A pipe production line
By using conveying clamping components and anti-channeling components on the pipeline production line, the problems of pipeline channeling and falling during transportation are solved, improving transportation stability and production efficiency, and reducing manual labor intensity.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- TIANGONG CHUANGGUO (SHANGHAI) ENERGY TECHNOLOGY CO LTD
- Filing Date
- 2025-11-21
- Publication Date
- 2026-06-26
AI Technical Summary
Traditional pipeline transportation requires manual binding, which is time-consuming and labor-intensive. Furthermore, the pipes are prone to shifting or falling during belt transportation, resulting in poor transportation stability and low production efficiency.
The system uses a combination of conveying and pressing components and anti-channeling components. Vertical and radial limits are used to prevent pipeline movement. The system is combined with a conveying and lifting component and a support frame to stabilize the pipeline position. A follow-up drive device is used to adjust the pipeline position to prevent deviation.
It improves stability and production efficiency during pipeline transportation, reduces the intensity of manual labor, and ensures that the pipeline does not shift or deviate during transportation.
Smart Images

Figure CN121573408B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of pipeline manufacturing technology, and more specifically to a pipeline production line. Background Technology
[0002] Pipelines require transportation and transfer during production. Traditional pipeline transfer methods involve manual binding and transport using transfer vehicles, which is time-consuming, labor-intensive, and inefficient. Some companies use belt conveyors for pipeline transport; CN115871189A discloses "A Material Conveying Device for Pipeline Production," in which pipelines are pulled and transported via belt. However, pipelines are prone to shifting during transport and may even fall off the belt, resulting in poor transport stability. Therefore, a new technical solution is urgently needed to address at least one of these technical problems. Summary of the Invention
[0003] The purpose of this invention is to provide a pipeline production line that prevents pipeline movement by using a conveying and pressing component and an anti-channeling component in combination, resulting in good pipeline conveying stability, improved production efficiency, and reduced manual labor intensity.
[0004] To achieve the above-mentioned technical objectives and requirements, the technical solution adopted by the present invention is: a pipeline production line, characterized in that it includes at least two symmetrically arranged pipeline conveying devices, wherein the pipeline production and transportation devices include:
[0005] Pipeline storage device;
[0006] A conveying and pressing assembly is located downstream of the pipeline storage device;
[0007] The base frame is located downstream of the clamping device;
[0008] A conveying and lifting assembly with a conveying and lifting output end is provided on the base frame, and the conveying and lifting output end is provided with a conveying bracket;
[0009] The conveying assembly, installed on the conveying support, is used for conveying pipelines;
[0010] A buffer support is disposed downstream of the conveying support;
[0011] A side support frame is disposed on one side of the outer periphery of the cache bracket;
[0012] An intermediate support frame is disposed between the two cache supports;
[0013] At least one auxiliary roller is provided on the cache holder;
[0014] A follower drive device with a follower output terminal is disposed on the cache bracket, and the follower output terminal is provided with a follower plate;
[0015] At least one anti-channeling component is provided on the follower plate to prevent the pipe from moving.
[0016] The wheel frame is located above the follower plate, between the intermediate support frame and the side support frame, and the wheel frame is provided with at least one auxiliary roller.
[0017] As a preferred technical solution, the side support frame includes four side vertical support rods and two side upper support rods, with the side upper support rods perpendicular to the pipe.
[0018] As a preferred technical solution, the intermediate support frame includes two intermediate upper support rods, and each intermediate upper support rod has multiple intermediate vertical support rods on its lower side, and the intermediate upper support rods are perpendicular to the pipe.
[0019] As a preferred technical solution, the wheel frame includes a support plate and mounting rods respectively disposed on both sides of the support plate, and the support plate is connected to the side support rod and the middle upper support rod respectively.
