A stabilizing guide for a wire rod mill

By designing a stable guiding device, the automatic correction and stable guidance of wire rods are achieved using components such as limit slide frames and drive motors. This solves the problems of deviation and vibration during wire rod rolling, improves product quality and equipment lifespan, and increases production efficiency.

CN224333091UActive Publication Date: 2026-06-09JIANGSU XINGKE METALLURGICAL MASCH MFG CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGSU XINGKE METALLURGICAL MASCH MFG CO LTD
Filing Date
2025-05-08
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

The traditional wire rod rolling process lacks an effective guiding device, which leads to wire rod deviation and vibration, affecting dimensional accuracy and product quality, increasing production costs, and causing severe equipment wear and frequent maintenance, thus affecting production efficiency.

Method used

A stable guiding device is designed, comprising a fixed substrate, a wire management assembly, a material transfer assembly, and a wire guiding assembly. By utilizing the cooperation of a limiting slide frame, a connecting spring, a slide carriage, and wire guiding rollers, the device achieves automatic wire correction and stable guidance. Power is provided by a drive motor to ensure that the wire maintains a stable trajectory during the rolling process.

Benefits of technology

It improves the dimensional accuracy of wires and the product qualification rate, reduces equipment wear, extends equipment life, reduces the frequency of production interruptions, and improves production efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to a stable guiding device for wire rod rolling mill technical field especially, it relates to a kind of stable guiding device for wire rod rolling mill, including fixed base plate.The coordination of the passing-in cylinder and the roller one, the roller two, ensure that wire rod keeps stable trend in initial stage, avoid the initial disorder of wire rod and lead to twist, winding etc. in rolling process;Passing-in side wheel and passing-in wheel in material transmission subassembly are closely matched, when wire rod is conveyed, the position and tension of wire rod can be accurately controlled, ensure that wire rod is always in correct rolling track, effectively prevent wire rod and appear uneven, ovality exceeds standard etc. size deviation problem;Passing-in roller of passing-in subassembly is matched under the cooperation of connecting spring and sliding support, with automatic correction function.Once wire rod appears deviation, position can be quickly adjusted, ensure that multiple wire rod bundle is stable, so that wire rod surface that the final rolling is smooth, size precision is high, greatly improve the qualified rate and quality stability of product.
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Description

Technical Field

[0001] This utility model relates to the technical field of stabilizing guide devices for wire rod mills, and more particularly to a stabilizing guide device for wire rod mills. Background Technology

[0002] In modern industrial production, wire rod mills, as key equipment in the metal processing field, are widely used in many industries such as steel and non-ferrous metals, undertaking the important task of processing metal billets into wire rods of various specifications. With the continuous advancement of industrial technology, increasingly stringent requirements are being placed on the quality and production efficiency of wire rods.

[0003] In the traditional wire rod rolling process, due to the lack of effective guiding devices, the wire rod is prone to instability such as deviation and vibration during rolling. This makes it difficult to guarantee the dimensional accuracy of the wire rod, resulting in quality problems such as uneven thickness, which seriously affects the product qualification rate and increases production costs. Moreover, unstable wire rod may also collide and rub against other parts of the rolling mill during the rolling process, accelerating equipment wear and reducing equipment lifespan. Frequent equipment maintenance and replacement can also cause production interruptions, further affecting production efficiency.

[0004] To overcome these problems and improve the quality and efficiency of wire rod rolling, it is imperative to develop a device that can stably guide the wire rod and ensure its precise positioning and stable operation during the rolling process. This stabilizing guide device for wire rod mills has emerged to address these shortcomings, aiming to provide the wire rod rolling industry with a more efficient and higher-quality production solution. Utility Model Content

[0005] To address the shortcomings of existing technologies, this utility model provides a stabilizing guide device for wire rod mills. This solves the problem that in traditional wire rod rolling processes, the lack of an effective guide device leads to instability issues such as wire rod deviation and vibration during rolling. This results in difficulty in ensuring the dimensional accuracy of the wire rod, causing uneven thickness and other quality problems, severely impacting product yield and increasing production costs. Furthermore, unstable wire rods may collide and rub against other components of the mill during rolling, accelerating equipment wear, reducing equipment lifespan, and causing production interruptions due to frequent maintenance and replacement, further affecting production efficiency.

