A thread rolling machine for processing anchor bolts and its intelligent manufacturing process

By introducing a servo motor-driven rolling wheel and clamping plate structure into the thread rolling machine, the problem of requiring manual measurement and adjustment of the rolling wheel position in existing thread rolling machines has been solved, achieving automatic adjustment and simplified operation.

CN117900359BActive Publication Date: 2026-06-30WENZHOU BAIQIANG TECH

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
WENZHOU BAIQIANG TECH
Filing Date
2022-10-11
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

When processing anchor bolts, existing thread rolling machines require PLC controllers to control the position of the rolling rollers. The diameter of the workpiece needs to be measured in advance, which is inconvenient for adjustment. After adjustment, workers are needed to confirm the position, making operation inconvenient.

Method used

A thread rolling machine structure including a base plate, slider, sliding plate, clamping plate and servo motor was designed. The servo motor drives the rolling wheel. Combined with the design of clamping plate and clamping plate, the anchor rod position can be automatically adjusted and fixed, simplifying the operation process.

Benefits of technology

It enables automatic adjustment of the rolling wheel position without manual measurement and adjustment, simplifying anchor bolt processing operations and improving processing efficiency and convenience.

✦ Generated by Eureka AI based on patent content.

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Abstract

This invention belongs to the field of thread rolling machines, specifically a thread rolling machine for processing anchor bolts. Addressing the problems of existing PLC controllers that require pre-measuring the diameter of the workpiece for controlling the specific position of the rolling rollers, making adjustments inconvenient and necessitating worker assistance to determine the workpiece's position after adjustment, the present invention proposes the following solution: A base plate with a groove on its top. A second fixing block is fixedly connected to the top of the base plate. A slider is slidably connected to the inner wall of the bottom of the groove. A compression spring is fixedly connected to one side of the slider and one side of the inner wall of the groove. A first sliding plate is fixedly connected to the top of the slider. In this invention, by setting a first fixing component and a second fixing component to fix the slider, the slider maintains stability during both the initial and usage stages. Simultaneously, the position of the first sliding plate can be automatically controlled directly according to the anchor bolt's dimensions, allowing it to be used in conjunction with the anchor bolt.
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Description

Technical Field

[0001] This invention relates to the field of thread rolling machine technology, and in particular to a thread rolling machine for processing anchor bolts and its intelligent manufacturing process. Background Technology

[0002] A thread rolling machine is a multi-functional cold extrusion forming machine tool. Within its rolling pressure range, it can perform thread rolling, straight knitting, and oblique knitting on workpieces in a cold state; roll spur gears, helical gears, and helical spline gears; straighten, reduce diameter, burnish, and perform various forming rolls. The machine has a safe and reliable electro-hydraulic actuator and control system, allowing each work cycle to be selected in manual, semi-automatic, and automatic modes.

[0003] Utility model CN216065357U discloses a thread rolling machine for lead screw processing, relating to the field of thread rolling machine technology. Addressing the problem that existing thread rolling machines require manual cleaning of waste chips after processing, resulting in a time-consuming and labor-intensive process, the following solution is proposed: It includes a support platform. Two symmetrically arranged limiting plates are fixedly installed at the top of the support platform. A PLC controller is fixedly installed on the side wall of each limiting plate. Multiple slide rods arranged in an array are fixedly installed between the two limiting plates. Two symmetrically arranged support blocks are slidably sleeved on each slide rod. Motors are fixedly installed on the side wall of each support block. A rolling wheel is rotatably installed inside each support block. A hydraulic cylinder is fixedly installed on the side of the limiting plate away from the PLC controller, and the piston rod of the hydraulic cylinder is fixedly connected to the adjacent support block. This utility model has a novel structure and an automatic waste chip cleaning function, making it suitable for widespread application.

[0004] A thread rolling machine for lead screw processing has the following defects during use:

[0005] 1. Controlling the specific position of the rolling rollers via a PLC controller requires prior measurement of the workpiece diameter, which is inconvenient for adjustment;

[0006] 2. After the adjustment is completed, workers are needed to determine the position of the workpiece, which is inconvenient to operate.

