Water conservancy irrigation area management device

By opening maintenance ports on all four sides of the control box and equipping it with movable sealing plates and locking mechanisms, the problem of limited operating space for irrigation management devices has been solved, enabling efficient installation and disassembly and ensuring the timeliness and stability of irrigation management.

CN224343494UActive Publication Date: 2026-06-09CHINA CONSTR THIRD BUREAU GRP (HAINAN) CO LTD +2

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHINA CONSTR THIRD BUREAU GRP (HAINAN) CO LTD
Filing Date
2025-04-11
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

The existing box-shaped structure design of irrigation district management devices results in limited operating space, which makes installation and maintenance inconvenient, affects maintenance quality, and may delay irrigation.

Method used

The control box has access ports on all four sides and is equipped with movable sealing plates. The sealing plates are kept stably connected to the control box by a locking mechanism and spring force. The unlocking process is simplified by a pull rod, and a sealing ring is provided to reduce wear.

Benefits of technology

It improved the efficiency of installation and dismantling of management equipment, reduced operation time and labor costs, ensured the timeliness and stability of water conservancy and irrigation area management, and extended the service life of the equipment.

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    Figure CN224343494U_ABST
Patent Text Reader

Abstract

The application discloses a water conservancy irrigation area management device and belongs to the field of water conservancy management devices.The management device comprises a control box and a management device body arranged in the interior of the control box; four edges of the control box are provided with overhauling openings in communication with the interior of the control box, the interiors of the overhauling openings are movably provided with sealing plates, the bottom sides of the sealing plates are fixedly connected with rotating rods rotatably connected with the control box, the top inner sides of the sealing plates are symmetrically provided with locking mechanisms connected with the control box, and one of the sealing plates is provided with an overhauling door. The overhauling openings are arranged on the four edges of the control box and are provided with movable sealing plates, so that the convenience of mounting and dismounting the management device body is greatly improved. Compared with a traditional box body provided with only one overhauling opening and being narrow, the design enables workers to have more directions to choose when operating, and the tools and components are more smoothly put in and taken out, so that the mounting and dismounting efficiency is remarkably improved, and the operation time and labor cost are reduced.
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Description

Technical Field

[0001] This application relates to the field of water conservancy management device technology, specifically a water conservancy irrigation district management device. Background Technology

[0002] Water conservancy and irrigation district management is a complex process involving multiple aspects such as the effective utilization of water resources, the construction and maintenance of irrigation facilities, and the formulation of irrigation regulations. In addition, water conservancy and irrigation district management also needs to take into account the construction and maintenance of irrigation facilities, including the construction and maintenance of infrastructure such as canals, pumping stations, and reservoirs, to ensure the normal operation of the irrigation system.

[0003] Currently, irrigation management devices are often installed inside enclosures to protect them. However, existing enclosures typically only have one inspection port. Due to the relatively small internal space, the operating space for workers is limited when installing, repairing, or replacing components of the irrigation management devices. This makes it difficult to use tools and move parts in and out, resulting in extremely inconvenient replacement work. This not only consumes a lot of time and manpower but may also affect the quality of repairs due to operational difficulties. In emergency situations, repairs may not be completed in time, delaying irrigation and thus adversely affecting crop growth and agricultural production.

[0004] Therefore, this application provides a water conservancy irrigation district management device to solve the above problems. Utility Model Content

[0005] The purpose of this application is to provide a water conservancy irrigation area management device to solve the problem of inconvenience in operation caused by the structural design defects of the box in the installation and maintenance of existing management devices, improve the efficiency of installation and dismantling of management devices, and ensure the smooth operation of water conservancy irrigation area management.

[0006] To achieve the above objectives, this application provides the following technical solution: a water conservancy irrigation area management device, including a control box and a management device body disposed inside the control box, wherein the control box is provided with a receiving cavity, and inspection ports are provided around the receiving cavity.