[0006] To solve the above-mentioned technical problems, the present invention provides the following technical solution: a stabilizing guide device for a wire rod mill, comprising a fixed base plate, the fixed base plate being provided with a connecting mechanism, the connecting mechanism including a wire management component disposed on the left section of the fixed base plate, a material transfer component disposed on the middle section of the fixed base plate, and a wire passing component disposed on the right section of the fixed base plate.

[0007] The wire guiding assembly includes a limiting slide frame fixedly connected to the top of the fixed base plate. A fixed slide rod is fixedly connected to the inner wall of the limiting slide frame. A connecting spring is sleeved on the outer wall of the right section of the fixed slide rod. A slide frame is slidably connected to the outer wall of the fixed slide rod. An arc-shaped plate is fixedly connected to the top of the slide frame. A wire guiding roller is rotatably connected to the inner wall of the limiting opening of the arc plate.

[0008] A further improvement is that the cable management assembly includes a fixing frame 1 fixedly connected to the top of the fixing base plate, a cable guide tube rotatably connected to the inner wall of the fixing frame 1, a connecting frame 1 fixedly connected to the outer wall of the cable guide tube, a roller 1 fixedly connected to the outer end of the connecting frame 1, a rotating plate rotatably connected to the outer end of the roller 1, a roller 2 fixedly connected to the outer end of the rotating plate, a connecting frame 2 fixedly connected to the outer end of the roller 2, and a cable guide tube 2 provided on the inner wall of the outer end of the connecting frame 2.

[0009] A further improvement is that the material transfer assembly includes a second fixing frame fixedly connected to the top of the fixed base plate. A mounting frame is fixedly connected to the outer end of the second fixing frame. A drive motor is fixedly installed on the inner side of the mounting frame. A rotating rod is fixedly connected to the output end of the drive motor. A wire-passing side wheel is fixedly connected to the outer wall of the rotating rod. A connecting rotating plate is fixedly connected to the outer wall of the rotating rod. A wire-passing wheel is rotatably connected to the inner side of the connecting rotating plate.

[0010] A further improvement is that the connecting spring is always in a compressed state, and the slide is slidably connected to the inner wall of the limiting slide frame; the limiting slide frame is fixedly connected to the top of the fixed base plate, and the fixed slide rod fixedly connected to its inner wall provides a sliding track for other components; the connecting spring sleeved on the outer wall of the right section of the fixed slide rod is always in a compressed state, providing a leftward elastic force for the slide.

[0011] A further improvement is that roller one and roller two are symmetrically arranged on both sides of the rotating plate; connecting frame one, which is fixedly connected to the outer wall of the wire guide, transmits the rotation of the wire guide; roller one, which is fixedly connected to the outer end of connecting frame one, rotates on one side of the rotating plate and works in cooperation with roller two, which is symmetrically arranged on the other side of the rotating plate; these two rollers can flexibly adjust the rotation angle according to the direction of the wire to ensure that the wire maintains a relatively stable position and direction before entering the subsequent components.

[0012] A further improvement is that the rotating rod is rotatably connected to the inner wall of the fixed frame, the wire guide wheel is circumferentially arranged on the inner side of the connecting rotating plate, and the wire guide wheel is symmetrically arranged on both sides of the wire guide side wheel; the wire guide side wheel fixedly connected to the outer wall of the rotating rod will rotate with the rotation of the rotating rod, playing a role in lateral pushing and guiding the wire, ensuring that the wire moves along a specific trajectory; at the same time, the connecting rotating plate fixedly connected to the outer wall of the rotating rod will also rotate synchronously, and the wire guide wheels arranged circumferentially on the inner side of the connecting rotating plate and symmetrically distributed on both sides of the wire guide side wheel will contact the wire and rotate.