[0007] To address the above problems, this invention proposes a thread rolling machine for processing anchor bolts. Summary of the Invention

[0008] This invention provides a thread rolling machine for processing anchor bolts, which solves the disadvantages of existing technology where the specific position of the rolling wheel is controlled by a PLC controller, the diameter of the workpiece needs to be measured in advance, which is inconvenient to adjust, and after adjustment, workers are needed to determine the position of the workpiece, making the operation inconvenient.

[0009] This invention provides the following technical solution:

[0010] A thread rolling machine for processing anchor bolts includes a base plate with a groove on the top. A second fixing block is fixedly connected to the top of the base plate. A slider is slidably connected to the bottom inner wall of the groove. A compression spring is fixedly connected between one side of the slider and one side of the inner wall of the groove. A first sliding plate is fixedly connected to the top of the slider. Grinding components for grinding are provided on one side of the first sliding plate and one side of the second fixing block. Two sets of grinding components are located on one side of the second fixing block, and the other set of grinding components is located on one side of the first sliding plate.

[0011] The inner wall of the groove is slidably connected to a second sliding plate, the top of the second sliding plate is slidably connected to a clamping plate, the top of the clamping plate is fixedly connected to a connecting block, one side of the connecting block is fixedly connected to a first clamping plate, the top of the bottom plate is fixedly connected to a first fixing block, one side of the first fixing block is fixedly connected to a second clamping plate that cooperates with the first clamping plate, and the top of the bottom plate is provided with a clamping component for clamping the connecting block.

[0012] The bottom of the second sliding plate passes through the groove and extends to the bottom of the base plate, and a first fixing component for fixing the slider is provided on one side of the second sliding plate;

[0013] A second fixing component for fixing the slider is provided on one side of the card plate.

[0014] In one possible design, the grinding assembly includes two symmetrically arranged side plates, with a common rolling wheel fixedly connected between the two side plates. A servo motor is fixedly connected to one side of one of the side plates, and the output shaft of the servo motor rotates through the side plate and is fixedly connected to one end of the rolling wheel.

[0015] In one possible design, the clamping assembly includes a third fixing block fixedly connected to the top of the base plate, a positioning rod slidingly passing through the interior of the third fixing block, a push plate fixedly connected to one end of the positioning rod, and a spring fixedly connected between one side of the push plate and one side of the third fixing block, the spring being sleeved on the outer wall of the positioning rod.

[0016] In one possible design, the first fixing component includes a horizontal plate fixedly connected to one side of the second sliding plate, a first locking block fixedly connected to the top of the horizontal plate, the top of the first locking block slidingly penetrating the bottom plate and extending into the interior of the groove, a first locking groove being formed at the bottom of the slider to engage with the first locking block, and the same first tension spring being fixedly connected between the top of the horizontal plate and the bottom of the bottom plate for fixing the slider.

[0017] In one possible design, the second fixing component includes a fixing plate fixedly connected to one side of the card plate, a second card block slidingly passing through the interior of the fixing plate, a pull plate fixedly connected to one end of the second card block, a second tension spring fixedly connected between the pull plate and the fixing plate, the second tension spring being sleeved on the second card block, and a second card groove being opened on one side of the slider to engage with the second card block for fixing the slider.

[0018] In one possible design, a partition is fixedly connected to the inner wall of the groove, and the top of the partition has multiple rectangular slots for fixing the card plate.

[0019] In one possible design, the card plate is used in conjunction with the rectangular slot, and the second card block is used in conjunction with the rectangular slot, so that the second card block will not be stuck when the card plate descends.

[0020] In one possible design, one end of the positioning rod is fixedly connected to a limiting plate to prevent the positioning rod from falling off.

