A device for installing a PE wire pipe
By designing an automatic lubricant application system and a support structure, the high labor intensity and low efficiency caused by manual lubrication in existing technologies have been solved, enabling efficient docking and stable installation of PE steel strip reinforced spiral corrugated pipes.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- HUNAN CHENGLU PIPE TECH CO LTD
- Filing Date
- 2024-01-30
- Publication Date
- 2026-06-26
AI Technical Summary
Existing PE pipe connection devices require workers to manually apply lubricant when connecting PE steel strip reinforced spiral corrugated pipes, resulting in high labor intensity and low work efficiency.
An installation device was designed, comprising a guide, a moving part, a clamping part, an adjusting screw, a drive motor, a brush, and a fluid replenishment component. The motor drives the brush to automatically apply lubricating oil, and the clamping part and rollers support the pipeline to improve stability. An anti-vibration component collects excess lubricating oil, and a fixing component ensures the device is stable.
It enables automatic application of lubricating oil, reduces manual operation, improves work efficiency and pipeline connection stability, reduces labor intensity, and improves the stability of the device.
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Figure CN117847312B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of pipeline equipment technology, and in particular to a device for installing PE steel wire pipes. Background Technology
[0002] PE steel strip reinforced spiral corrugated pipe is a type of PE steel wire pipe. In order to extend the length of PE steel strip reinforced spiral corrugated pipe during use, people usually use an installation device to connect two PE steel strip reinforced spiral corrugated pipes together.
[0003] Patent publication number CN214368171U discloses a PE pipe connection device, including a main frame plate and a secondary frame plate. Four connecting rods are fixedly connected between the main frame plate and the secondary frame plate. Sliding seats are slidably connected to the surfaces of the upper two connecting rods. Protective pads are provided on the inner walls of the main frame plate, the secondary frame plate, and the sliding seats. Hinges are hinged to both sides of the sliding seats, and push-pull rods are fixedly connected to the top of the hinge plates. When using this patented PE pipe connection device to install two PE steel-reinforced spiral corrugated pipes, the two PE steel-reinforced spiral corrugated pipes to be connected are first placed separately... Inside the main frame plate, slide block, and auxiliary frame plate, fix the two PE steel strip reinforced spiral corrugated pipes. Then, manually place the special rubber ring for the pipe into the second groove on the outer wall of the spigot end. Mark the insertion depth of the pipe. Next, manually use a brush to evenly apply lubricant to the special rubber ring and the inner wall of the flared end of the other pipe. After the lubricant is applied, manually push the push rod towards the main frame plate to drive the two PE steel strip reinforced spiral corrugated pipes to move closer to each other until the two PE steel strip reinforced spiral corrugated pipes are inserted. This completes the installation of the PE steel strip reinforced spiral corrugated pipes.
[0004] When installing two PE steel strip reinforced spiral corrugated pipes using the PE pipe connection device of the above patent, workers still need to manually apply lubricant evenly to the special rubber ring and the inner wall of the flared end of the other pipe using a brush. This results in workers having to bend over for a long time to apply lubricant during the installation process, which leads to high labor intensity, high labor costs, and affects work efficiency. Therefore, a device for installing PE steel wire pipes that facilitates the connection of PE steel strip reinforced spiral corrugated pipes has been developed. Summary of the Invention
[0005] This invention provides a device for installing PE steel wire pipes that facilitates the connection of PE steel strip reinforced spiral corrugated pipes. This overcomes the shortcomings of existing PE pipe connection devices, which require workers to manually apply lubricating oil with a brush when connecting two PE steel strip reinforced spiral corrugated pipes, resulting in high labor costs and low work efficiency.
[0006] A device for installing PE steel wire pipe includes a support base, a guide member fixedly connected to the support base, symmetrically arranged movable members slidably connected to the guide member, a clamping member fixedly connected to the movable member, a clamping member also slidably connected to the movable member, an adjusting screw rotatably connected to the movable member, and a threaded connection between the adjusting screw and the sliding clamping member. It also includes a first bidirectional screw rotatably connected to the support base and threadedly connected to the movable members. A drive motor is fixedly mounted on the top of the support base, and the output shaft of the drive motor is fixedly connected to the first bidirectional screw. An L-shaped fixing frame is fixedly mounted on the support base, and a rotating member is rotatably connected to the L-shaped fixing frame. A dual-axis motor is fixedly mounted on the rotating member. A first brush is fixedly connected to one output shaft of the dual-axis motor, and a second brush is fixedly connected to the other output shaft. A lubrication oil replenishment assembly is provided on the top of the rotating member, and a drive assembly for driving the rotating member to rotate is provided on the L-shaped fixing frame.
