Flow director with hydrodynamic twin guide

By combining a hydraulic double-guide device with a surface runoff guide pipe and a pull rope, a stable flow channel is formed, which solves the problem of flow channel damage caused by changes in the spacing of existing guide devices, and achieves the stability and effectiveness of the guide.

CN224478411UActive Publication Date: 2026-07-10

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Filing Date
2025-08-04
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

In existing flow guiding devices, there is a lack of limiting between the two water-blocking structures, which can easily lead to excessive spacing changes and damage to the flow channel.

Method used

A hydraulic double-guide device is adopted, which combines two surface runoff guide pipes with several pull ropes to form a strip area to form a flow channel, and the pull ropes limit the position to avoid changes in the spacing.

Benefits of technology

This effectively avoids excessive changes in the spacing of the ground runoff diversion pipes, maintains the stability of the flow channel, and ensures the diversion effect.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model provides a water conservancy double guide device's water conservancy double guide device is installed on one side of ground runoff flow guide pipe, and the water conservancy double guide device includes two ground runoff flow guide pipes, the utility model discloses a water conservancy double guide device, and the water conservancy double guide device utilizes two ground runoff flow guide pipes and combines with several pull ropes, lets two ground runoff flow guide pipes to form a strip area on the ground, and this strip area constitutes a flow channel, thereby conveniently guiding ground runoff, and simultaneously, two ground runoff flow guide pipes are limited through several pull ropes, can avoid that two ground runoff flow guide pipes easily produce too big interval change, thereby avoiding easily destroying the flow channel.
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Description

Technical Field

[0001] This utility model relates to a flow guide, or more precisely, a flow guide with a hydraulic double-guide device. Background Technology

[0002] Existing diversion devices, in order to form a flow channel for surface runoff and guide its flow in a specific direction, generally require the placement of two water-blocking structures. However, the lack of limiting between these two structures can easily lead to excessive spacing variations, thereby disrupting the flow channel. For example, Chinese utility model patent document CN222513151U discloses a diversion device for hydraulic construction. Figure 7 As shown, the technical solution disclosed in this patent document generally requires the installation of two water-blocking structures to form a flow channel when guiding surface runoff. However, there is no limit between the two guiding devices, which is easily affected by the impact of water flow and causes excessive changes in the spacing. Summary of the Invention

[0003] The purpose of this invention is to provide a flow guide with a hydraulic double-guide device, which can combine two surface runoff guide pipes with several pull ropes to form a strip area on the ground. This strip area constitutes a flow channel, which facilitates the guidance of surface runoff. At the same time, the pull ropes limit the distance between the two surface runoff guide pipes, which can prevent excessive changes in the distance between the two surface runoff guide pipes and thus avoid easily damaging the flow channel.

[0004] To achieve the above objectives, this utility model employs the following technical solution:

[0005] A flow guide with a dual-guide device includes a surface runoff guide pipe. A dual-guide device is installed on one side of the surface runoff guide pipe. The dual-guide device includes two surface runoff guide pipes, which are flexible tubular structures sealed at both ends. One end of one surface runoff guide pipe is connected to one end of a valve. A U-shaped pipe and several pull ropes arranged in a row are installed between the two surface runoff guide pipes. One end of the U-shaped pipe is connected to one surface runoff guide pipe, and the other end of the U-shaped pipe is connected to the other surface runoff guide pipe. One end of the pull rope is engaged with one surface runoff guide pipe, and the other end of the pull rope is engaged with the other surface runoff guide pipe.

[0006] To further achieve the purpose of this utility model, the following technical solution can also be adopted: the side of the ground runoff diversion pipe is connected with a rubber belt, and the two ends of the pull rope are respectively connected to the rubber belts of the two ground runoff diversion pipes.

[0007] Several fixed tubes arranged in a row are connected to the rubber belt. One end of the pull rope is connected to the rubber belt of one of the ground runoff diversion pipes, and the other end of the pull rope is inserted into the fixed tube on another ground runoff diversion pipe. A screw hole is opened on one side of the fixed tube, and the fixed tube is connected to a bolt through the screw hole. The bolt can lock the fixed tube and the pull rope. The fixed tube divides the pull rope into a limiting area and a protruding area.

