An adjustable-angle well pipe interface module

By designing an adjustable-angle well pipe interface module, the connection problem caused by changes in terrain and angle in rural water supply and drainage networks was solved, achieving flexible connection and stable hydraulic performance, and extending service life.

CN224454039UActive Publication Date: 2026-07-035TH ENGINEERING LTD OF THE FIRST HIGHWAY ENGINEERING BUREAU CCCC

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
5TH ENGINEERING LTD OF THE FIRST HIGHWAY ENGINEERING BUREAU CCCC
Filing Date
2025-07-28
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

The existing rural water supply and drainage network connection methods cannot flexibly adapt to complex terrain and angle changes, resulting in easy leakage and cracking at the connection points. In addition, the range of flexible connection angle adjustment is limited, affecting hydraulic performance and service life.

Method used

Design an adjustable-angle well pipe interface module, including a cylindrical connector and first and second connecting structures. The angle of the pipe section can be adjusted by rotating and locking components to adapt to different terrains and angle requirements.

Benefits of technology

It enables flexible connection between pipelines and well shafts, adapts to complex terrain and angle changes, improves connection stability and hydraulic performance, and extends service life.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses an adjustable-angle manhole pipe interface module, including a cylindrical connector, a first connector, and a second connector. The cylindrical connector has a first connecting structure and a second connecting structure at its two ends. The first connector is mounted on the first connecting structure, and the second connector is rotatably mounted on the second connecting structure. A first connector head is located at the end of the first connector away from the cylindrical connector. The second connector includes a first pipe segment and a second pipe segment connected together. The first pipe segment is rotatably connected to the second connecting structure. An end mounting component is provided on the cylindrical connector, and a locking component is provided on the end mounting component to lock the first pipe segment. The adjustable-angle manhole pipe interface module provided by this utility model allows the first connector head and the second connector head to be adjusted to a suitable angle through the installation and adjustment of the first connector and the second connector, satisfying the installation and connection requirements of pipe networks in rural water supply and drainage systems.
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Description

Technical Field

[0001] This utility model relates to the field of water supply and drainage system construction technology, and in particular to an adjustable-angle manhole pipe interface module. Background Technology

[0002] In rural water supply and drainage systems, the rational layout and stable operation of the pipeline network are directly related to the quality of life of rural residents and the normal operation of agricultural production. However, rural areas have complex and diverse terrains, including plains, hills, and mountains, and the scattered layout of villages and irregular division of land plots result in water supply and drainage pipeline networks exhibiting significant characteristics of multiple branches and varying slopes.

[0003] To meet the water and drainage needs of different areas, the pipeline network needs to be continuously extended and branched according to factors such as village distribution and farmland location, forming a complex network structure. At the same time, affected by the undulating terrain, the laying slope of the pipeline network needs to be adjusted according to the terrain changes. In this process, the connection angle of the pipeline network often changes frequently and irregularly due to the adjustment of the route and the change of slope, especially at branch nodes, bends, and connection points with modular wells, where the angle changes are more prominent.

[0004] Currently, PVC and plastic-lined pipes are commonly used in rural water supply and drainage networks, and existing connection methods are mostly rigid or fixed-angle flexible connections. Rigid connections rely on fixed pipe fittings or cement pouring, lacking flexibility and unable to adapt to displacement and angle changes caused by terrain variations or angle adjustments, easily leading to problems such as leakage and cracking at the connection points. While existing flexible connection methods offer some elasticity, their angle adjustment range is limited, making it difficult to match the complex and varied angle requirements of rural pipe networks. When connected to modular wells, angle mismatches often affect the hydraulic performance and service life of the network. Utility Model Content

[0005] The purpose of this invention is to provide an adjustable-angle well pipe interface module to address the aforementioned shortcomings in the prior art.