[0020] As a preferred technical solution, the conveying and pressing assembly includes a pressing base bracket, a pressing and lifting assembly with a pressing and lifting output end disposed on the pressing base bracket, a pressing intermediate frame disposed on the pressing and lifting output end, a lower pressing roller disposed on the pressing intermediate frame, a pressing top frame disposed on the pressing intermediate frame, a pressing drive device with a pressing output end disposed on the pressing top frame, a pressing seat detachably disposed on the pressing output end, and an upper pressing roller rotatably disposed on the pressing seat.
[0021] As a preferred technical solution, the clamping top frame includes two symmetrical clamping vertical support rods, a clamping top support rod and a clamping lower support rod disposed between the two clamping vertical support rods, and a clamping mounting plate disposed on the clamping top support rod and the clamping lower support rod. The clamping lifting device is detachably connected to the clamping mounting plate. A first clamping connecting plate is connected to the inner side of the clamping vertical support rod. A second clamping connecting plate is connected to the opposite sides of the clamping intermediate frame. The first clamping connecting plate and the second clamping connecting plate are detachably connected.
[0022] As a preferred technical solution, the base frame includes a base support plate and four base support rods vertically arranged on the base support plate. The conveying and lifting assembly includes a lifting motor detachably arranged on the base support plate and a lifting device detachably arranged on the base support plate. The lifting device has the conveying and lifting output end.
[0023] As a preferred technical solution, the conveying bracket includes a conveying support plate, four conveying support rods vertically arranged on the upper side of the conveying support plate, and two conveying upper rods extending laterally on the upper side of the conveying support rods. The conveying support plate is detachably connected to the conveying lifting output end. The conveying assembly includes a conveying motor with a conveying drive pulley detachably arranged on the conveying support plate and conveying rollers. Each conveying upper rod is detachably provided with a bearing seat on its upper side. Each end of the conveying roller is coaxially provided with a conveying shaft. The conveying shaft is rotatably inserted into the bearing seat. One of the conveying shafts is fitted with a conveying driven pulley. The conveying drive pulley is connected to the conveying driven pulley via a belt.
[0024] As a preferred technical solution, the follower plate has a cross structure. The follower plate includes a follower horizontal plate and a follower vertical plate connected as one unit. Each of the two upper sides of the follower horizontal plate is detachably provided with an anti-slip component. The anti-slip component includes an anti-slip guide plate detachably provided on the follower horizontal plate, an anti-slip lifting cylinder with a lifting piston rod detachably provided on the anti-slip guide plate, a pad provided on the lifting piston rod, and an anti-slip seat detachably provided on the pad. The anti-slip seat includes an anti-slip base plate and a V-shaped anti-slip plate fixedly provided on the upper side of the anti-slip base plate. The anti-slip base plate and the pad are detachably connected.
[0025] As a preferred technical solution, the anti-slip guide plate is detachably fitted with multiple anti-slip guide sleeves, and an anti-slip guide post is movably inserted into the anti-slip guide sleeve, the anti-slip guide post being connected to the pad plate.
[0026] The beneficial effects of this invention are:
[0027] 1) The conveying and pressing assembly vertically limits the pipeline, and the anti-slip assembly radially limits the pipeline. This prevents the pipeline from moving radially or jumping up and down during transportation. The conveying and lifting assembly can move the conveying support up and down, thereby moving the conveying assembly up and down to adjust it to the appropriate position for conveying the pipeline. The buffer support is equipped with auxiliary rollers to buffer the pipeline and enter the anti-slip assembly to prevent the pipeline from moving during transportation. The follow-up drive device can adjust the radial position of the anti-slip assembly to straighten the pipeline and prevent the pipeline from deviating during transportation, resulting in good transportation stability.
[0028] 2) The side support frame and the middle support frame can be connected to the wheel frame to support the pipeline, providing good stability;
[0029] 3) The clamping drive device drives the upper clamping roller to descend, clamping the pipe. At the same time, the upper and lower clamping rollers can roll to ensure that the pipe moves forward for conveying.