[0008] The bottom of each of the two ground runoff diversion pipes is connected to a base plate, and a U-shaped frame is installed between the two base plates. Several fixing rings are connected to the side of the U-shaped frame, and the fixing rings are fitted onto the U-shaped pipe.

[0009] The advantages of this utility model are as follows: This utility model adds a hydraulic double-guide device, which combines two ground runoff guide pipes with several pull ropes to allow the two ground runoff guide pipes to form a strip area on the ground. This strip area constitutes a flow channel, which facilitates the guidance of ground runoff. At the same time, the two ground runoff guide pipes are limited by several pull ropes, which can prevent the two ground runoff guide pipes from easily producing excessive spacing changes, thereby avoiding easy damage to the flow channel. Attached Figure Description

[0010] The accompanying drawings are provided to further illustrate the present invention and form part of the specification. They are used together with the embodiments of the present invention to explain the present invention, but do not constitute a limitation thereof. In the drawings:

[0011] Figure 1 This is a schematic diagram of the structure of this utility model;

[0012] Figure 2 for Figure 1 Enlarged cross-sectional view of the structure along line AA;

[0013] Figure 3 A schematic diagram showing the addition of bolts (7) and limiting area (8) to this utility model;

[0014] Figure 4 This is a schematic diagram of the narrowed limiting area (8) of this utility model;

[0015] Figure 5 This is a schematic diagram of the structure of the limiting area (8) of this utility model after unfolding;

[0016] Figure 6 A structural diagram of the U-shaped frame is provided for this utility model;

[0017] Figure 7 This is a structural schematic diagram of the prior art patent publication number: CN222513151U.

[0018] Components marked: 1. Surface runoff diversion pipe 2. Valve 3. U-shaped pipe 4. Pull rope 5. Rubber belt 6. Fixing pipe 7. Bolt 8. Limiting zone 9. Protrusion zone 10. U-shaped frame 11. Fixing ring 12. Base plate 13. Hydraulic double guide device. Detailed Implementation

[0019] The preferred embodiments of this utility model will be described below with reference to the accompanying drawings.

[0020] Example 1:

[0021] A flow guide with a hydraulic double-guide device, such as Figures 1-6 As shown, the device includes a surface runoff diversion pipe 1, and a hydraulic double-guide device 13 is installed on one side of the surface runoff diversion pipe 1. The hydraulic double-guide device 13 includes two surface runoff diversion pipes 1. The surface runoff diversion pipe 1 is a flexible tubular structure with both ends sealed. One end of one surface runoff diversion pipe 1 is connected to one end of a valve 2. A U-shaped pipe 3 and several pull ropes 4 arranged in a row are installed between the two surface runoff diversion pipes 1. One end of the U-shaped pipe 3 is connected to one surface runoff diversion pipe 1, and the other end of the U-shaped pipe 3 is connected to the other surface runoff diversion pipe 1. One end of the pull rope 4 is engaged with one surface runoff diversion pipe 1, and the other end of the pull rope 4 is engaged with the other surface runoff diversion pipe 1.

[0022] This utility model adds a hydraulic double-guide device 13. The hydraulic double-guide device 13 combines two ground runoff guide pipes 1 with several pull ropes 4 to allow the two ground runoff guide pipes 1 to form a strip area on the ground. This strip area constitutes a flow channel, which facilitates the guidance of ground runoff. At the same time, the two ground runoff guide pipes 1 are limited by several pull ropes 4, which can prevent the two ground runoff guide pipes 1 from easily producing excessive spacing changes, thereby avoiding easy damage to the flow channel.