[0007] As a further preferred embodiment, the fluid replenishment assembly includes a storage tank fixed to the top of the rotating component, a built-in infusion valve on the storage tank, a piston rod slidably connected to the storage tank, a connecting frame rotatably connecting the first brush and the second brush, both of the first brush and the second brush being connected to the connecting frame, a flexible tube connecting the connecting frame and the storage tank, the flexible tube passing through the top of the rotating component, and the flexible tube having a built-in infusion valve.
[0008] As a further preferred embodiment, the drive assembly includes a connecting frame that is slidably connected to the upper part of the L-shaped fixed frame. The connecting frame and the adjacent moving part are press-fitted together. A limit screw is fixedly connected to the connecting frame, and the limit screw and the rotating part are threadedly connected.
[0009] As a further preferred embodiment, a connecting spring for resetting the piston rod is also included, the connecting spring being fixed between the piston rod and the top of the reservoir.
[0010] As a further preferred embodiment, it also includes a support assembly for supporting the PE steel strip reinforced spiral corrugated pipe. The support assembly is mounted on a support base and includes a support. Symmetrically arranged supports are fixed to the support base. A sliding element is slidably connected to the support. A third bidirectional screw is rotatably connected to the support. The third bidirectional screw and the sliding element are threadedly connected. Multiple rollers are rotatably connected to the sliding element.
[0011] As a further preferred embodiment, it also includes a rotating assembly for rotating the PE steel strip reinforced spiral corrugated pipe. The rotating assembly includes a support rod fixed to a support base. A second bidirectional lead screw is rotatably connected to the support base. A rotating component is slidably connected to a clamping member. An anti-slip pad is fixed to the rotating component. A second gear is fixed to the side of the rotating component away from the anti-slip pad. A fixing block is fixed to the clamping member near the second bidirectional lead screw. A first gear is rotatably connected to the fixing block. The first gear meshes with an adjacent second gear, and the first gear and the second bidirectional lead screw are threadedly connected.
[0012] As a further preferred embodiment, it also includes a shaking assembly for shaking off lubricating oil from the rotating component. The shaking assembly is mounted on an L-shaped fixed frame and includes a shaking frame that is slidably connected to the L-shaped fixed frame. A return spring is fixed between the shaking frame and the L-shaped fixed frame. A pressing component is fixedly connected to one of the moving components. The pressing component has multiple protrusions. A connecting column is fixedly connected to the shaking frame for pressing and engaging with the protrusions on the pressing component.
[0013] As a further preferred embodiment, it also includes a stabilizing component for securing the support base. The stabilizing component includes support blocks, multiple support blocks being fixed to the support base, and two of the support bases having a limiting screw threadedly connected to them, with a pointed cone fixed to the bottom of the limiting screw.
[0014] As a further preferred embodiment, it also includes a fixing component for fixing the support base, the fixing component being disposed on two of the support blocks, the fixing component including an adjusting column, the adjusting column being slidably connected to the remaining support block via a damping sleeve, and a suction cup being fixed to the bottom of the adjusting column.
[0015] As a further preferred embodiment, a collection frame for collecting dripping lubricating oil is also included, which is placed on top of the support.
[0016] Compared with the prior art, the present invention has the following advantages: 1. The present invention uses the first brush and the second brush to rotate, which can evenly apply lubricating oil to the inner wall of the flared end of the right PE steel strip reinforced spiral corrugated pipe and the special rubber ring of the pipe, eliminating the need for people to manually apply lubricating oil with a brush, reducing workload, and thus facilitating people to connect PE steel strip reinforced spiral corrugated pipes.
[0017] 2. The present invention supports the end of the PE steel strip reinforced spiral corrugated pipe away from the rotating part by using sliding parts and rollers, which can prevent the PE steel strip reinforced spiral corrugated pipe from tilting, improve the stability of the PE steel strip reinforced spiral corrugated pipe, and also make it easier for people to fix the PE steel strip reinforced spiral corrugated pipe.
[0018] 3. Through the cooperation between the rotating component, the anti-slip pad, the second bidirectional lead screw, the first gear, and the second gear, the present invention can automatically drive the two PE steel strip reinforced spiral corrugated pipes to rotate in opposite directions during the docking process, thereby facilitating the docking of PE steel strip reinforced spiral corrugated pipes and improving the docking efficiency of PE steel strip reinforced spiral corrugated pipes.