[0021] A manufacturing process for processing anchor bolts specifically includes the following steps:

[0022] S1. Insert the anchor rod between the first clamping plate and the second clamping plate. Due to the different sizes of the anchor rods, the anchor rod will push the first clamping plate to the appropriate position. The first clamping plate will drive the connecting block to move laterally. The connecting block will drive the clamping plate to move laterally and push the push plate to move laterally until the first clamping plate and the second clamping plate clamp the anchor rod. At this time, the clamping plate will move to the top of the appropriate rectangular groove.

[0023] S2. Press the clamping plate vertically downward. At this time, the first clamping plate slides on one side of the connecting block, the connecting block moves vertically downward, and the clamping plate is inserted into the corresponding rectangular groove. At the same time, the clamping plate pushes the second sliding plate to move vertically downward. The second sliding plate drives the horizontal plate to move vertically downward. The horizontal plate drives the first clamping block to move vertically downward and stretches the first tension spring. At this time, the first clamping block is released from the first clamping groove.

[0024] S3. The slider moves laterally under the elastic force of the compression spring. The slider drives the first sliding plate to move laterally. The first sliding plate drives the rolling wheel located on one side to move to one side of the anchor rod. Due to the presence of the clamping plate, the slider cannot move forward after moving to the appropriate position. At the same time, the second clamping block on one side of the clamping plate also engages with the second clamping groove on one side of the slider, limiting the slider again. At this time, three servo motors are started. The output shaft of the servo motor drives the rolling wheel to rotate, and then the processing of the anchor rod can begin.

[0025] It should be understood that the above general description and the following detailed description are merely exemplary and do not limit the invention.

[0026] In this invention, the anchor rod is inserted between the first clamping plate and the second clamping plate. Due to the different sizes of the anchor rods, the anchor rod will push the first clamping plate to a suitable position. The first clamping plate drives the connecting block to move laterally. The connecting block drives the clamping plate to move laterally and pushes the push plate to move laterally until the first clamping plate and the second clamping plate clamp the anchor rod. At this time, the clamping plate moves to the top of the suitable rectangular groove.

[0027] In this invention, when the clamping plate is pressed vertically downward, the first clamping plate slides on one side of the connecting block, the connecting block moves vertically downward, the clamping plate is inserted into the corresponding rectangular groove, and at the same time the clamping plate pushes the second sliding plate to move vertically downward, the second sliding plate drives the horizontal plate to move vertically downward, the horizontal plate drives the first clamping block to move vertically downward and stretches the first tension spring, at which point the first clamping block is released from the first clamping groove.

[0028] In this invention, the slider moves laterally under the elastic force of the compression spring. The slider drives the first sliding plate to move laterally, and the first sliding plate drives the rolling wheel located on one side to move to one side of the anchor rod. Due to the presence of the clamping plate, the slider cannot move forward after moving to the appropriate position. At the same time, the second clamping block on one side of the clamping plate also engages with the second clamping groove on one side of the slider, limiting the slider again. At this time, three servo motors are started, and the output shafts of the servo motors drive the rolling wheel to rotate, so that the processing of the anchor rod can begin.

[0029] In this invention, by setting a first fixing component and a second fixing component to fix the slider, the slider maintains stability in both the initial and usage stages. At the same time, the position of the first sliding plate can be automatically controlled directly according to the size of the anchor rod, so that it can be used in conjunction with the anchor rod, making it convenient to use. Attached Figure Description

[0030] Figure 1 This is a three-dimensional structural diagram from a first perspective of a thread rolling machine for processing anchor bolts, provided in an embodiment of the present invention.

[0031] Figure 2 This is a three-dimensional structural diagram from a second perspective of a thread rolling machine for processing anchor bolts, provided in an embodiment of the present invention.

[0032] Figure 3 This is a three-dimensional structural diagram from a third-view perspective of a thread rolling machine for processing anchor bolts, provided in an embodiment of the present invention.

[0033] Figure 4 This is a three-dimensional structural diagram of the bottom plate of a thread rolling machine for processing anchor bolts, provided in an embodiment of the present invention.