[0006] To achieve the above objectives, this utility model provides the following technical solution:

[0007] An adjustable-angle well pipe interface module includes a cylindrical connector with a hollow interior forming a connection channel. A first connection structure and a second connection structure are respectively provided at both ends of the cylindrical connector. A first connector is mounted on the first connection structure, and a second connector is rotatably mounted on the second connection structure. A first channel is provided inside the first connector, communicating with the connection channel. A first connector head is provided at the end of the first connector away from the cylindrical connector. The second connector includes a first pipe segment and a second pipe segment connected together. A second channel is provided inside the first and second pipe segments, communicating with the connection channel. The first pipe segment is rotatably connected to the second connection structure. A second connector head is provided at the end of the second pipe segment. An end mounting component is provided on the cylindrical connector, and a locking member is provided on the end mounting component for locking the first pipe segment.

[0008] The aforementioned adjustable-angle well pipe interface module includes an end mounting component comprising an integrally formed arc-shaped plate and a circular end plate. An annular mounting plate is provided at one end of the cylindrical connector near the second connection structure. The arc-shaped plate is fixedly mounted on the annular mounting plate. A rotational space is formed between the circular end plate and the annular mounting plate for the first pipe section to rotate and adjust.

[0009] The aforementioned adjustable-angle well pipe interface module has a spiral hole on the circular end plate, and the locking component includes a locking bolt rotatably mounted on the spiral hole. The end of the first pipe section is provided with a locking groove corresponding to the locking bolt.

[0010] The aforementioned adjustable-angle well pipe interface module includes an annular connecting groove on the outer wall of the cylindrical connector and an annular limiting groove on the annular mounting plate.

[0011] In the aforementioned adjustable-angle well pipe interface module, the inner wall of the first pipe section has a connecting ring, which is rotatably connected within the annular connecting groove.

[0012] In the aforementioned adjustable-angle well pipe interface module, the end of the first pipe section is provided with an annular plate, which is rotatably connected within the annular limiting groove.

[0013] The aforementioned adjustable-angle well pipe interface module includes a first connector comprising a coaxially arranged tubular connector and a first pipe segment, the first pipe segment being mounted on the first connection structure, a first channel on the tubular connector being coaxial with the connection channel, and a second connector being disposed at the end of the tubular connector away from the cylindrical connector.

[0014] The aforementioned adjustable-angle well pipe interface module includes a first pipe section and a second pipe section as the first connector. The second pipe section is perpendicular to the first pipe section. The first pipe section is installed on the first connecting structure. The end of the cylindrical connector near the first connecting structure is provided with the end mounting component and the locking component.

[0015] In the above technical solution, the adjustable-angle well pipe interface module provided by this utility model includes a cylindrical connector, a first connector, and a second connector. The cylindrical connector has a first connecting structure and a second connecting structure at its two ends. The first connector is mounted on the first connecting structure, and the second connector is rotatably mounted on the second connecting structure. A first connector head is provided at the end of the first connector away from the cylindrical connector. The second connector includes a first pipe section and a second pipe section connected together. The first pipe section is rotatably connected to the second connecting structure. An end mounting component is provided on the cylindrical connector, and a locking component is provided on the end mounting component to lock the first pipe section. Thus, during use, the first connector head and the second connector head can be adjusted to a suitable angle to match the terrain of the pipe network to be installed through the installation and adjustment of the first connector and the second connector head. The first connector head connects to the installation port of the well, and the second connector head connects to the pipe to be installed, thereby allowing the connection angle between the pipe and the well to be adjusted as needed, satisfying the installation and connection requirements of pipe networks in rural water supply and drainage systems. Attached Figure Description

[0016] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the drawings used in the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments recorded in this utility model. For those skilled in the art, other drawings can be obtained based on these drawings.

[0017] Figure 1 An installation diagram of the well pipe interface module provided in an embodiment of this utility model;

[0018] Figure 2 A schematic diagram of the internal structure of the well pipe interface module provided in this embodiment of the utility model;

[0019] Figure 3 A top view of a well pipe interface module provided in another embodiment of the present invention;

[0020] Figure 4 An installation diagram of a well pipe interface module provided in another embodiment of this utility model;

[0021] Figure 5This is a schematic diagram of the internal structure of a well pipe interface module provided in another embodiment of the present invention;

[0022] Figure 6 This is a schematic diagram of the installation of a cylindrical connector provided in another embodiment of the present invention.