[0013] A further improvement is that the limiting openings of the arc-shaped plate are equidistantly spaced around the circumference, and the wire guide rollers are used to guide the bundled wires; the inner wall of the limiting openings of the arc-shaped plate is rotatably connected to the wire guide rollers, and the limiting openings are equidistantly spaced around the circumference; when the wire passes through the wire guide rollers, if the wire deviates, it will generate a lateral force on the wire guide rollers. This force will push the slide frame to slide to the right against the elastic force of the connecting spring within the limiting slide frame, thereby adjusting the position of the wire guide rollers and allowing the wire to return to the correct rolling track.

[0014] By employing the above technical solution, this utility model provides a stabilizing guide device for wire rod mills, which has at least the following beneficial effects:

[0015] 1. The synergistic effect of the wire guide roller and rollers one and two ensures that the wire maintains a stable trajectory from the initial stage, avoiding problems such as twisting and tangling during rolling due to initial wire disorder. The wire guide side roller and wire guide wheel in the material transfer assembly work closely together to accurately control the position and tension of the wire during transport. Even during high-speed rolling, it ensures that the wire remains on the correct rolling track, effectively preventing dimensional deviations such as uneven thickness and excessive ellipticity. The wire guide rollers of the wire guide assembly, in conjunction with the connecting spring and the slide, have an automatic correction function. Once the wire deviates, it can quickly adjust its position to ensure stable multi-strand wire bundling, resulting in a smooth surface and high dimensional accuracy of the final rolled wire, greatly improving the product qualification rate and quality stability.

[0016] 2. The drive motor of the material transfer assembly of this utility model provides stable power, and the efficient collaborative material transfer between the wire guide roller and the wire guide wheel ensures that the wire continuously and stably enters the rolling mill, reducing the number of downtimes caused by poor feeding. The automatic correction function of the wire guide assembly eliminates the need for frequent manual intervention during the rolling process, ensuring a smooth rolling process and significantly increasing the wire output per unit time. From an equipment protection perspective, stable guidance significantly reduces collisions and friction between the wire and other parts of the rolling mill during the rolling process. The wire management assembly reduces the impact of the wire on subsequent components, the precise material transfer of the material transfer assembly avoids damage to the equipment transmission components due to wire jamming, and the automatic correction of the wire guide assembly prevents abnormal wear of critical components such as the rolls due to wire deviation. This comprehensively reduces equipment wear, extends the equipment maintenance cycle and overall service life, reduces production interruptions caused by equipment failure and maintenance, and further ensures continuous improvement in production efficiency. Attached Figure Description

[0017] The accompanying drawings, which are provided to further illustrate this application and form part of this application, illustrate exemplary embodiments of this application and are used to explain this application, but do not constitute an undue limitation of this application.

[0018] In the attached diagram:

[0019] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0020] Figure 2 This is a partial structural diagram of the cable management component of this utility model;

[0021] Figure 3 This is a partial structural diagram of the material transfer component of this utility model;

[0022] Figure 4 This is a partial structural diagram of the wire guide assembly of this utility model.

[0023] In the diagram: 1. Fixed base plate; 2. Connecting mechanism; 21. Cable management assembly; 211. Fixed frame one; 212. Cable guide tube; 213. Connecting frame one; 214. Roller one; 215. Rotating plate; 216. Roller two; 217. Connecting frame two; 218. Cable guide tube two; 22. Material transfer assembly; 221. Fixed frame two; 222. Mounting frame; 223. Drive motor; 224. Rotating rod; 225. Cable guide side wheel; 226. Connecting rotating plate; 227. Cable guide wheel; 23. Cable guide assembly; 231. Limiting slide frame; 232. Fixed slide rod; 233. Connecting spring; 234. Slide frame; 235. Arc plate; 236. Cable guide roller. Detailed Implementation