[0007] To facilitate the installation or removal of the management device, the control box has access ports on all four sides that communicate with its interior. Each access port has a movably mounted sealing plate. The bottom two sides of each sealing plate are fixedly connected to rotating rods that are rotatably connected to the control box. The top inner side of each sealing plate has symmetrically arranged locking mechanisms connected to the control box. One of the sealing plates has an access door. When the management device needs to be installed or removed, first open the access door on the sealing plate, then release the locking mechanism from the control box. Since the rotating rods on the bottom two sides of the sealing plate are rotatably connected to the control box, after the locking mechanism is unlocked, the movable end of the sealing plate can rotate around the rotating rods, thus exposing the access port. At this point, the management device can be easily removed from or installed inside the control box.

[0008] Preferably, the locking mechanism includes a frame plate fixedly connected to the sealing plate, a push plate disposed within the frame plate, an insert plate slidably inserted into one end of the frame plate and fixedly connected to the push plate, and a spring disposed within the frame plate and fixedly connected to the end of the push plate away from the insert plate. The control box has a slot for inserting the insert plate. The spring force pushes the push plate to stably insert the insert plate into the slot of the control box, ensuring the stability of the connection between the sealing plate and the control box. This design can effectively prevent the sealing plate from being accidentally opened due to external force vibration and other factors, ensuring that the management device body inside the control box is always in a closed and safe state in the complex working environment of the irrigation area, avoiding damage to the management device body from external factors such as dust and water vapor, and extending the service life of the management device body.

[0009] Preferably, to facilitate the disconnection of the insert plate from the slot: the locking mechanism further includes a pull rod slidably inserted into the end of the frame plate away from the insert plate. The pull rod is fixedly connected to the push plate, and the spring is fitted onto the pull rod. The pull rod allows the operator to easily and quickly disconnect the insert plate from the slot by pulling it. This design greatly simplifies the operation process. When the management device body needs to be repaired or disassembled, the operator does not need to use complex tools or perform cumbersome operations. They only need to pull the pull rod to unlock it, which improves maintenance efficiency and saves valuable time for timely handling of the management device body's faults.

[0010] Preferably, to facilitate pulling the lever, a pull ring is fixedly connected to the end of the lever away from the push plate. The outer wall of the pull ring is provided with an anti-slip cloth. The pull ring further facilitates the operator in pulling the lever. The pull ring provides a structure that is easy to grip. Compared with pulling the lever directly, the operator can apply force more easily and stably. Especially when the operating space is limited, the pull ring can increase the convenience and comfort of operation, reduce the possibility of operational errors, and improve overall work efficiency.

[0011] Preferably, to facilitate the installation of the maintenance door: an observation port is provided on the sealing plate, and the maintenance door is installed in the observation port via a hinge. The movable end of the maintenance door is connected to the sealing plate via an electrical cabinet lock. By providing an observation port on the sealing plate and using hinges to install the maintenance door, while connecting the movable end of the maintenance door to the sealing plate via the electrical cabinet lock, the installation and fixation of the maintenance door are facilitated. It also allows staff to conduct daily observations of the operating status of the management device inside the control box through the observation port. The use of the electrical cabinet lock enhances the security of the maintenance door, preventing unauthorized personnel from opening the maintenance door at will and protecting the safe operation of the management device.

[0012] Preferably, to reduce wear between the sealing plate and the control box: the control box is equipped with a sealing ring for sealing the gap between the control box and the sealing plate. The sealing ring is made of wear-resistant rubber. The sealing ring effectively reduces wear between the sealing plate and the control box, greatly extending the service life of the control box and the sealing plate. In the complex working environment of irrigation areas, frequent equipment vibration and possible minor displacements can easily cause friction between the sealing plate and the control box. The presence of the sealing ring acts like a soft and elastic buffer layer between the two, reducing damage caused by direct friction. At the same time, the good sealing performance prevents dust, moisture and other impurities from entering the control box, avoiding damage to the management device itself, further ensuring the stable operation of the management device and reducing equipment maintenance costs.

[0013] This application, through the design of opening maintenance ports on all four sides of the control box and equipping it with movable sealing plates, greatly improves the convenience of installation and disassembly of the management device. Compared with the traditional box with only one maintenance port and limited space, this design allows staff to have more options during operation, and the entry and exit of tools and parts are smoother, significantly improving the efficiency of installation and disassembly, reducing the time and labor costs required for operation, and also providing the possibility of rapid repair of the management device in emergency situations, ensuring the timeliness and stability of water conservancy and irrigation area management.