[0034] Figure 5 This is a schematic diagram of the structure of the third fixing plate in a thread rolling machine for processing anchor bolts, provided in an embodiment of the present invention.

[0035] Figure 6 This is a schematic diagram of the slider and clamping plate in a thread rolling machine for processing anchor bolts, provided in an embodiment of the present invention;

[0036] Figure 7 This is a schematic diagram of the slider and the first clamping block in a thread rolling machine for processing anchor bolts, provided in an embodiment of the present invention.

[0037] Figure label:

[0038] 1. Base plate; 2. Groove; 3. Connecting block; 4. First clamping plate; 5. Second clamping plate; 6. First fixing block; 7. Second fixing block; 8. Roller; 9. First sliding plate; 10. Limiting plate; 11. Third fixing block; 12. First slot; 13. Side plate; 14. Servo motor; 15. Spring; 16. Push plate; 17. First locking block; 18. First tension spring; 19. Horizontal plate; 20. Second sliding plate; 21. Partition plate; 22. Rectangular groove; 23. Slider; 24. Compression spring; 25. Locking plate; 26. Positioning rod; 27. Second locking block; 28. Fixing plate; 29. ​​Second tension spring; 30. Pull plate; 31. Second slot. Detailed Implementation

[0039] The embodiments of the present invention will now be described with reference to the accompanying drawings.

[0040] In the description of the embodiments of the present invention, it should be noted that, unless otherwise explicitly specified and limited, the terms "connection" and "installation" should be interpreted broadly. For example, "connection" can be a detachable connection or a non-detachable connection; it can be a direct connection or an indirect connection through an intermediate medium. Furthermore, "connection" can be a direct connection or an indirect connection through an intermediate medium. "Fixed" means that the devices are connected to each other and their relative positional relationship remains unchanged after the connection. The directional terms mentioned in the embodiments of the present invention, such as "inner," "outer," "top," and "bottom," are only for reference to the directions in the accompanying drawings. Therefore, the directional terms used are for better and clearer explanation and understanding of the embodiments of the present invention, and are not intended to 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, they should not be construed as limitations on the embodiments of the present invention.

[0041] In this embodiment of the invention, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of indicated technical features. Therefore, a feature defined with "first" and "second" may explicitly or implicitly include one or more of that feature.

[0042] In this embodiment of the invention, "and / or" is merely a description of the relationship between related objects, indicating that three relationships can exist. For example, A and / or B can represent three cases: A existing alone, A and B existing simultaneously, and B existing alone. Additionally, the character " / " in this document generally indicates that the preceding and following related objects have an "or" relationship.

[0043] References to "one embodiment" or "some embodiments" as used in this specification mean that a particular feature, structure, or characteristic described in connection with that embodiment is included in one or more embodiments of the invention. Therefore, the phrases "in one embodiment," "in some embodiments," "in other embodiments," "in still other embodiments," etc., appearing in different parts of this specification do not necessarily refer to the same embodiment, but rather mean "one or more, but not all, embodiments," unless otherwise specifically emphasized. The terms "comprising," "including," "having," and variations thereof mean "including, but not limited to," unless otherwise specifically emphasized.

[0044] Example 1

[0045] Reference Figure 1-7 A thread rolling machine for processing anchor bolts includes a base plate 1, a groove 2 on the top of the base plate 1, a second fixing block 7 fixedly connected to the top of the base plate 1, a slider 23 slidably connected to the bottom inner wall of the groove 2, a compression spring 24 fixedly connected between one side of the slider 23 and one side of the inner wall of the groove 2, a first sliding plate 9 fixedly connected to the top of the slider 23, and a grinding assembly for grinding is provided on one side of the first sliding plate 9 and one side of the second fixing block 7. The grinding assembly includes two symmetrically arranged side plates 13, a rolling wheel 8 fixedly connected between the two side plates 13, a servo motor 14 fixedly connected to one side of one side plate 13, the output shaft of the servo motor 14 rotating through the side plate 13 and fixedly connected to one end of the rolling wheel 8, wherein two sets of grinding assemblies are located on one side of the second fixing block 7, and the other set of grinding assemblies is located on one side of the first sliding plate 9.