[0019] 4. This invention uses a shaking frame to tap the rotating parts, which can automatically shake off the lubricating oil adhering to the rotating parts, and the attached collection frame collects the lubricating oil, thereby improving the lubricating oil collection efficiency.
[0020] 5. This invention can fix the support base on the ground by restricting the downward movement of the lead screw and the pointed cone into the ground, and can also fix the support base on cement or brick ground by adsorbing it with the suction cup. In this way, the support base can be stabilized under different conditions, preventing the support base from shifting, and thus facilitating docking work. Attached Figure Description
[0021] Figure 1 This is a three-dimensional structural diagram of the present invention.
[0022] Figure 2 This is a three-dimensional structural diagram of the components such as the collection frame, the moving part, and the clamping part of the present invention.
[0023] Figure 3 This is a three-dimensional sectional view of the moving part, clamping part, and adjusting screw of the present invention.
[0024] Figure 4 This is a three-dimensional structural cross-sectional view of the L-shaped fixing frame, rotating component, and first brush of the present invention.
[0025] Figure 5 This is a three-dimensional structural diagram of the first brush, second brush, and dual-axis motor components of the present invention.
[0026] Figure 6 This is a three-dimensional structural cross-sectional view of the rotating component, the first brush, and the second brush of the present invention.
[0027] Figure 7 This is a three-dimensional structural diagram of the fluid replenishment component of the present invention.
[0028] Figure 8 This is a three-dimensional structural diagram of the liquid storage tank, hose, and connecting frame of the present invention.
[0029] Figure 9 This is a three-dimensional structural diagram of the support component of the present invention.
[0030] Figure 10 This is a three-dimensional structural cross-sectional view of the support component of the present invention.
[0031] Figure 11 This is a three-dimensional structural diagram of the rotating component of the present invention.
[0032] Figure 12 This is a three-dimensional structural diagram of the rotating component, anti-slip pad, and second gear of the present invention.
[0033] Figure 13 This is a three-dimensional structural diagram of the shaking component of the present invention.
[0034] Figure 14 This is a three-dimensional structural diagram of the stabilizing and fixing components of the present invention.
[0035] Wherein: 1-Support base, 11-Collection frame, 12-First bidirectional lead screw, 13-Guide component, 14-Moving component, 15-Clamping component, 16-Adjusting lead screw, 17-Drive motor, 2-L-shaped fixing frame, 21-Rotating component, 22-First brush, 23-Second brush, 24-Dual-axis motor, 25-Connecting frame, 26-Limiting lead screw, 29-Reservoir tank, 210-Hose, 211-Piston rod, 212-Connecting spring, 2 13-Connecting frame, 3-Support, 31-Sliding component, 32-Roller, 33-Third bidirectional lead screw, 4-Rotating component, 41-Anti-slip pad, 42-Support rod, 43-Second bidirectional lead screw, 44-First gear, 45-Second gear, 46-Fixing block, 5-Extrusion component, 51-Shaking frame, 52-Connecting column, 53-Reset spring, 6-Support block, 61-Limiting lead screw, 62-Cone, 63-Suction cup, 64-Adjusting column. Detailed Implementation
[0036] The technical solution will be further described below with reference to specific embodiments. It should be noted that the terms "up," "down," "left," and "right" used in this document refer only to the position of the structure shown in the corresponding drawings. The serial numbers assigned to components in this document, such as "first," "second," etc., are only used to distinguish the described objects and have no sequential or technical meaning. Unless otherwise specified, terms such as "connection" and "linkage" in this application include both direct and indirect connections (linkages).