[0023] Explanation of reference numerals in the attached figures:

[0024] 1. Columnar connector; 11. Connecting channel; 12. First connecting structure; 13. Second connecting structure; 14. Annular connecting groove; 15. Annular mounting plate; 16. Annular limiting groove; 2. First connector; 21. First channel; 22. Tubular connector; 23. First connector head; 3. End mounting piece; 31. Arc plate; 32. Circular end plate; 33. Spiral hole; 34. Locking component; 341. Locking bolt; 4. Second connector; 41. First pipe section; 411. Connecting ring; 412. Annular plate; 42. Second pipe section; 43. Second connector head; 44. Second channel. Detailed Implementation

[0025] To enable those skilled in the art to better understand the technical solution of this utility model, the present utility model will be further described in detail below with reference to the accompanying drawings.

[0026] like Figure 1-6 As shown, this utility model provides an adjustable-angle well pipe interface module, including a cylindrical connector 1. The interior of the cylindrical connector 1 is hollow to form a connection channel 11. A first connection structure 12 and a second connection structure 13 are respectively provided at both ends of the cylindrical connector 1. A first connector 2 is installed on the first connection structure 12, and a second connector 4 is rotatably installed on the second connection structure 13. A first channel 21 is provided inside the first connector 2, which is connected to the connection channel 11. A first connector head 23 is provided at the end of the first connector 2 away from the cylindrical connector 1. The second connector 4 includes a first pipe section 41 and a second pipe section 42 connected to each other. A second channel 44 is provided inside the first pipe section 41 and the second pipe section 42, which is connected to the connection channel 11. The first pipe section 41 is rotatably connected to the second connection structure 13. A second connector head 43 is provided at the end of the second pipe section 42. An end mounting part 3 is provided on the cylindrical connector 1, and a locking member 34 for locking the first pipe section 41 is provided on the end mounting part 3.

[0027] Specifically, the well pipe interface module includes a cylindrical connector 1, a first connector 2, and a second connector 4. The cylindrical connector 1 is a hollow cylindrical component, forming a connecting channel 11 for supplying water or other liquids. The connecting channel 11 has openings at both ends of the cylindrical connector 1. A first connecting structure 12 and a second connecting structure 13 are respectively provided at both ends of the cylindrical connector 1. The structures of the first connecting structure 12 and the second connecting structure 13 can be the same or different. The first connecting structure 12 is correspondingly provided with the first connector 2, so that the first connector 2 can be installed on the first connecting structure 12. The second connecting structure 13 is correspondingly provided with the second connector 4, so that the second connector 4 can be installed on the second connecting structure 13. The first connector 2 has a first channel 21 inside, and the second connector 4 has a second channel 44 inside. Thus, the first connector 2 and the second connector 4 are respectively connected to the two ends of the cylindrical connector 1, and the first channel 21, the connecting channel 11, and the second channel 44 are sequentially connected.

[0028] In this embodiment, the first connector 2 is provided with a first connector 23, which can be connected to the installation port of the well. The second connector 4 includes a first pipe section 41 and a second pipe section 42 connected to each other. The first pipe section 41 and the second pipe section 42 are connected at a certain angle. The internal channels of the first pipe section 41 and the second pipe section 42 are connected to form a second channel 44. Preferably, the first pipe section 41 and the second pipe section 42 are connected vertically. The first pipe section 41 is rotatably connected to the first connecting structure 12. Thus, by rotating the first pipe section 41, the angle of the second pipe section 42 can be adjusted. A second connector 43 is provided at the end of the second pipe section 42, which can be connected to the pipe to be installed.