[0030] 4) The anti-slip lifting cylinder can drive the anti-slip seat to move upward, so that the anti-slip seat contacts the pipeline and prevents the pipeline from moving. Furthermore, the anti-slip guide sleeve can guide the anti-slip guide column, so that the stability of the anti-slip seat is better during the up and down movement.
[0031] 5) The lifting motor drives the lifting device to move upward so that the conveying rollers support the pipe and cooperate with the conveying clamping assembly to limit the pipe and adjust the conveying height of the pipe;
[0032] 6) The V-shaped anti-slip guide plate has a simple structure and good anti-slip effect. Attached Figure Description
[0033] Figure 1 This is a structural diagram of a pipeline production line provided in one embodiment of the present invention;
[0034] Figure 2 yes Figure 1 A magnified view of part A;
[0035] Figure 3 This is a partial structural diagram of a pipeline production line provided in one embodiment of the present invention;
[0036] Figure 4 This is another structural diagram of a pipeline production line provided in one embodiment of the present invention;
[0037] Figure 5 yes Figure 4 A magnified view of part B;
[0038] Figure 6 This is a structural diagram of a bearing housing provided in one embodiment of the present invention;
[0039] Figure 7 This is a structural diagram of a clamping assembly provided in one embodiment of the present invention.
[0040] exist Figures 1-7In the middle, 1. Pipeline storage device; 2. Conveying and pressing assembly; 201. Pressing bottom support; 202. Pressing intermediate frame; 203. Lower pressing roller; 204. Pressing top frame; 2041. Pressing vertical support rod; 2042. Pressing top support rod; 2043. Pressing lower support rod; 2044. Pressing mounting plate; 2045. First pressing connecting plate; 2046. Second pressing connecting plate; 205. Pressing drive device; 206. Pressing seat; 207. Upper pressing roller; 3. Base frame; 301. Bottom support plate; 302. Bottom support rod; 4. Conveying and lifting assembly; 401. Lifting motor; 402. Lifter; 5. Conveying assembly; 501. Conveying motor; 502. Conveying drive pulley; 503. Conveying roller; 5031. Conveying shaft; 5032. Roller section; 504. Bearing seat; 505. Conveyor driven pulley; 506. Belt; 6. Conveyor bracket; 601. Conveyor support plate; 602. Conveyor support rod; 603. Conveyor upper rod; 7. Buffer bracket; 8. Side support frame; 801. Side vertical support rod; 802. Side upper support rod; 9. Intermediate support frame; 901. Intermediate upper support rod; 902. Intermediate vertical support rod; 10. Auxiliary roller; 11. Follow-up drive device; 12. Follow-up plate; 1201. Follow-up longitudinal plate; 1202. Follow-up transverse plate; 13. Anti-slip assembly; 1301. Anti-slip guide plate; 1302. Anti-slip lifting cylinder; 1303. Pad plate; 1304. Anti-slip base plate; 1305. Anti-slip plate; 1306. Anti-slip guide sleeve; 1307. Anti-slip guide column; 14. Wheel frame; 1401. Support plate; 1402. Mounting rod. Detailed Implementation
[0041] The present invention will now be further described with reference to the accompanying drawings.
[0042] In the accompanying drawings of the embodiments of the present invention, the same or similar reference numerals correspond to the same or similar components. In the description of the present invention, it should be understood that if terms such as "head", "tail", "top", "bottom", "left", "right", "front", "rear", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, they are only for the convenience of describing the present invention, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, the terms used to describe positional relationships in the drawings are only for illustrative purposes and should not be construed as limiting the present patent. For those skilled in the art, the specific meaning of the above terms can be understood according to the specific circumstances.