[0037] Example 1: A device for installing PE steel wire pipes, such as Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 5 , Figure 6 and Figure 7As shown, the device includes a support base 1, a guide member 13 fixedly connected to the upper rear side of the support base 1, and movable members 14 slidably connected to both the left and right sides of the guide member 13. Clamping members 15 are fixedly connected to the inner rear wall of each movable member 14, and clamping members 15 are also slidably connected to each movable member 14. Adjusting screws 16 are rotatably connected to the front of each movable member 14, and the adjusting screws 16 are threadedly connected to the lower part of the clamping members 15 on the front side. A first bidirectional screw 12 is rotatably connected to the upper rear of the support base 1, and the first bidirectional screw 12 is threadedly connected to the rear of the movable member 14. The upper left rear side of the support base 1 is fixedly mounted... The device is equipped with a drive motor 17. The output shaft of the drive motor 17 is fixedly connected to the left side of the first bidirectional lead screw 12. An L-shaped fixing frame 2 is fixedly connected to the middle of the front side of the upper part of the support base 1. A rotating component 21 is rotatably connected to the upper part of the L-shaped fixing frame 2. A dual-axis motor 24 is fixedly installed in the middle of the rotating component 21. A first brush 22 is fixedly connected to the output shaft on the right side of the dual-axis motor 24. A second brush 23 is fixedly connected to the output shaft on the left side of the dual-axis motor 24. A fluid replenishment component for replenishing lubricating oil is provided on the top of the rotating component 21. A drive component for driving the rotating component 21 to rotate is provided on the upper part of the L-shaped fixing frame 2.
[0038] like Figure 4 , Figure 7 and Figure 8 As shown, the fluid replenishment assembly includes a storage tank 29, which is fixed to the top of the rotating component 21. The upper side wall of the storage tank 29 has a built-in infusion valve. A piston rod 211 is slidably connected to the storage tank 29. A connecting frame 213 is rotatably connected between the first brush 22 and the second brush 23. Both the first brush 22 and the second brush 23 are connected to the connecting frame 213. A hose 210 is connected between the connecting frame 213 and the storage tank 29. The hose 210 passes through the top of the rotating component 21, and the upper part of the hose 210 also has a built-in infusion valve.
[0039] like Figure 4 and Figure 5 As shown, the drive assembly includes a connecting frame 25, which is slidably connected to the upper part of the L-shaped fixed frame 2. The connecting frame 25 and the adjacent moving part 14 are press-fitted together. A limiting screw 26 is fixedly connected to the upper right part of the connecting frame 25. The limiting screw 26 and the front right part of the rotating part 21 are threadedly connected.
[0040] like Figure 4 As shown, it also includes a connecting spring 212 for resetting the piston rod 211. The connecting spring 212 is fixed between the piston rod 211 and the top of the liquid storage tank 29, and the connecting spring 212 is wound around the piston rod 211.
[0041] like Figure 2 As shown, it also includes a collection frame 11 for collecting dripping lubricating oil, which is placed at the top center of the support base 1.
[0042] When installing two PE steel-reinforced spiral corrugated pipes, this PE steel wire pipe installation device can be used. The specific operation is as follows: First, place the two PE steel-reinforced spiral corrugated pipes between two adjacent clamping pieces 15, with the left PE steel-reinforced spiral corrugated pipe's spigot end facing right and the right PE steel-reinforced spiral corrugated pipe's flared end facing left. Then, another worker manually rotates the adjusting screw 16, causing the front clamping piece 15 to move backward. At this point, the two adjacent clamping pieces 15 will merge, clamping and fixing the PE steel-reinforced spiral corrugated pipe. Then, loosen the PE steel-reinforced spiral corrugated pipe. Next, manually place the pipe-specific rubber ring onto the second slot on the outer wall of the left PE steel-reinforced spiral corrugated pipe's spigot end. Inside the groove, the infusion valve on the storage tank 29 is then opened, and lubricating oil is added to the storage tank 29 through the infusion valve. After the lubricating oil is added, the infusion valve on the storage tank 29 is closed, and then the inlet valve on the hose 210 is opened. The piston rod 211 is manually pressed down, and the connecting spring 212 is compressed. At this time, the lubricating oil in the storage tank 29 will seep into the first brush 22 and the second brush 23 through the hose 210 and the connecting frame 213, thus adding lubricating oil to the bristles of the first brush 22 and the second brush 23. After the lubricating oil in the storage tank 29 is squeezed out, the inlet valve on the hose 210 is closed, the infusion valve on the storage tank 29 is opened, and the piston rod 211 is released. At this time, under the action of the connecting spring 212, the piston... Rod 211 will move upward to reset. After piston rod 211 resets, the infusion valve on the