[0014] This application utilizes the elastic force of a spring to push the push plate, ensuring that the insert plate is stably inserted into the slot of the control box. This guarantees the stability of the connection between the sealing plate and the control box. This design can effectively prevent the sealing plate from being accidentally opened due to external force vibration or other factors. It ensures that the main body of the management device inside the control box is always in a closed and safe state in the complex working environment of the irrigation area, avoiding damage to the main body of the management device from external factors such as dust and moisture, and extending the service life of the main body of the management device.

[0015] This application utilizes a lever that allows workers to easily and quickly disconnect the insert plate from the slot by pulling the lever. This design greatly simplifies the operation process. When the management device needs to be repaired or disassembled, workers do not need to use complicated tools or perform cumbersome operations; they can simply pull the lever to unlock it, which improves maintenance efficiency and saves valuable time for timely handling of malfunctions in the management device. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0017] Figure 2 for Figure 1 A schematic diagram of the unfolded state of the sealing plate;

[0018] Figure 3 A schematic diagram of the part where the sealing plate is connected to the control box via a locking mechanism;

[0019] Figure 4 for Figure 3 Enlarged structural diagram at point A in the middle.

[0020] In the picture:

[0021] 1. Control box; 11. Inspection port; 12. Slot; 2. Management device body; 3. Sealing plate; 31. Rotating rod; 32. Inspection door; 33. Observation port; 4. Locking mechanism; 41. Frame plate; 42. Push plate; 43. Insert plate; 44. Spring; 45. Pull rod; 451. Pull ring; 5. Sealing ring. Detailed Implementation

[0022] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the embodiments of this application, and not all of the embodiments. Based on the embodiments of this application, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of this application.

[0023] This embodiment provides a water conservancy irrigation district management device, such as... Figure 1-4 As shown, the management device includes a control box 1 and a management device body 2 disposed inside the control box 1. The control box 1 has a receiving cavity inside, and inspection ports 11 are provided around the receiving cavity.

[0024] To facilitate the installation and disassembly of the management device body 2: The control box 1 has four access ports 11 on each side, communicating with the interior of the control box 1. Each access port 11 has a movable sealing plate 3 inside. The bottom two sides of each sealing plate 3 are fixedly connected to rotating rods 31 that are rotatably connected to the control box 1. The top inner side of each sealing plate 3 is symmetrically equipped with locking mechanisms 4 connected to the control box 1. One of the sealing plates 3 has an access door 32. By providing access ports 11 on all four sides of the control box 1 and equipping it with movable sealing plates 3, the ease of installation and disassembly of the management device body 2 is greatly improved. Compared to traditional boxes with only one access port 11 and limited space, this design provides operators with more options during operation. The movement of tools and components is smoother, significantly improving the efficiency of installation and disassembly, reducing the time and labor costs required for operation, and also providing the possibility of rapid maintenance of the main body 2 of the management device in emergency situations, ensuring the timeliness and stability of the water conservancy irrigation area management work. When it is necessary to install or disassemble the main body 2 of the management device, first open the inspection door 32 on the sealing plate 3, and then release the connection between the locking mechanism 4 and the control box 1. Since the rotating rods 31 on both sides of the bottom of the sealing plate 3 are rotatably connected to the control box 1, after the locking mechanism 4 is unlocked, the movable end of the sealing plate 3 can rotate around the rotating rod 31, thereby exposing the inspection port 11. At this time, the main body 2 of the management device can be easily taken out from the inside of the control box 1 or installed inside.