[0043] Please see Figures 1-7One embodiment of the present invention provides a pipeline production line, including at least two symmetrically arranged pipeline conveying devices. Each pipeline production and transport device includes a pipeline storage device, a conveying and pressing assembly located downstream of the pipeline storage device, a base frame located downstream of the pressing assembly, a conveying and lifting assembly with a conveying and lifting output end located on the base frame, a conveying assembly located on a conveying support, a buffer support located downstream of the conveying support, a side support frame located on one side periphery of the buffer support, an intermediate support frame located between the two buffer supports, at least one auxiliary roller located on the buffer support, a follower drive device with a follower output end located on the buffer support, at least one anti-slip assembly located on the follower plate, and a wheel frame located above the follower plate. The conveying and lifting output end is provided with the conveying support. The conveying assembly is used to convey pipelines, and the follower output... The pipeline is equipped with a follower plate at one end and an anti-slip component to prevent the pipeline from moving. The wheel frame is located between the intermediate support frame and the side support frame, and the wheel frame is equipped with at least one auxiliary roller. The pipeline exits from the pipeline storage device and enters the conveying and pressing component. The conveying and pressing component vertically limits the pipeline, and the anti-slip component radially limits the pipeline. This prevents the pipeline from moving radially or jumping up and down during transportation. The conveying and lifting component can drive the conveying support to move up and down, thereby driving the conveying component to move up and down to adjust to the appropriate position for conveying the pipeline. The buffer support is equipped with auxiliary rollers to buffer the pipeline and enter the anti-slip component to prevent the pipeline from moving during transportation. The follower drive device can adjust the radial position of the anti-slip component to straighten the pipeline and prevent the pipeline from deviating during transportation. The transportation stability is good. At the same time, the pipeline production line has two pipeline conveying devices to improve production efficiency.
[0044] like Figures 1-7 As shown, the side support frame includes four side vertical support rods and two side upper support rods. The side upper support rods are perpendicular to the pipe. The structure is simple and has good support. Specifically, the four side vertical support rods are connected by crossbars.
[0045] like Figures 1-7 As shown, the intermediate support frame includes two intermediate upper support rods, and each intermediate upper support rod has multiple intermediate vertical support rods on its lower side. The intermediate upper support rods are perpendicular to the pipe. The intermediate support frame can connect the wheel frames on the two pipe conveying devices together. When the pipe enters the auxiliary rollers on the wheel frame, it provides good support for the pipe.
[0046] like Figures 1-7 As shown, the wheel frame includes a support plate and mounting rods respectively disposed on both sides of the support plate. The support plate is connected to the side support rod and the middle support rod respectively. An auxiliary roller is rotatably disposed on the mounting rod. The pipeline enters the auxiliary roller on the wheel frame for buffering, so as to prevent the pipeline from moving by the anti-channeling component.
[0047] like Figures 1-7 As shown, the conveying and pressing assembly includes a pressing base support, a pressing and lifting assembly with a pressing and lifting output end disposed on the pressing base support, a pressing intermediate frame disposed on the pressing and lifting output end, a lower pressing roller disposed on the pressing intermediate frame, a pressing top frame disposed on the pressing intermediate frame, a pressing drive device with a pressing output end disposed on the pressing top frame, a pressing seat detachably disposed on the pressing output end, and an upper pressing roller rotatably disposed on the pressing seat. The pressing and lifting assembly has the same structure as the conveying and lifting assembly. The pressing drive device drives the upper pressing roller to descend and press the pipe. At the same time, the upper and lower pressing rollers can roll to ensure that the pipe moves forward for conveying.
[0048] like Figures 1-7 As shown, the clamping top frame includes two symmetrical clamping vertical support rods, a clamping top support rod and a clamping lower support rod disposed between the two clamping vertical support rods, and a clamping mounting plate disposed on the clamping top support rod and the clamping lower support rod. The clamping lifting device is detachably connected to the clamping mounting plate. A first clamping connecting plate is connected to the inner side of the clamping vertical support rod. Second clamping connecting plates are respectively connected to opposite sides of the clamping intermediate frame. The first clamping connecting plate and the second clamping connecting plate are detachably connected. The structure is simple and easy to install and disassemble.