[0029] An end mounting part 3 is provided on the cylindrical connector 1, corresponding to the cylindrical connector 1. A locking member 34 is provided on the end mounting part 3, corresponding to the first pipe segment 41. The locking member 34 has an unlocked state for unlocking the first pipe segment 41 and a locked state for locking the first pipe segment 41. Thus, when the angle of the second pipe segment 42 needs to be adjusted, the locking member 34 and the first pipe segment 41 are in the unlocked state, allowing the first pipe segment 41 to rotate and adjust the angle of the second pipe segment 42. Once the second pipe segment 42 is adjusted to a suitable angle, the locking member 34 locks the first pipe segment 41, thereby fixing the second pipe segment 42 at the appropriate angle.

[0030] The adjustable-angle well pipe interface module provided by this utility model includes a cylindrical connector 1, a first connector 2, and a second connector 4. The two ends of the cylindrical connector 1 are respectively provided with a first connecting structure 12 and a second connecting structure 13. The first connector 2 is installed on the first connecting structure 12, and the second connector 4 is rotatably installed on the second connecting structure 13. The end of the first connector 2 away from the cylindrical connector 1 is provided with a first connector head 23. The second connector 4 includes a first pipe section 41 and a second pipe section 42 connected together. The first pipe section 41 is rotatably connected to the second connecting structure 13. The cylindrical connector 1 is provided with an end mounting part 3, and the end mounting part 3 is provided with a locking member 34 for locking the first pipe section 41. In this way, during use, by installing and adjusting the first connector 2 and the second connector 4, the first connector 23 and the second connector 43 are adjusted to a suitable angle to match the terrain of the pipeline to be installed. The first connector 23 is connected to the installation port of the well, and the second connector 43 is connected to the pipeline to be installed. Thus, the connection angle between the pipeline and the well can be adjusted as needed to meet the installation and connection requirements of the pipeline network in the rural water supply and drainage system.

[0031] In a preferred embodiment of this invention, the end mounting member 3 includes an integrally formed arc-shaped plate 31 and a circular end plate 32. An annular mounting plate 15 is provided at one end of the cylindrical connector 1 near the second connecting structure 13. The annular mounting plate 15 is fixedly connected to the cylindrical connector 1, and the arc-shaped plate 31 is fixedly mounted on the annular mounting plate 15. A rotational space is formed between the circular end plate 32 and the annular mounting plate 15 for the first pipe section 41 to rotate and adjust. The size of the annular mounting plate 15 is larger than the size of the cylindrical connector 1. The arc-shaped plate 31 and the annular mounting plate 15 are integrally formed, and a rotational gap is formed between the arc-shaped plate 31 and the cylindrical connector 1. The size of this rotational gap is larger than the thickness of the first pipe section 41.

[0032] In the embodiments provided by this utility model, preferably, both the first connecting structure 12 and the second connecting structure 13 include an annular connecting groove 14 disposed on the outer wall of the cylindrical connector 1, an annular mounting plate 15 is provided with an annular limiting groove 16, and a connecting ring 411 is disposed on the inner wall of the first pipe section 41, the connecting ring 411 being rotatably connected in the annular connecting groove 14. An annular plate 412 is disposed at the end of the first pipe section 41, the annular plate 412 being rotatably connected in the annular limiting groove 16, thus enabling the first pipe section 41 and the cylindrical connector 1 to be rotatably connected together. A sealing ring can also be disposed between the first pipe section 41 and the cylindrical connector 1, thereby sealing the connection between the first pipe section 41 and the cylindrical connector 1.

[0033] In the preferred embodiment of this utility model, the circular end plate 32 is provided with a spiral hole 33, and the locking component 34 includes a locking bolt 341 rotatably mounted on the spiral hole 33. The end of the first pipe section 41 is provided with a locking groove corresponding to the locking bolt 341. The circular end plate 32 is coaxially arranged with the cylindrical connector 1, so the circular plate and the first pipe section 41 are also coaxially arranged. When the second pipe section 42 rotates to a suitable angle, the locking bolt 341 is rotated, so that the end of the locking bolt 341 is pressed into the locking groove, thereby fixing the first pipe section 41 so that the first pipe section 41 cannot rotate, and keeping the second pipe section 42 at a suitable angle.