[0023] Specific material selection and feasibility analysis: The samples we actually manufactured used the accompanying drawings as blueprints, and were implemented according to the proportions and fit methods of each component in the drawings. The connections used were common methods such as strong adhesive bonding, welding, riveting, flange connections, and integral molding connections. In actual manufacturing, the corresponding connection method, thickness, and strength of the connection points can be selected according to the actual connection strength requirements without creative innovation. After a certain pressure of water is filled into the ground runoff guide pipe 1 and valve 2, the U-shaped pipe 3 of this utility model can stand upright. This facilitates water flow through the area between the two ground runoff guide pipes 1 and at the bottom of the U-shaped pipe 3, and also facilitates the connection of the two ground runoff guide pipes 1, allowing water to be simultaneously filled into both ground runoff guide pipes 1 through a single valve 2. Valve 2 can connect to a flexible water pipe, with one end of the flexible water pipe connected to one end of valve 2, and the other end of the flexible water pipe connected to the outlet of a submersible pump, which can be placed underwater. The surface runoff diversion pipe 1, U-shaped pipe 3, and rubber strip 5 can all be made of Kevlar fiber cloth with rubber layers on both sides. The Kevlar fiber cloth is immersed in the molten rubber, then pulled out and cooled to form a Kevlar fiber cloth and rubber composite material, ensuring sufficient tensile strength and waterproofness. The Kevlar fiber cloth with rubber layers can be bonded to this novel structure using a strong waterproof adhesive. The surface runoff diversion pipe 1, U-shaped pipe 3, and rubber strip 5 can also be made of rubber.

[0024] Example 2:

[0025] A flow guide with a hydraulic double-guide device, such as Figures 1-6 As shown, the system includes a surface runoff diversion pipe 1, with a hydraulic double-drainage device 13 installed on one side of the surface runoff diversion pipe 1. The hydraulic double-drainage device 13 includes two surface runoff diversion pipes 1, each a flexible tubular structure sealed at both ends. One end of one surface runoff diversion pipe 1 is connected to one end of a valve 2. A U-shaped pipe 3 and several pull ropes 4 arranged in a row are installed between the two surface runoff diversion pipes 1. One end of the U-shaped pipe 3 is connected to one surface runoff diversion pipe 1, and the other end is connected to the other surface runoff diversion pipe 1. One end of each pull rope 4 engages with one surface runoff diversion pipe 1, and the other end engages with the other surface runoff diversion pipe 1. Rubber strips 5 are connected to the sides of the surface runoff diversion pipes 1, and the two ends of the pull ropes 4 are connected to the rubber strips 5 of the two surface runoff diversion pipes 1 respectively.

[0026] The rubber belt 5 of this utility model can increase the contact area between the pull rope 4 and the ground runoff guide pipe 1, thereby preventing the pull rope 4 from easily pulling and damaging the ground runoff guide pipe 1.

[0027] Example 3:

[0028] A flow guide with a hydraulic double-guide device, such as Figures 1-6 As shown, the device includes a surface runoff diversion pipe 1, and a hydraulic double-guide device 13 is installed on one side of the surface runoff diversion pipe 1. The hydraulic double-guide device 13 includes two surface runoff diversion pipes 1. The surface runoff diversion pipe 1 is a flexible tubular structure with both ends sealed. One end of one surface runoff diversion pipe 1 is connected to one end of a valve 2. A U-shaped pipe 3 and several pull ropes 4 arranged in a row are installed between the two surface runoff diversion pipes 1. One end of the U-shaped pipe 3 is connected to one surface runoff diversion pipe 1, and the other end of the U-shaped pipe 3 is connected to the other surface runoff diversion pipe 1. One end of the pull rope 4 is engaged with one surface runoff diversion pipe 1, and the other end of the pull rope 4 is engaged with the other surface runoff diversion pipe 1. Several fixed tubes 6 arranged in a row are connected to the rubber band 5. One end of the pull rope 4 is connected to the rubber band 5 of one of the ground runoff diversion pipes 1, and the other end of the pull rope 4 is inserted into the fixed tube 6 on another ground runoff diversion pipe 1. A screw hole is opened on one side of the fixed tube 6, and the fixed tube 6 is connected to the bolt 7 through the screw hole. The bolt 7 can lock the fixed tube 6 and the pull rope 4. The fixed tube 6 divides the pull rope 4 into a limiting area 8 and a protruding area 9.