storage tank 29 will be closed to prevent external dust from entering the storage tank 29. After the lubricating oil in the storage tank 29 is squeezed out, the worker must immediately turn on the drive motor 17 and the dual-axis motor 24, so that the output shaft of the dual-axis motor 24 drives the first brush 22 and the second brush 23 to rotate slowly. At this time, the output shaft of the drive motor 17 also drives the first bidirectional lead screw 12 to rotate, and the drive moving part 14 drives the clamping part 15 and the PE steel strip reinforced spiral corrugated pipe to move towards the middle, so that the left PE steel strip reinforced spiral corrugated pipe spigot end is inserted into the right PE steel strip reinforced spiral corrugated pipe flared end. In this way, the PE steel strip reinforced spiral corrugated pipe can be connected. And when the right PE steel strip reinforced spiral corrugated pipe is connected, the worker must immediately turn on the drive motor 17 and the dual-axis motor 24. This will cause the worker to turn on the drive motor 17. When the inner wall of the flared end of the steel-reinforced spiral corrugated pipe moves to contact the second brush 23, the rotating second brush 23 will evenly apply lubricating oil to the inner wall of the flared end of the right PE steel-reinforced spiral corrugated pipe. When the pipe-specific rubber ring on the left PE steel-reinforced spiral corrugated pipe moves to contact the second brush 23, the second brush 23 will evenly apply lubricating oil to the pipe-specific rubber ring. In this way, lubricating oil can be automatically applied to the inner wall of the flared end of the right PE steel-reinforced spiral corrugated pipe and the pipe-specific rubber ring, eliminating the need for manual application and saving manpower. When the lubricating oil application is completed and the PE steel-reinforced spiral corrugated pipe is about to contact the rotating part 21, the moving part 14 on the left will also move to contact the connecting frame 25 and press the connecting frame 25 to the right.At this time, the connecting frame 25 will drive the limiting screw 26 to move to the right. Then, the limiting screw 26 drives the rotating part 21 to drive the first brush 22 and the second brush 23 to rotate forward, so that the rotating part 21, the first brush 22 and the second brush 23 are separated from the two PE steel strip reinforced spiral corrugated pipes. This avoids obstruction when the PE steel strip reinforced spiral corrugated pipes are joined. After the PE steel strip reinforced spiral corrugated pipes are joined, the dual-axis motor 24 is turned off. Then, one worker holds the joined PE steel strip reinforced spiral corrugated pipe by hand, while another worker manually rotates the adjusting screw 16 in the opposite direction, so that the adjusting screw 16 drives the front clamping part 15 to move forward. The two adjacent clamping parts 15 separate and no longer clamp the joined PE steel strip reinforced spiral corrugated pipe. Then, the worker removes the joined PE steel strip reinforced spiral corrugated pipe. After the joined PE steel strip reinforced spiral corrugated pipe is removed, the output shaft of the drive motor 17 is controlled to drive the first bidirectional screw 12 to rotate in the opposite direction, and then the moving part 14 is driven to... The moving clamping member 15 moves outward, and then the connecting frame 25 and the limiting screw 26 are manually moved to the left to reset. At this time, the limiting screw 26 will drive the rotating member 21 to rotate the first brush 22 and the second brush 23 backward to reset. When the first brush 22 and the second brush 23 apply lubricating oil, some lubricating oil may splash onto the rotating member 21. When there is a large amount of PE steel strip reinforced spiral corrugated pipe being connected, and there is a lot of lubricating oil adhering to the rotating member 21, the lubricating oil on the rotating member 21 will fall downward into the collection frame 11. In this way, the dripping lubricating oil can be collected to avoid waste. When there is a lot of lubricating oil collected in the collection frame 11, the collection frame 11 can be removed to collect the lubricating oil collected in the collection frame 11. In summary, this can assist people in connecting PE steel strip reinforced spiral corrugated pipes and completing the installation of two PE steel strip reinforced spiral corrugated pipes. Moreover, during the connection process, people do not need to bend over and manually apply lubricating oil, thus facilitating the connection work.
[0043] Example 2: Based on Example 1, such as Figure 9 and Figure 10 As shown, the PE steel wire pipe installation device of this embodiment also includes a support assembly for supporting the PE steel strip reinforced spiral corrugated pipe. The support assembly is set on the support base 1. The support assembly includes a support 3. There are two supports 3. The two supports 3 are respectively fixed to the left and right sides of the support base 1. Each support 3 is slidably connected to a sliding member 31. Each support 3 is rotatably connected to a third bidirectional screw 33. The third bidirectional screw 33 and the sliding member 31 are threadedly connected. Multiple rollers 32 are rotatably connected to the front and rear sides of the sliding member 31.
