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CN-224213242-U - Inlay in drainage conveyer of dam

CN224213242UCN 224213242 UCN224213242 UCN 224213242UCN-224213242-U

Abstract

The utility model relates to the technical field of flood control scheduling, in particular to a drainage and transportation device inlaid in a dam, which comprises a connecting assembly, a channel assembly, a fixing assembly and a drainage assembly, wherein the connecting assembly comprises a channel unit component, a sliding assembly between a channel and a dam body and a connecting panel, the channel unit component is used for connecting channel units to form a complete drainage channel, and the channel assembly is an integral body formed by independent channel units. The device has high flexibility, can adjust the installation position according to the water level change, has a real-time monitoring function, remarkably improves the drainage efficiency and the safety, and reduces the operation and maintenance cost.

Inventors

  • JIANG YAOYU
  • ZHAO ZIMING
  • Shi kedi
  • LIN JINGHENG
  • WANG YAZHOU
  • HE SIRUI
  • CAI YIZHOU
  • WEN ZHANGFENG
  • Yi Yusong
  • ZHAO RUYAN
  • YANG YIFEI
  • LUO QIYANG

Assignees

  • 三峡大学

Dates

Publication Date
20260508
Application Date
20250609

Claims (10)

  1. 1. The utility model provides a inlay in drainage conveyer of dam, includes coupling assembling, passageway subassembly (1), fixed subassembly and drainage subassembly, its characterized in that: The connecting assembly comprises a channel unit component, a sliding assembly between the channel and the dam body and a connecting panel (4); The channel unit component is used for connecting the channel units to form a complete drainage channel, and the channel component (1) is an integral body formed by independent channel units; The fixing component is arranged on the connecting panel (4) and is used for fixing the channel component (1) which moves up and down; the drainage component is fixedly connected with the tail end of the channel component (1); The channel unit components are connected in pairs through a clamping groove structure, rail type protrusions are arranged on the back surfaces of the channel unit components and are connected with a dam face, up-and-down sliding can be achieved, matched rigid pipelines (6) are paved inside the channel unit components, unique central channel units are arranged in the channel unit components, and water filtering holes (151) are formed inside the central channel units.
  2. 2. The dam-inlaid drainage transportation device of claim 1, wherein: The channel component (1) is formed by connecting common independent channel units and central channel units, the channel component (1) is formed by three rows of channels formed by the channel units according to a specific sequence, the coordinated distribution of water inlet and water distribution is realized, the upper row and the lower row are water inlet channels, and the middle is a water drainage channel.
  3. 3. The dam-inlaid drainage transportation device of claim 2, wherein: the intelligent water heater is characterized in that an installation clamping groove (161) is formed in the water facing surface of the central channel unit, a screw installation position is formed in the installation clamping groove (161), the installation clamping groove (161) is fixed on the central channel unit, a detection hole (162) is formed in the installation clamping groove (161), and an information detection unit and a sensor are embedded in the detection hole (162).
  4. 4. The dam-inlaid drainage transportation device of claim 1, wherein: The tail end of the single-row channel assembly (1) is connected with threads (141) of the rigid pipeline (6), the tail end of the horizontal pipeline is connected with the rigid pipeline (6) with the arc transition section channel (7) converted into a vertical state, the tail end of the rigid pipeline (6) in the vertical state is connected with a hose (5), and the hose (5) is used as a final drainage channel to guide water flow out.
  5. 5. The dam-inlaid drainage transportation device of claim 4, wherein: the threads (141) of the arc transition section channel (7) are connected with the threads (141) of the rigid pipeline (6) in a vertical state to form a whole, and a siphon pipeline is used.
  6. 6. The dam-inlaid drainage transportation device of claim 1, wherein: The channel unit components are provided with track building block protrusions and depressions on the upper side and the lower side, the protrusions and the depressions on the same side are distributed in opposite sides, the protrusions and the depressions on the upper side and the lower side are distributed in a diagonal mode, the channel unit components are connected in two pairs, the channel unit components are spliced with the building block depression clamping grooves (121) through the building block protrusions (122) up and down, and the channel units forming the same channel are in butt joint through threads (141) and circumferential clamping grooves (131).
  7. 7. The dam-inlaid drainage transportation device of claim 1, wherein: The channel unit component is matched with the rigid pipeline (6), threads (141) and a circumference clamping groove (131) are arranged on the rigid pipeline (6), threads (141) and arc recesses are arranged on the left side, threads (141) and arc protrusions are arranged on the right side, and the arc recesses and the arc protrusions are respectively located at 4 right-angle arc endpoints of the circumference.
  8. 8. The dam-inlaid drainage transportation device of claim 1, wherein: the connecting panel (4) is paved with the track sliding grooves (2), is connected with the track protrusions on the back surface of the channel unit component, and is connected with the dam body.
  9. 9. The dam-inlaid drainage transportation device of claim 1, wherein: The fixing component is used for fixing the channel component (1) at a corresponding working height through the turning plate clamping groove (3).
  10. 10. The dam-inlaid drainage transportation device of claim 9, wherein: The flap clamping groove (3) is controlled by a power system, the gate is connected with the power system through a wire through hole (41), and the flap clamping groove (3) is composed of a flap (32) and a telescopic sliding rod (31).