[0025] The locking mechanism 4 includes a frame plate 41 fixedly connected to the sealing plate 3, a push plate 42 disposed within the frame plate 41, an insert plate 43 slidably inserted into one end of the frame plate 41 and fixedly connected to the push plate 42, and a spring 44 disposed within the frame plate 41 and fixedly connected to the end of the push plate 42 away from the insert plate 43. The control box 1 has a slot 12 for inserting the insert plate 43. The spring force of the spring 44 pushes the push plate 42 to stably insert the insert plate 43 into the slot 12 of the control box 1, ensuring the stability of the connection between the sealing plate 3 and the control box 1. This design can effectively prevent the sealing plate 3 from being damaged due to external force vibration and other factors. If the sealing plate 3 is accidentally opened, it ensures that the internal management device body 2 of the control box 1 is always in a closed and safe state in the complex working environment of the irrigation area, avoiding damage to the management device body 2 caused by external factors such as dust and water vapor, and extending the service life of the management device body 2. When the spring 44 is in a naturally extended state, the elastic force it generates pushes the push plate 42 to move closer to the insertion plate 43, thereby driving the insertion plate 43 to be inserted into the slot 12 opened in the control box 1, realizing a tight connection between the sealing plate 3 and the control box 1, and playing a locking role for the sealing plate 3, maintaining the closed environment inside the control box 1.

[0026] To facilitate the disconnection of the insert plate 43 from the slot 12, the locking mechanism 4 also includes a pull rod 45 slidably inserted into the end of the frame plate 41 away from the insert plate 43. The pull rod 45 is fixedly connected to the push plate 42, and a spring 44 is fitted onto the pull rod 45. The pull rod 45, fixedly connected to the push plate 42, allows operators to easily and quickly disconnect the insert plate 43 from the slot 12 by pulling the pull rod 45. This design greatly simplifies the operation process. When maintenance and disassembly of the management device body 2 are required, operators do not need complex tools or cumbersome operations; they only need to pull the pull rod 45 to unlock, improving maintenance efficiency. This buys valuable time for timely handling of malfunctions in the main body 2 of the management device. When it is necessary to repair and disassemble the main body 2 of the management device, the staff pulls the lever 45 to move it away from the end of the insert plate 43. Since the lever 45 is fixedly connected to the push plate 42, the movement of the lever 45 drives the push plate 42 to move synchronously. The push plate 42 then pushes the insert plate 43 to overcome the elastic force of the spring 44 and move it into the frame plate 41. During this process, the spring 44 is compressed and stores elastic potential energy. When the insert plate 43 is completely moved out of the slot 12, the locking state between the sealing plate 3 and the control box 1 is released. At this time, the sealing plate 3 can rotate around the rotating rod 31 to open the inspection port 11.

[0027] To facilitate the movement of the pull rod 45, a pull ring 451 is fixedly connected to the end of the pull rod 45 away from the push plate 42. The outer wall of the pull ring 451 is provided with an anti-slip cloth. The pull ring 451 further facilitates the operation of the pull rod 45 by the staff. The pull ring 451 provides a structure that is easy to hold. Compared with pulling the pull rod 45 directly, the staff can apply force more easily and stably. Especially when the operating space is limited, the pull ring 451 can increase the convenience and comfort of operation, reduce the possibility of operation errors, and improve the overall work efficiency. The staff can pass their fingers through the pull ring 451 and then apply force to pull the pull ring 451. The pull ring 451 transmits the force to the pull rod 45, thereby driving the pull rod 45 and the connected push plate 42, insert plate 43 and other components to move, realizing the disengagement operation of the insert plate 43 from the slot 12.

[0028] To facilitate the installation of the inspection door 32: an observation port 33 is provided on the sealing plate 3. The inspection door 32 is installed in the observation port 33 via a hinge. The movable end of the inspection door 32 is connected to the sealing plate 3 via an electrical cabinet lock. By providing an observation port 33 on the sealing plate 3 and using hinges to install the inspection door 32, while simultaneously connecting the movable end of the inspection door 32 to the sealing plate 3 via the electrical cabinet lock, the installation and fixation of the inspection door 32 are facilitated. It also allows personnel to easily observe the operating status of the internal management device body 2 of the control box 1 through the observation port 33. The use of the electrical cabinet lock enhances the security of the inspection door 32. For security, to prevent unauthorized personnel from opening the maintenance door 32 at will, and to protect the safe operation of the management device body 2, the hinge, as a connecting component, allows the maintenance door 32 to rotate around its axis, realizing the opening and closing operation of the maintenance door 32. When the maintenance door 32 is closed, the electrical cabinet lock, through the cooperation of the lock cylinder and the lock buckle, tightly connects the movable end of the maintenance door 32 to the sealing plate 3, preventing the maintenance door 32 from being opened accidentally. When it is necessary to open the maintenance door 32, the corresponding key is used to open the electrical cabinet lock, and the maintenance door 32 can be rotated to observe or operate the inside of the control box 1 through the observation port 33.