[0044] When connecting long PE steel strip reinforced spiral corrugated pipes, the clamping member 15 only provides fixed support to the middle end of the PE steel strip reinforced spiral corrugated pipe, which may lead to instability. To improve the stability of PE steel strip reinforced spiral corrugated pipe connection, a support assembly can be used. The operation is as follows: First, manually rotate the third bidirectional screw 33 in both directions according to the length of the PE steel strip reinforced spiral corrugated pipe. This causes the third bidirectional screw 33 to drive the sliding member 31 to move the roller 32 inward and outward. When the sliding member 31 and roller 32 reach their destination, stop rotating the third bidirectional screw 33. Then, place the PE steel strip reinforced spiral corrugated pipes between the rollers 32 on the same sliding member 31. This ensures proper connection. The PE steel strip reinforced spiral corrugated pipe provides support, distributing the weight of the pipe when held, thus facilitating the use of clamping device 15 to secure it. Furthermore, during later assembly and movement of the PE steel strip reinforced spiral corrugated pipe, roller 32 also supports the end of the pipe furthest from the rotating component 21, improving stability during assembly. During the movement of the PE steel strip reinforced spiral corrugated pipe, roller 32 is also driven to rotate, preventing obstruction during movement. In summary, this provides support to the end of the PE steel strip reinforced spiral corrugated pipe furthest from the rotating component 21, enhancing its stability.
[0045] like Figure 11 and Figure 12 As shown, it also includes a rotating assembly for rotating the PE steel strip reinforced spiral corrugated pipe. The rotating assembly includes a support rod 42, which is fixed to the middle of the upper rear side of the support base 1. A second bidirectional lead screw 43 is rotatably connected to the upper part of the support base 1. Rotating parts 4 are slidably connected to the inner side of the clamping parts 15. Anti-slip pads 41 are fixed to the inner side of the rotating parts 4. Second gears 45 are fixed to the outer side of the rotating parts 4. Fixing blocks 46 are fixed to the middle of the rear side of the clamping parts 15. A first gear 44 is rotatably connected to the fixing blocks 46. The first gear 44 meshes with the adjacent second gear 45, and the first gear 44 and the second bidirectional lead screw 43 are threadedly connected.
[0046] When installing two PE steel strip reinforced spiral corrugated pipes, to facilitate the insertion of the left PE steel strip reinforced spiral corrugated pipe's spigot end into the right PE steel strip reinforced spiral corrugated pipe's flared end, the PE steel strip reinforced spiral corrugated pipe can be rotated simultaneously. The specific operation is as follows: When the front clamping member 15 moves backward, it also drives the front rotating member 4 and anti-slip pad 41 to move backward, causing the two adjacent anti-slip pads 41 to clamp and fix the PE steel strip reinforced spiral corrugated pipe. At this time, the two adjacent rotating members 4 and the second gear 45 will also merge. Subsequently, when the two PE steel strip reinforced spiral corrugated pipes are driven to move closer together for docking, the clamping member 15 also drives the rotating member 4, anti-slip pad 41, first gear 44, and second gear 45 to move in the middle. At this time, under the action of the second bidirectional screw 43, the two first gears 44 will rotate in opposite directions, then drive the left second gear 45 and... The second gear 45 on the right rotates in the opposite direction, which in turn drives the rotating part 4 and the anti-slip pad 41 to drive the two PE steel strip reinforced spiral corrugated pipes to rotate in the opposite direction. This allows the left steel strip reinforced spiral corrugated pipe's inlet end to be inserted into the right PE steel strip reinforced spiral corrugated pipe's flared end while simultaneously being screwed into the right PE steel strip reinforced spiral corrugated pipe's flared end, thus facilitating the docking of the two PE steel strip reinforced spiral corrugated pipes. Subsequently, when the front clamping part 15 moves forward, it also drives the front rotating part 4 and the anti-slip pad 41 to move forward. Then, when the clamping part 15 moves outward, it also drives the rotating part 4, the anti-slip pad 41, the first gear 44, and the second gear 45 to move outward. In summary, when docking PE steel strip reinforced spiral corrugated pipes, the two PE steel strip reinforced spiral corrugated pipes are automatically rotated in the opposite direction, and the inlet end of the left PE steel strip reinforced spiral corrugated pipe is screwed into the flared end of the right PE steel strip reinforced spiral corrugated pipe.