[0034] In the preferred embodiment provided by this utility model, the first connector 2 includes a coaxially arranged tubular connector 22 and a first pipe section 41. The first pipe section 41 is installed on the first connecting structure 12. The first channel 21 on the tubular connector 22 is coaxial with the connecting channel 11. The second connector 43 is located at the end of the tubular connector 22 away from the cylindrical connector 1. Thus, the tubular connector 22, the first pipe section 41 and the cylindrical connector 1 are coaxially arranged, which is suitable for installation when the wellhead installation port is coaxial with the cylindrical connector 1.

[0035] In another embodiment of this utility model, preferably, the first connector 2 includes a first pipe segment 41 and a second pipe segment 42, which are arranged vertically. The first pipe segment 41 is installed on the first connecting structure 12. The cylindrical connector 1 is provided with an end mounting part 3 and a locking member 34 at one end near the first connecting structure 12. Thus, the structure of the first connector 2 is the same as that of the second connector 4, and its installation and adjustment methods are the same as those of the second connector 4, which will not be described in detail. In this way, during use, the angle of the first connector 23 can be adjusted as needed so that the angle of the first connector 23 meets the requirements.

[0036] The foregoing description only illustrates certain exemplary embodiments of the present invention. Undoubtedly, those skilled in the art can modify the described embodiments in various ways without departing from the spirit and scope of the present invention. Therefore, the above drawings and descriptions are illustrative in nature and should not be construed as limiting the scope of protection of the claims of the present invention.

Claims

1. An angle adjustable wellbore conduit interface module characterized by, The device includes a cylindrical connector with a hollow interior forming a connection channel. A first connection structure and a second connection structure are respectively provided at both ends of the cylindrical connector. A first connector is mounted on the first connection structure, and a second connector is rotatably mounted on the second connection structure. The first connector has a first channel inside, which communicates with the connection channel. A first connector head is provided at the end of the first connector away from the cylindrical connector. The second connector includes a first pipe segment and a second pipe segment connected together. A second channel is provided inside the first and second pipe segments, which communicates with the connection channel. The first pipe segment is rotatably connected to the second connection structure. A second connector head is provided at the end of the second pipe segment. An end mounting member is provided on the cylindrical connector, and a locking component is provided on the end mounting member to lock the first pipe segment.

2. The adjustable angle wellbore conduit interface module of claim 1, wherein, The end mounting component includes an integrally formed arc-shaped plate and a circular end plate. An annular mounting plate is provided at one end of the cylindrical connector near the second connecting structure. The arc-shaped plate is fixedly mounted on the annular mounting plate. A rotational space is formed between the circular end plate and the annular mounting plate for the first pipe section to rotate and adjust.

3. The adjustable angle wellbore conduit interface module of claim 2, wherein, The circular end plate is provided with a spiral hole, and the locking component includes a locking bolt rotatably mounted on the spiral hole. The end of the first pipe section is provided with a locking groove corresponding to the locking bolt.

4. The adjustable angle wellbore conduit interface module of claim 3, wherein, Both the first connection structure and the second connection structure include an annular connection groove disposed on the outer wall of the cylindrical connector, and an annular limiting groove is disposed on the annular mounting plate.

5. The adjustable angle wellbore conduit interface module of claim 4, wherein, The inner wall of the first pipe section has a connecting ring, which is rotatably connected in the annular connecting groove.

6. The adjustable angle wellbore conduit interface module of claim 4, wherein, An annular plate is provided at the end of the first pipe section, and the annular plate is rotatably connected in the annular limiting groove.

7. The adjustable angle wellbore conduit interface module of claim 1, wherein, The first connector includes a tubular connector and a first pipe segment arranged coaxially. The first pipe segment is installed on the first connection structure. The first channel on the tubular connector is coaxial with the connection channel. The second connector is located at the end of the tubular connector away from the cylindrical connector.

8. The adjustable angle wellbore conduit interface module of claim 1, wherein, The first connector includes a first pipe segment and a second pipe segment. The second pipe segment is arranged perpendicularly to the first pipe segment. The first pipe segment is installed on the first connecting structure. The end of the cylindrical connector near the first connecting structure is provided with the end mounting member and the locking member.