[0029] To reduce wear between the sealing plate 3 and the control box 1, a sealing ring 5 is installed on the control box 1 to seal the gap between the control box 1 and the sealing plate 3. The sealing ring 5 is made of wear-resistant rubber. The installation of the sealing ring 5 effectively reduces wear between the sealing plate 3 and the control box 1, greatly extending the service life of both the control box 1 and the sealing plate 3. In the complex working environment of irrigation areas, frequent equipment vibration and possible minor displacements can easily cause friction between the sealing plate 3 and the control box 1. The presence of the sealing ring 5 acts like a soft and elastic buffer layer between the two, reducing damage caused by direct friction. At the same time, the good sealing performance prevents dust from entering. Moisture and other impurities enter the control box 1, preventing damage to the management device body 2, further ensuring the stable operation of the management device, and reducing equipment maintenance costs. The sealing ring 5 is installed on the control box 1, located in the gap between the control box 1 and the sealing plate 3. When the sealing plate 3 is closed and fits against the control box 1, the sealing ring 5 is squeezed and undergoes elastic deformation, tightly filling the gap between the two. During equipment operation, even if there is a relative movement tendency between the sealing plate 3 and the control box 1, the elasticity of the sealing ring 5 can keep it in a sealed state of the gap, while absorbing the impact force generated by vibration and displacement, reducing the direct friction between the sealing plate 3 and the control box 1, thereby achieving the purpose of reducing wear.

[0030] It should be noted that many of the standard parts used in this utility model are available on the market, while non-standard parts can be specially customized. The connection method adopted in this utility model is also a very common method in the mechanical field, and will not be described in detail here.

[0031] The above description is merely a preferred embodiment of this application, but the scope of protection of this application is not limited thereto. Any equivalent substitutions or modifications made by those skilled in the art within the scope of the technology disclosed in this application, based on the technical solution and concept of this application, should be included within the scope of protection of this application.

Claims

1. An irrigation management device comprising a control box (1) and a management device body (2) disposed inside the control box (1), characterized in that: The inside of the control box (1) is provided with a receiving cavity, the periphery of the receiving cavity is provided with an inspection opening (11), the inside of the inspection opening (11) is movably provided with a sealing plate (3), the bottom of the sealing plate (3) is fixedly connected with a rotating rod (31) which is rotatably connected with the control box (1), the top of the sealing plate (3) is symmetrically provided with a locking mechanism (4) which is connected with the control box (1), and one of the sealing plates (3) is provided with an inspection door (32).

2. The water irrigation management device of claim 1, wherein: The locking mechanism (4) comprises a frame plate (41) fixedly connected with the sealing plate (3), a push plate (42) arranged in the frame plate (41), a plug plate (43) slidably inserted into one end of the frame plate (41) and fixedly connected with the push plate (42), and a spring (44) arranged in the frame plate (41) and fixedly connected with the push plate (42) away from the plug plate (43), and the inside of the control box (1) is provided with a plug groove (12) for the plug plate (43).

3. The water irrigation management device of claim 2, wherein: The locking mechanism (4) further comprises a pull rod (45) slidably inserted into one end of the frame plate (41) away from the plug plate (43), the pull rod (45) is fixedly connected with the push plate (42), and the spring (44) is sleeved on the pull rod (45).

4. The water irrigation management device of claim 3, wherein: One end of the pull rod (45) away from the push plate (42) is fixedly connected with a pull ring (451), and the outer wall of the pull ring (451) is provided with a non-slip cloth.

5. The water irrigation management device of claim 1, wherein: An observation opening (33) is formed in the sealing plate (3), the inspection door (32) is hingedly arranged in the observation opening (33), and the movable end of the inspection door (32) is connected with the sealing plate (3) through an electric cabinet lock.

6. The water irrigation management device of claim 1, wherein: The control box (1) is provided with a sealing ring (5) for sealing the gap between the control box (1) and the sealing plate (3).