[0047] like Figure 13 As shown, it also includes a shaking assembly for shaking off the lubricating oil on the rotating part 21. The shaking assembly is set on the upper part of the L-shaped fixed frame 2. The shaking assembly includes a shaking frame 51, which is slidably connected to the upper part of the L-shaped fixed frame 2. The rear side of the shaking frame 51 contacts the front side of the rotating part 21. A return spring 53 is fixed between the shaking frame 51 and the front part of the L-shaped fixed frame 2. The return spring 53 is wound around the shaking frame 51. A pressing part 5 is fixed to the right side of the front part of the moving part 14 on the left. The upper right front side of the pressing part 5 has multiple protrusions. A connecting post 52 for pressing and engaging with the protrusions on the pressing part 5 is fixed to the lower front side of the shaking frame 51.
[0048] When the lubricating oil on the rotating part 21 drips down into the collection frame 11, due to the adhesion of the lubricating oil, a lot of lubricating oil will still adhere to the rotating part 21. In order to improve the effect of collecting the lubricating oil on the rotating part 21, the shaking component can be used. The specific operation is as follows: When the moving part 14 moves to the middle, the left moving part 14 will also drive the pressing part 5 to move to the right. At this time, under the pressure of the protrusion on the pressing part 5, the shaking frame 51 and the connecting column 52 will move back and forth continuously, knocking the rotating part 21. Subsequently, the return spring 53 will undergo adaptive deformation, so that the shaking frame 51 can continuously knock the rotating part 21, shaking the lubricating oil attached to the rotating part 21 into the collection frame 11 below. This can assist the collection frame 11 in collecting the lubricating oil. Then, when the moving part 14 moves to the outside, the left moving part 14 will also drive the pressing part 5 to move to the left. In summary, this can assist the collection frame 11 in collecting the lubricating oil.
[0049] like Figure 14 As shown, it also includes a stabilizing component for stabilizing the support base 1. The stabilizing component includes a support block 6. There are four support blocks 6. The four support blocks 6 are respectively fixed to the front and rear parts of the left and right sides of the support base 1. The two support bases on the front side are threadedly connected to a limiting screw 61. The bottom of the limiting screw 61 is fixedly connected to a pointed cone 62.
[0050] like Figure 14 As shown, it also includes a fixing component for fixing the support base 1. The fixing component is set on the support block 6 on the rear side. The fixing component includes two adjusting columns 64. The two adjusting columns 64 are slidably connected to the support block 6 on the rear side through damping sleeves. The bottom of each adjusting column 64 is fixed with a suction cup 63.
[0051] When connecting PE steel-reinforced spiral corrugated pipes, to prevent displacement of the support base 1, stabilizing and fixing components can be used. The specific operation is as follows: When connecting PE steel-reinforced spiral corrugated pipes on land, first manually rotate the limiting screw 61, causing it to drive the pointed cone 62 downwards and insert it into the ground. This stabilizes the support base 1 on the ground. If stabilization is not required, simply manually rotate the limiting screw 61 in the opposite direction. At this time, the limiting screw 61 will drive the pointed cone 62 downwards and insert it into the ground. Cone 62 moves upward out of the ground. When connecting PE steel strip reinforced spiral corrugated pipes on paved or cement surfaces, simply press suction cup 63 and adjusting column 64 downward manually to make suction cup 63 adhere to the paved or cement surface. This fixes the support base 1 on the paved or cement surface. If fixation is not required, first manually separate suction cup 63 from the paved or cement surface, and then manually move suction cup 63 and adjusting column 64 upward to reset. In summary, this allows for the connection of PE steel strip reinforced spiral corrugated pipes and improves the stability of support base 1.
[0052] The present application has been described in detail above. Specific examples have been used to illustrate the principles and implementation methods of the present application. The description of the above embodiments is only for the purpose of helping to understand the method and core ideas of the present application. At the same time, for those skilled in the art, there will be changes in the specific implementation methods and application scope based on the ideas of the present application. Therefore, the content of this specification should not be construed as a limitation of the present application.