[0046] A second sliding plate 20 is slidably connected to the inner wall of the groove 2. A clamping plate 25 is slidably connected to the top of the second sliding plate 20. A connecting block 3 is fixedly connected to the top of the clamping plate 25. A first clamping plate 4 is fixedly connected to one side of the connecting block 3. A first fixing block 6 is fixedly connected to the top of the bottom plate 1. A second clamping plate 5 that works with the first clamping plate 4 is fixedly connected to one side of the first fixing block 6. A clamping assembly for clamping the connecting block 3 is provided on the top of the bottom plate 1. The clamping assembly includes a third fixing block 11 fixedly connected to the top of the bottom plate 1. A positioning rod 26 slides through the interior of the third fixing block 11. A push plate 16 is fixedly connected to one end of the positioning rod 26. The same spring 15 is fixedly connected between one side of the push plate 16 and one side of the third fixing block 11. The spring 15 is sleeved on the outer wall of the positioning rod 26.

[0047] The bottom of the second sliding plate 20 passes through the groove 2 and extends to the bottom of the base plate 1. A first fixing component for fixing the slider 23 is provided on one side of the second sliding plate 20. The first fixing component includes a horizontal plate 19 fixedly connected to one side of the second sliding plate 20. A first locking block 17 is fixedly connected to the top of the horizontal plate 19. The top of the first locking block 17 slides through the base plate 1 and extends into the interior of the groove 2. A first slot 12 that engages with the first locking block 17 is opened at the bottom of the slider 23. The same first tension spring 18 is fixedly connected between the top of the horizontal plate 19 and the bottom of the base plate 1 for fixing the slider 23.

[0048] A second fixing component for fixing slider 23 is provided on one side of the card plate 25. The second fixing component includes a fixing plate 28 fixedly connected to one side of the card plate 25. A second locking block 27 slides through the inside of the fixing plate 28. A pull plate 30 is fixedly connected to one end of the second locking block 27. The same second tension spring 29 is fixedly connected between the pull plate 30 and the fixing plate 28. The second tension spring 29 is sleeved on the second locking block 27. A second slot 31 is opened on one side of the slider 23 to engage with the second locking block 27 for fixing slider 23.

[0049] Example 2

[0050] Reference Figure 1-7A thread rolling machine for processing anchor bolts includes a base plate 1, a groove 2 on the top of the base plate 1, a second fixing block 7 fixedly connected to the top of the base plate 1, a slider 23 slidably connected to the bottom inner wall of the groove 2, a compression spring 24 fixedly connected between one side of the slider 23 and one side of the inner wall of the groove 2, a first sliding plate 9 fixedly connected to the top of the slider 23, and a grinding assembly for grinding is provided on one side of the first sliding plate 9 and one side of the second fixing block 7. The grinding assembly includes two symmetrically arranged side plates 13, a rolling wheel 8 fixedly connected between the two side plates 13, a servo motor 14 fixedly connected to one side of one side plate 13, the output shaft of the servo motor 14 rotating through the side plate 13 and fixedly connected to one end of the rolling wheel 8, wherein two sets of grinding assemblies are located on one side of the second fixing block 7, and the other set of grinding assemblies is located on one side of the first sliding plate 9.

[0051] A second sliding plate 20 is slidably connected to the inner wall of the groove 2. A clamping plate 25 is slidably connected to the top of the second sliding plate 20. A connecting block 3 is fixedly connected to the top of the clamping plate 25. A first clamping plate 4 is fixedly connected to one side of the connecting block 3. A first fixing block 6 is fixedly connected to the top of the bottom plate 1. A second clamping plate 5 that works with the first clamping plate 4 is fixedly connected to one side of the first fixing block 6. A clamping assembly for clamping the connecting block 3 is provided on the top of the bottom plate 1. The clamping assembly includes a third fixing block 11 fixedly connected to the top of the bottom plate 1. A positioning rod 26 slides through the interior of the third fixing block 11. A push plate 16 is fixedly connected to one end of the positioning rod 26. The same spring 15 is fixedly connected between one side of the push plate 16 and one side of the third fixing block 11. The spring 15 is sleeved on the outer wall of the positioning rod 26.