[0049] like Figures 1-7 As shown, the base frame includes a base support plate and four base support rods vertically arranged on the base support plate. The conveying and lifting assembly includes a lifting motor detachably arranged on the base support plate and a lifting device detachably arranged on the base support plate. The lifting device has the conveying and lifting output end. The lifting device drives the conveying bracket to rise and adjust to a suitable position, and cooperates with the conveying and pressing assembly to limit the pipeline.
[0050] like Figures 1-7 As shown, the conveying support includes a conveying support plate, four conveying rods vertically arranged on the upper side of the conveying support plate, and two conveying upper rods extending laterally on the upper side of the conveying rods. The conveying support plate is detachably connected to the conveying lifting output end. The conveying assembly includes a conveying motor with a conveying drive pulley detachably arranged on the conveying support plate and conveying rollers. Each conveying upper rod is detachably provided with a bearing seat on its upper side. Each conveying roller has a conveying shaft coaxially arranged at both ends. The conveying shafts are rotatably inserted into the bearing seats. One of the conveying shafts is fitted with a conveying driven pulley. The conveying drive pulley is connected to the conveying driven pulley via a belt. When the conveying motor is started, it drives the conveying drive pulley to rotate, thereby driving the conveying driven pulley to rotate, and then driving the conveying rollers to rotate to convey the pipeline.
[0051] like Figures 1-7 As shown, the follower plate has a cross structure. The follower plate includes a follower horizontal plate and a follower vertical plate connected as one unit. Each of the two upper sides of the follower horizontal plate is detachably equipped with an anti-slip component. The anti-slip component includes an anti-slip guide plate detachably mounted on the follower horizontal plate, an anti-slip lifting cylinder with a lifting piston rod detachably mounted on the anti-slip guide plate, a pad mounted on the lifting piston rod, and an anti-slip seat detachably mounted on the pad. The anti-slip seat includes an anti-slip base plate and a V-shaped anti-slip plate fixedly mounted on the upper side of the anti-slip base plate. The anti-slip base plate and the pad are detachably connected. The cross structure of the follower plate is simple and also serves as a reference coordinate, making it easy for workers to observe whether the pipeline has deviated. The anti-slip lifting cylinder can drive the anti-slip seat to move upward, so that the anti-slip seat contacts the pipeline and cooperates with the conveying and pressing component to prevent pipeline slippage.
[0052] like Figures 1-7 As shown, the anti-slip guide plate is detachably fitted with multiple anti-slip guide sleeves, and an anti-slip guide post is movably inserted into the anti-slip guide sleeve. The anti-slip guide post is connected to the pad plate, and the anti-slip guide sleeve can guide the anti-slip guide post, so that the stability of the anti-slip seat is better during the up and down movement.
[0053] The above embodiments are merely descriptions for clearly illustrating the present invention and are not intended to limit the implementation. Those skilled in the art can make other variations or modifications based on the above description. It is neither necessary nor possible to exhaustively list all implementations here, and any obvious variations or modifications derived therefrom are still within the protection scope of the present invention.