[0029] The fixing pipe 6 and bolt 7 of this utility model can easily adjust the length of the pulling rope 4 between the two ground runoff guide pipes 1, thereby adjusting the width between the two ground runoff guide pipes 1, so as to easily adjust the guide area according to actual needs.

[0030] Example 4:

[0031] A flow guide with a hydraulic double-guide device, such as Figures 1-6 As shown, the system includes a surface runoff diversion pipe 1, with a hydraulic double-drainage device 13 installed on one side of the surface runoff diversion pipe 1. The hydraulic double-drainage device 13 includes two surface runoff diversion pipes 1, each a flexible tubular structure sealed at both ends. One end of one surface runoff diversion pipe 1 is connected to one end of a valve 2. A U-shaped pipe 3 and several pull ropes 4 arranged in a row are installed between the two surface runoff diversion pipes 1. One end of the U-shaped pipe 3 is connected to one surface runoff diversion pipe 1, and the other end is connected to the other surface runoff diversion pipe 1. One end of each pull rope 4 engages with one surface runoff diversion pipe 1, and the other end engages with the other surface runoff diversion pipe 1. A base plate 12 is connected to the bottom of each of the two surface runoff diversion pipes 1. A U-shaped frame 10 is installed between the two base plates 12, and several fixing rings 11 are connected to the side of the U-shaped frame 10. The fixing rings 11 are fitted onto the U-shaped pipe 3.

[0032] The base plate 12 of this utility model is combined with the U-shaped frame 10 and the fixing ring 11. The gravity of the water in the ground runoff guide pipe 1 can be used to press on the base plate 12 to provide support for the fixing ring 11, thereby facilitating the formation of an inverted U-shaped structure on the ground by the U-shaped pipe 3.

[0033] The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention.

Claims

1. A flow guide with a hydraulic double-guide device, characterized in that: The device includes a surface runoff diversion pipe (1), and a hydraulic double-guide device (13) is installed on one side of the surface runoff diversion pipe (1). The hydraulic double-guide device (13) includes two surface runoff diversion pipes (1). The surface runoff diversion pipe (1) is a flexible tubular structure with both ends sealed. One end of one surface runoff diversion pipe (1) is connected to one end of a valve (2). A U-shaped pipe (3) and several pull ropes (4) arranged in a row are installed between the two surface runoff diversion pipes (1). One end of the U-shaped pipe (3) is connected to one surface runoff diversion pipe (1), and the other end of the U-shaped pipe (3) is connected to the other surface runoff diversion pipe (1). One end of the pull rope (4) is engaged with one surface runoff diversion pipe (1), and the other end of the pull rope (4) is engaged with the other surface runoff diversion pipe (1).

2. The diverter with a hydraulic double-guide device according to claim 1, characterized in that: The side of the ground runoff diversion pipe (1) is connected to a rubber strip (5), and the two ends of the pull rope (4) are respectively connected to the rubber strips (5) of the two ground runoff diversion pipes (1).

3. The diverter with a hydraulic double-guide device according to claim 2, characterized in that: Several fixed tubes (6) arranged in a row are connected to the rubber strip (5). One end of the pull rope (4) is connected to the rubber strip (5) of one of the ground runoff diversion pipes (1). The other end of the pull rope (4) is inserted into the fixed tube (6) on another ground runoff diversion pipe (1). A screw hole is opened on one side of the fixed tube (6). The fixed tube (6) is connected to a bolt (7) through the screw hole. The bolt (7) can lock the fixed tube (6) and the pull rope (4). The fixed tube (6) divides the pull rope (4) into a limiting area (8) and a protruding area (9).

4. The diverter with a hydraulic double-guide device according to claim 1, characterized in that: The bottom of each of the two ground runoff diversion pipes (1) is connected to a base plate (12), and a U-shaped frame (10) is installed between the two base plates (12). Several fixing rings (11) are connected to the side of the U-shaped frame (10), and the fixing rings (11) are fitted onto the U-shaped pipe (3).