[0052] The bottom of the second sliding plate 20 passes through the groove 2 and extends to the bottom of the base plate 1. A first fixing component for fixing the slider 23 is provided on one side of the second sliding plate 20. The first fixing component includes a horizontal plate 19 fixedly connected to one side of the second sliding plate 20. A first locking block 17 is fixedly connected to the top of the horizontal plate 19. The top of the first locking block 17 slides through the base plate 1 and extends into the interior of the groove 2. A first slot 12 that engages with the first locking block 17 is opened at the bottom of the slider 23. The same first tension spring 18 is fixedly connected between the top of the horizontal plate 19 and the bottom of the base plate 1 for fixing the slider 23.

[0053] A second fixing component for fixing the slider 23 is provided on one side of the clamping plate 25. The second fixing component includes a fixing plate 28 fixedly connected to one side of the clamping plate 25. A second locking block 27 slides through the interior of the fixing plate 28. A pull plate 30 is fixedly connected to one end of the second locking block 27. The same second tension spring 29 is fixedly connected between the pull plate 30 and the fixing plate 28. The second tension spring 29 is sleeved on the second locking block 27. A second locking groove 31 is opened on one side of the slider 23 to engage with the second locking block 27 for fixing the slider 23. A partition plate 21 is fixedly connected to the inner wall of the groove 2. A plurality of rectangular grooves 22 are opened on the top of the partition plate 21 for fixing the clamping plate 25. The clamping plate 25 and the rectangular grooves 22 are used together. The second locking block 27 and the rectangular grooves 22 are used together. Thus, when the clamping plate 25 descends, the second locking block 27 will not be stuck. A limit plate 10 is fixedly connected to one end of the positioning rod 26 to prevent the positioning rod 26 from falling off.

[0054] A manufacturing process for processing anchor bolts specifically includes the following steps:

[0055] S1. Insert the anchor rod between the first clamping plate 4 and the second clamping plate 5. Due to the different sizes of the anchor rods, the anchor rod will push the first clamping plate 4 to a suitable position. The first clamping plate 4 drives the connecting block 3 to move laterally. The connecting block 3 drives the clamping plate 25 to move laterally and pushes the push plate 16 to move laterally until the first clamping plate 4 and the second clamping plate 5 clamp the anchor rod. At this time, the clamping plate 25 moves to the top of the suitable rectangular groove 22.

[0056] S2. Press the clamping plate 25 vertically downward. At this time, the first clamping plate 4 slides on one side of the connecting block 3, the connecting block 3 moves vertically downward, and the clamping plate 25 is inserted into the corresponding rectangular groove 22. At the same time, the clamping plate 25 pushes the second sliding plate 20 to move vertically downward. The second sliding plate 20 drives the horizontal plate 19 to move vertically downward. The horizontal plate 19 drives the first clamping block 17 to move vertically downward and stretches the first tension spring 18. At this time, the first clamping block 17 is released from the first clamping groove 12.

[0057] S3. The slider 23 moves laterally under the elastic force of the compression spring 24. The slider 23 drives the first sliding plate 9 to move laterally. The first sliding plate 9 drives the rolling wheel 8 located on one side to move to one side of the anchor rod. Due to the presence of the clamping plate 25, the slider 23 will not be able to move forward after moving to the appropriate position. At the same time, the second clamping block 27 on one side of the clamping plate 25 also engages with the second clamping groove 31 on one side of the slider 23, limiting the slider 23 again. At this time, the three servo motors 14 are started. The output shaft of the servo motors 14 drives the rolling wheel 8 to rotate, and then the processing of the anchor rod can begin.