Claims
1. A pipeline production line, characterized in that, It includes at least two symmetrically arranged pipeline conveying devices, the pipeline conveying devices comprising: Pipeline storage device; A conveying and pressing assembly is located downstream of the pipeline storage device; The base frame is located downstream of the conveying and pressing assembly; A conveying and lifting assembly with a conveying and lifting output end is provided on the base frame, and the conveying and lifting output end is provided with a conveying bracket; The conveying assembly, installed on the conveying support, is used for conveying pipelines; A buffer support is disposed downstream of the conveying support; A side support frame is disposed on one side of the outer periphery of the cache bracket; An intermediate support frame is disposed between the two cache supports; At least one auxiliary roller is provided on the cache holder; A follower drive device with a follower output terminal is disposed on the cache bracket, and the follower output terminal is provided with a follower plate; At least one anti-channeling component is provided on the follower plate to prevent the pipe from moving. A wheel frame is disposed above the follower plate, the wheel frame is located between the intermediate support frame and the side support frame, and the wheel frame is provided with at least one of the auxiliary rollers; The conveying and pressing assembly includes a pressing base bracket, a pressing and lifting assembly with a pressing and lifting output end disposed on the pressing base bracket, a pressing intermediate frame disposed on the pressing and lifting output end, a lower pressing roller disposed on the pressing intermediate frame, a pressing top frame disposed on the pressing intermediate frame, a pressing drive device with a pressing output end disposed on the pressing top frame, a pressing seat detachably disposed on the pressing output end, and an upper pressing roller rotatably disposed on the pressing seat; The clamping top frame includes two symmetrical clamping vertical support rods, a clamping top support rod and a clamping lower support rod disposed between the two clamping vertical support rods, and a clamping mounting plate disposed on the clamping top support rod and the clamping lower support rod. The clamping lifting assembly is detachably connected to the clamping mounting plate. A first clamping connecting plate is connected to the inner side of the clamping vertical support rod. A second clamping connecting plate is connected to the opposite sides of the clamping intermediate frame. The first clamping connecting plate and the second clamping connecting plate are detachably connected. The conveying support includes a conveying support plate, four conveying rods vertically arranged on the upper side of the conveying support plate, and two conveying upper rods extending laterally on the upper side of the conveying rods. The conveying support plate is detachably connected to the conveying lifting output end. The conveying assembly includes a conveying motor with a conveying drive pulley detachably arranged on the conveying support plate and conveying rollers. Each conveying upper rod is detachably provided with a bearing seat on its upper side. Each end of the conveying roller is coaxially provided with a conveying shaft. The conveying shafts are rotatably inserted into the bearing seats. One of the conveying shafts is fitted with a conveying driven pulley. The conveying drive pulley is connected to the conveying driven pulley via a belt. The follower plate has a cross structure. The follower plate includes a follower horizontal plate and a follower vertical plate connected as one unit. Each of the two upper sides of the follower horizontal plate is detachably provided with an anti-slip component. The anti-slip component includes an anti-slip guide plate detachably provided on the follower horizontal plate, an anti-slip lifting cylinder with a lifting piston rod detachably provided on the anti-slip guide plate, a pad provided on the lifting piston rod, and an anti-slip seat detachably provided on the pad. The anti-slip seat includes an anti-slip base plate and a V-shaped anti-slip plate fixedly provided on the upper side of the anti-slip base plate. The anti-slip base plate and the pad are detachably connected.
2. The pipeline production line according to claim 1, characterized in that, The side support frame includes four vertical side support rods and two upper side support rods, with the upper side support rods perpendicular to the pipe.
3. The pipeline production line according to claim 2, characterized in that, The intermediate support frame includes two intermediate upper support rods, and each intermediate upper support rod has multiple intermediate vertical support rods on its lower side. The intermediate upper support rods are perpendicular to the pipe.
4. The pipeline production line according to claim 2, characterized in that, The wheel frame includes a support plate and mounting rods respectively disposed on both sides of the support plate. The support plate is connected to the side support rod and the middle upper support rod respectively.
5. The pipeline production line according to claim 2, characterized in that, The base frame includes a base support plate and four base support rods vertically arranged on the base support plate. The conveying and lifting assembly includes a lifting motor detachably arranged on the base support plate and a lifting device detachably arranged on the base support plate. The lifting device has the conveying and lifting output end.
6. The pipeline production line according to claim 1, characterized in that, The anti-slip guide plate is detachably fitted with multiple anti-slip guide sleeves, and an anti-slip guide post is movably inserted into the anti-slip guide sleeve, the anti-slip guide post being connected to the pad plate.