Description

Inlay in drainage conveyer of dam Technical Field The utility model relates to the technical field of flood control dispatching, in particular to a drainage and transportation device inlaid in a dam. Background The most water storage capacity of the water storage building is usually in a rainy season or a snow melting season, and the specific time depends on local climate distribution conditions and precipitation distribution. During stormwater, if the rainfall is very high, there is indeed a risk of exceeding the capacity of the water storage building. In such cases, the impounded building may overflow, i.e. the water level exceeds the designed maximum water level, resulting in water leakage, flooding of nearby or downstream areas, flooding of farmlands, roads, residential areas and cities, and loss of property and casualties. During stormwater, temporary drainage systems or devices are available to cope with sudden flood conditions, such as pumping water from the water storage structure using a portable or temporarily installed drain pump to lower the water level, in emergency situations, quickly digging or constructing temporary spillways using prefabricated elements to more quickly remove excess water, digging temporary drains or channels to direct water from the water storage structure to other locations, such as rivers, lakes or drainage systems, and at locations where the water storage structure may overflow, sandbags or weirs may be built to form temporary dams to prevent water from entering the depression. These temporary drainage systems or devices are often required to be deployed quickly in emergency situations and to be closely coordinated with local water resource management, emergency response, and engineering technicians. Moreover, these measures tend to be temporary, and may require subsequent reinforcement or more permanent solutions to ensure long-term drainage safety. Furthermore, in daily drainage of a water storage building, a lot of resources may be consumed if only equipment such as a pumping station of a drainage system is used for drainage, and the pumping station may increase maintenance costs of the water storage building including equipment maintenance, structural inspection, repair, etc. if drainage and water storage are frequently performed. In the daily drainage process, the pump station and other mechanical equipment in the drainage system can possibly generate noise and disturbance in operation, so that the life quality of surrounding residents is influenced, and the drainage channel can be blocked due to long-term drainage, so that the drainage process is influenced. And drainage systems for water storage buildings require professional management, including monitoring water levels, flow control, preventing fouling, etc., which management activities can be complex. Disclosure of utility model The utility model aims to provide a drainage transportation device inlaid in a dam, which solves the problems of complex deployment, poor stability and high maintenance cost of the traditional temporary drainage system and is suitable for daily drainage of the dam and overflow emergency treatment in a heavy rain period. In order to achieve the above object, the present utility model provides a drainage transportation device inlaid in a dam, comprising a connecting assembly including a channel unit member, a sliding assembly between a channel and a dam body, and a connecting panel; The channel unit component is used for connecting the channel units to form a complete drainage channel, and the channel component is an integral body formed by independent channel units; The fixing component is arranged on the connecting panel and is used for fixing the channel component which moves up and down; The drainage component is fixedly connected with the tail end of the channel component; The channel unit components are connected in pairs through a clamping groove structure, rail type protrusions are arranged on the back surfaces of the channel unit components and are connected with a dam face, up-and-down sliding can be achieved, matched rigid pipelines are laid inside the channel unit components, unique central channel units are arranged in the channel unit components, and water filtering holes are formed inside the central channel units. The channel assembly is formed by connecting common independent channel units and central channel units, and is formed by three rows of channels formed by the channel units according to a specific sequence, so that coordinated distribution of water inlet and water distribution is realized, the upper row and the lower row are water inlet channels, and the middle is a water drainage channel. The device comprises a central channel unit, a screw, a bolt, a detection hole, an information detection unit and a sensor, wherein the installation clamping groove is arranged on the upstream surface of the central channel unit, the screw is arranged on the installation clamp