[0058] However, as is well known to those skilled in the art, the working principle and wiring method of the servo motor 14 are commonplace and are all conventional methods or common knowledge. They will not be described in detail here. Those skilled in the art can make any selections according to their needs or convenience.

[0059] The working principle and usage process of this technical solution are as follows: During use, the anchor rod is inserted between the first clamping plate 4 and the second clamping plate 5. Due to the different sizes of the anchor rods, the anchor rod will push the first clamping plate 4 to a suitable position. The first clamping plate 4 drives the connecting block 3 to move laterally. The connecting block 3 drives the clamping plate 25 to move laterally and pushes the pushing plate 16 to move laterally until the first clamping plate 4 and the second clamping plate 5 clamp the anchor rod. At this time, the clamping plate 25 moves to the top of the suitable rectangular groove 22 and is pressed vertically downwards. At this time, the first clamping plate 4 slides on one side of the connecting block 3, the connecting block 3 moves vertically downwards, and the clamping plate 25 is inserted into the corresponding rectangular groove 22. Simultaneously, the clamping plate 25 pushes the second sliding plate 20 to move vertically downwards, and the second sliding plate 20 drives the second clamping plate 25 to move laterally. The plate 19 moves vertically downwards, and the horizontal plate 19 drives the first locking block 17 to move vertically downwards and stretches the first tension spring 18. At this time, the first locking block 17 is released from the first locking groove 12. The slider 23 moves laterally under the elastic force of the compression spring 24. The slider 23 drives the first sliding plate 9 to move laterally. The first sliding plate 9 drives the rolling wheel 8 located on one side to move to one side of the anchor rod. Due to the presence of the locking plate 25, the slider 23 will not be able to move forward after moving to the appropriate position. At the same time, the second locking block 27 on one side of the locking plate 25 also engages with the second locking groove 31 on one side of the slider 23, limiting the slider 23 again. At this time, the three servo motors 14 are started. The output shaft of the servo motors 14 drives the rolling wheel 8 to rotate, and then the processing of the anchor rod can begin. It is convenient to use.

[0060] The above are merely specific embodiments of the present invention, but the scope of protection of the present invention is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the technical scope disclosed in the present invention should be included within the scope of protection of the present invention. In the absence of conflict, the embodiments and features of the embodiments of the present invention can be combined with each other. Therefore, the scope of protection of the present invention should be determined by the scope of the claims.

Claims

1. A thread rolling machine for processing anchor bolts, characterized in that, include: The base plate (1) has a groove (2) on its top. A second fixing block (7) is fixedly connected to the top of the base plate (1). A slider (23) is slidably connected to the bottom inner wall of the groove (2). A compression spring (24) is fixedly connected between one side of the slider (23) and one side inner wall of the groove (2). A first sliding plate (9) is fixedly connected to the top of the slider (23). A grinding component for grinding is provided on one side of the first sliding plate (9) and one side of the second fixing block (7). Two grinding components are located on one side of the second fixing block (7), and another grinding component is located on one side of the first sliding plate (9). The inner wall of the groove (2) is slidably connected to a second sliding plate (20), the top of the second sliding plate (20) is slidably connected to a clamping plate (25), the top of the clamping plate (25) is fixedly connected to a connecting block (3), one side of the connecting block (3) is fixedly connected to a first clamping plate (4), the top of the bottom plate (1) is fixedly connected to a first fixing block (6), one side of the first fixing block (6) is fixedly connected to a second clamping plate (5) that cooperates with the first clamping plate (4), and the top of the bottom plate (1) is provided with a clamping component for clamping the connecting block (3); The bottom of the second sliding plate (20) passes through the groove (2) and extends to the bottom of the base plate (1). A first fixing component for fixing the slider (23) is provided on one side of the second sliding plate (20). A second fixing component for fixing the slider (23) is provided on one side of the card plate (25); The second fixing component includes a fixing plate (28) fixedly connected to one side of the card plate (25), a second card block (27) slidingly passing through the inside of the fixing plate (28), a pull plate (30) fixedly connected to one end of the second card block (27), a second tension spring (29) fixedly connected between the pull plate (30) and the fixing plate (28), the second tension spring (29) being sleeved on the second card block (27), and a second card groove (31) engaging with the second card block (27) being opened on one side of the slider (23); The first fixing component includes a horizontal plate (19) fixedly connected to one side of the second sliding plate (20). A first locking block (17) is fixedly connected to the top of the horizontal plate (19). The top of the first locking block (17) slides through the bottom plate (1) and extends into the interior of the groove (2). A first locking groove (12) is opened at the bottom of the slider (23) to engage with the first locking block (17). The same first tension spring (18) is fixedly connected between the top of the horizontal plate (19) and the bottom of the bottom plate (1). The inner wall of the groove (2) is fixedly connected to a partition (21), and the top of the partition (21) is provided with multiple rectangular grooves (22). The card plate (25) is used in conjunction with the rectangular slot (22), and the second card block (27) is used in conjunction with the second card slot (31); Press the card plate (25) vertically downwards, the connecting block (3) moves vertically downwards, the card plate (25) is inserted into the corresponding rectangular groove (22), and at the same time the card plate (25) pushes the second sliding plate (20) to move vertically downwards.

