoided.

本発明の実施形態に係る起伏ゲートを下流側から見た正面図である。It is the front view which looked at the relief gate which concerns on embodiment of this invention from the downstream. 図1の起伏ゲートの側面断面図である。It is side surface sectional drawing of the relief gate of FIG. 中間開度の扉体を下流側から見た正面図である。It is the front view which looked at the door body of the middle opening degree from the downstream.

符号の説明Explanation of symbols

1 水路
1a 底部
2 起伏ゲート
3 扉体
4A,4B 袋体
8A,8B 給排気管
14A,14B 電磁切換弁
16A,16B 傾斜計
17 制御回路
U 起立位置
D 倒伏位置
N 中間開度
DESCRIPTION OF SYMBOLS 1 Waterway 1a Bottom part 2 Relief gate 3 Door body 4A, 4B Bag body 8A, 8B Supply / exhaust pipe 14A, 14B Electromagnetic switching valve 16A, 16B Inclinometer 17 Control circuit U Standing position D Lodging position N Intermediate opening

Claims (2)

水路の底部で、上流側の起立位置と下流側の倒伏位置との間で回動可能にクランプされた扉体と、この扉体の下流側に設置された袋体とが設けられて、空気の供給による袋体の膨張で扉体が起立方向に回動されるとともに、空気の排出による袋体の収縮で扉体が倒伏方向に回動されるようになった起伏ゲートにおいて、
前記袋体は、扉体の横幅方向に少なくとも2分割されて、扉体の両端側にそれぞれ配置され、袋体毎に空気の給排気管がそれぞれ接続されているとともに、袋体毎に空気を給排気制御する制御手段が設けられていることを特徴とする起伏ゲート。
At the bottom of the water channel, there is provided a door body that is clamped so as to be rotatable between an upstream standing position and a downstream lying position, and a bag body that is installed on the downstream side of the door body. In the hoisting gate in which the door body is rotated in the standing direction due to the expansion of the bag body due to the supply of, and the door body is rotated in the lying down direction due to the shrinkage of the bag body due to the discharge of air,
The bag body is divided into at least two parts in the lateral width direction of the door body, and is disposed on both ends of the door body, respectively, and an air supply / exhaust pipe is connected to each bag body, and air is supplied to each bag body. An undulating gate, characterized in that a control means for controlling supply and exhaust is provided.
前記扉体の両端側に、扉体の両端部の傾斜角度をそれぞれ検出する傾斜計が設けられていることを特徴とする請求項1に記載の起伏ゲート。   The undulation gate according to claim 1, wherein inclinometers that respectively detect inclination angles of both ends of the door body are provided on both ends of the door body.
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Cited By (3)

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KR101103359B1 (en) 2009-02-25 2012-01-12 주식회사 유일기연 The method establishment and flexible plate weir for regulation containing water
US20240018732A1 (en) * 2022-07-14 2024-01-18 Ching-Hsiu Yeh Energy-saving and gas-efficient pneumatic barrier gate device
US20240018731A1 (en) * 2022-07-14 2024-01-18 Ching-Hsiu Yeh Energy and air saving pneumatic barrier device

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2003074042A (en) * 2001-09-03 2003-03-12 Akio Iida Roof gate for inverted trapezoidal channel
JP2005076277A (en) * 2003-08-29 2005-03-24 Marsima Aqua System Corp Roof weir
JP2006057327A (en) * 2004-08-20 2006-03-02 Marsima Aqua System Corp Roof gate
JP2006207132A (en) * 2005-01-25 2006-08-10 Bridgestone Corp Undulate gate

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2003074042A (en) * 2001-09-03 2003-03-12 Akio Iida Roof gate for inverted trapezoidal channel
JP2005076277A (en) * 2003-08-29 2005-03-24 Marsima Aqua System Corp Roof weir
JP2006057327A (en) * 2004-08-20 2006-03-02 Marsima Aqua System Corp Roof gate
JP2006207132A (en) * 2005-01-25 2006-08-10 Bridgestone Corp Undulate gate

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR101103359B1 (en) 2009-02-25 2012-01-12 주식회사 유일기연 The method establishment and flexible plate weir for regulation containing water
US20240018732A1 (en) * 2022-07-14 2024-01-18 Ching-Hsiu Yeh Energy-saving and gas-efficient pneumatic barrier gate device
US20240018731A1 (en) * 2022-07-14 2024-01-18 Ching-Hsiu Yeh Energy and air saving pneumatic barrier device

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