Claims
1. A device for installing PE steel wire pipe, comprising a support base (1), a guide member (13) fixedly connected to the support base (1), symmetrically arranged movable members (14) slidably connected to the guide member (13), a clamping member (15) fixedly connected to the movable member (14), a clamping member (15) also slidably connected to the movable member (14), an adjusting screw (16) rotatably connected to the movable member (14), and the adjusting screw (16) and the sliding clamping member (15) being threadedly connected, characterized in that, It also includes a first bidirectional lead screw (12), which is rotatably connected to the support base (1). The first bidirectional lead screw (12) and the moving part (14) are threadedly connected. A drive motor (17) is fixedly installed on the top of the support base (1). The output shaft of the drive motor (17) is fixedly connected to the first bidirectional lead screw (12). An L-shaped fixing frame (2) is fixedly connected on the support base (1). A rotating part (21) is rotatably connected on the L-shaped fixing frame (2). A dual-axis motor (24) is fixedly installed on the rotating part (21). A first brush (22) is fixedly connected to one of the output shafts of the dual-axis motor (24). A second brush (23) is fixedly connected to the other output shaft of the dual-axis motor (24). A fluid replenishment component for replenishing lubricating oil is provided on the top of the rotating part (21). A drive component for driving the rotating part (21) to rotate is provided on the L-shaped fixing frame (2). The fluid replenishment assembly includes a storage tank (29), which is fixed to the top of the rotating part (21). The storage tank (29) has a built-in infusion valve. A piston rod (211) is slidably connected to the storage tank (29). A connecting frame (213) is rotatably connected between the first brush (22) and the second brush (23). Both the first brush (22) and the second brush (23) are connected to the connecting frame (213). A hose (210) is connected between the connecting frame (213) and the storage tank (29). The hose (210) passes through the top of the rotating part (21), and the hose (210) has a built-in inlet valve. The drive assembly includes a connecting frame (25), which is slidably connected to the upper part of the L-shaped fixed frame (2). The connecting frame (25) and the adjacent moving part (14) are pressed together. A limiting screw (26) is fixedly connected to the connecting frame (25). The limiting screw (26) and the rotating part (21) are threadedly connected. It also includes a rotating assembly for rotating the PE steel strip reinforced spiral corrugated pipe. The rotating assembly includes a support rod (42), which is fixed to a support base (1). A second bidirectional screw (43) is rotatably connected to the support base (1). A rotating part (4) is slidably connected to a clamping member (15). An anti-slip pad (41) is fixed to the rotating part (4). A second gear (45) is fixed to the side of the rotating part (4) away from the anti-slip pad (41). A fixing block (46) is fixed to the clamping member (15) near the second bidirectional screw (43). A first gear (44) is rotatably connected to the fixing block (46). The first gear (44) meshes with the adjacent second gear (45), and the first gear (44) is threadedly connected to the second bidirectional screw (43).
2. The device for installing PE steel wire pipe as described in claim 1, characterized in that, It also includes a connecting spring (212) for resetting the piston rod (211), the connecting spring (212) being fixed between the piston rod (211) and the top of the reservoir (29).
3. The device for installing PE steel wire pipe as described in claim 2, characterized in that, It also includes a support assembly for supporting the PE steel strip reinforced spiral corrugated pipe. The support assembly is set on the support base (1). The support assembly includes a support (3). The symmetrically arranged supports (3) are fixed to the support base (1). A sliding member (31) is slidably connected to the support (3). A third bidirectional screw (33) is rotatably connected to the support (3). The third bidirectional screw (33) and the sliding member (31) are threadedly connected. Multiple rollers (32) are rotatably connected to the sliding member (31).
4. The device for installing PE steel wire pipe as described in claim 3, characterized in that, It also includes a shaking assembly for shaking off the lubricating oil on the rotating part (21). The shaking assembly is set on the L-shaped fixed frame (2). The shaking assembly includes a shaking frame (51). The shaking frame (51) is slidably connected to the L-shaped fixed frame (2). A return spring (53) is fixed between the shaking frame (51) and the L-shaped fixed frame (2). A pressing part (5) is fixed on one of the moving parts (14). The pressing part (5) has multiple protrusions. A connecting column (52) is fixed on the shaking frame (51) for pressing and engaging with the protrusions on the pressing part (5).
5. The device for installing PE steel wire pipe as described in claim 4, characterized in that, It also includes a stabilizing component for stabilizing the support base (1), the stabilizing component including support blocks (6), multiple support blocks (6) fixed to the support base (1), two of the support blocks (6) are threadedly connected to a limiting screw (61), and a pointed cone (62) is fixed to the bottom of the limiting screw (61).
6. The device for installing PE steel wire pipe as described in claim 5, characterized in that, It also includes a fixing component for fixing the support base (1), the fixing component is set on two of the support blocks (6), the fixing component includes an adjusting column (64), the adjusting column (64) is slidably connected to the remaining support block (6) through a damping sleeve, and a suction cup (63) is fixed to the bottom of the adjusting column (64).
7. The device for installing PE steel wire pipe as described in claim 6, characterized in that, It also includes a collection box (11) for collecting dripping lubricating oil, which is placed on top of the support (1).