2. The thread rolling machine for processing anchor bolts according to claim 1, characterized in that, The grinding assembly includes two symmetrically arranged side plates (13), and the same rolling wheel (8) is fixedly connected between the two side plates (13). A servo motor (14) is fixedly connected to one side of one of the side plates (13). The output shaft of the servo motor (14) rotates through the side plate (13) and is fixedly connected to one end of the rolling wheel (8).

3. The thread rolling machine for processing anchor bolts according to claim 2, characterized in that, The clamping assembly includes a third fixing block (11) fixedly connected to the top of the base plate (1). A positioning rod (26) slides through the interior of the third fixing block (11). A push plate (16) is fixedly connected to one end of the positioning rod (26). A spring (15) is fixedly connected between one side of the push plate (16) and one side of the third fixing block (11). The spring (15) is sleeved on the outer wall of the positioning rod (26).

4. The thread rolling machine for processing anchor bolts according to claim 3, characterized in that, One end of the positioning rod (26) is fixedly connected to a limiting plate (10).

5. The manufacturing process of anchor bolts using a thread rolling machine according to claim 4, characterized in that, Specifically, the following steps are included: S1. Insert the anchor rod between the first clamping plate (4) and the second clamping plate (5). Due to the different sizes of the anchor rods, the anchor rod will push the first clamping plate (4) to the appropriate position. The first clamping plate (4) will drive the connecting block (3) to move laterally. The connecting block (3) will drive the clamping plate (25) to move laterally and push the push plate (16) to move laterally until the first clamping plate (4) and the second clamping plate (5) clamp the anchor rod. At this time, the clamping plate (25) will move to the top of the appropriate rectangular groove (22). S2. Press the card plate (25) vertically downwards, the connecting block (3) moves vertically downwards, the card plate (25) is inserted into the corresponding rectangular groove (22), and at the same time the card plate (25) pushes the second sliding plate (20) to move vertically downwards. The second sliding plate (20) drives the horizontal plate (19) to move vertically downwards. The horizontal plate (19) drives the first card block (17) to move vertically downwards and stretches the first tension spring (18). At this time, the first card block (17) and the first card groove (12) are released from braking. S3. The slider (23) moves laterally under the elastic force of the compression spring (24). The slider (23) drives the first sliding plate (9) to move laterally. The first sliding plate (9) drives the rolling wheel (8) located on one side to move to one side of the anchor rod. Due to the presence of the clamping plate (25), the slider (23) will not be able to move forward after moving to the appropriate position. At the same time, the second clamping block (27) on one side of the clamping plate (25) also engages with the second clamping groove (31) on one side of the slider (23), limiting the slider (23) again. At this time, the three servo motors (14) are started. The output shaft of the servo motor (14) drives the rolling wheel (8) to rotate, and then the anchor rod can be processed.