[0024] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model. Example

[0025] In traditional wire rod rolling processes, the lack of effective guiding devices leads to instability issues such as wire deviation and vibration. This results in inconsistent dimensional accuracy, uneven thickness, and other quality problems, severely impacting product yield and increasing production costs. Furthermore, unstable wire may collide and rub against other components of the rolling mill, accelerating wear and reducing equipment lifespan. Frequent maintenance and replacement can also cause production interruptions, further affecting efficiency. This embodiment provides a stabilizing guiding device for wire rod rolling mills. Please refer to... Figures 1-4An embodiment provides a stabilizing guide device for a wire rod mill, including a fixed base plate 1. The fixed base plate 1 is provided with a connecting mechanism 2. The connecting mechanism 2 includes a wire-guiding assembly 21 provided on the left section of the fixed base plate 1, a material transfer assembly 22 provided on the middle section of the fixed base plate 1, and a wire-passing assembly 23 provided on the right section of the fixed base plate 1. The wire-passing assembly 23 includes a limiting slide frame 231 fixedly connected to the top of the fixed base plate 1. A fixed slide rod 232 is fixedly connected to the inner wall of the limiting slide frame 231. A connecting spring 233 is sleeved on the outer wall of the right section of the fixed slide rod 232. A slide frame 234 is slidably connected to the outer wall of the fixed slide rod 232. An arc-shaped plate 235 is fixedly connected to the top of the slide frame 234. A wire-passing roller 236 is rotatably connected to the inner wall of the limiting opening of the arc plate 235.

[0026] In this embodiment, the wire guide assembly 23 is located on the right side of the fixed base plate 1, and mainly includes a limiting slide frame 231, a fixed slide rod 232, a connecting spring 233, a slide 234, an arc plate 235, and a wire guide roller 236. The limiting slide frame 231 is fixedly connected to the top of the fixed base plate 1, and the fixed slide rod 232 fixedly connected to its inner wall provides a sliding track for other components. The connecting spring 233 sleeved on the outer wall of the right side of the fixed slide rod 232 is always in a compressed state, providing a leftward elastic force to the slide 234. The slide 234 can slide along the fixed slide rod 232 on the inner wall of the limiting slide frame 231, and the arc plate 235 fixedly connected to its top will move with the movement of the slide 234. The inner wall of the limiting opening of the arc plate 235 is rotatably connected to the wire guide roller 236, and the limiting opening is equidistantly spaced around its circumference. When the wire passes through the wire guide roller 236, if the wire deviates, it will generate a lateral force on the wire guide roller 236. This force will push the slide 234 to slide to the right within the limiting slide frame 231 against the elastic force of the connecting spring 233, thereby adjusting the position of the wire guide roller 236 and bringing the wire back to the correct rolling track. At the same time, the equidistant distribution of the wire guide roller 236 around its circumference can guide multiple strands of wire in bundles, ensuring that each bundle of wire can enter the rolling mill in a stable state for rolling, which greatly improves the stability and accuracy of the wire rolling process.

[0027] Furthermore, the connecting spring 233 is always in a compressed state, and the slide 234 is slidably connected to the inner wall of the limiting slide frame 231; the limiting openings of the arc plate 235 are equidistantly arranged around the circumference, and the wire guide roller 236 is used to guide the bundled wires.

[0028] Furthermore, the carriage 234 can slide along the fixed slide rod 232 on the inner wall of the limiting slide frame 231, and the arc plate 235 fixedly connected to its top will move with the movement of the carriage 234; the inner wall of the limiting opening of the arc plate 235 is rotatably connected to the wire guide roller 236, and the limiting opening is equidistant from each other on the circumference; when the wire passes through the wire guide roller 236, if the wire deviates, it will generate a lateral force on the wire guide roller 236. This force will push the carriage 234 to slide to the right within the limiting slide frame 231 against the elastic force of the connecting spring 233, thereby adjusting the position of the wire guide roller 236 and returning the wire to the correct rolling track. Example

[0029] Based on Embodiment 1, the cable management assembly 21 includes a fixing frame 211 fixedly connected to the top of the fixing base plate 1. A cable guide tube 212 is rotatably connected to the inner wall of the fixing frame 211. A connecting frame 213 is fixedly connected to the outer wall of the cable guide tube 212. A roller 214 is fixedly connected to the outer end of the connecting frame 213. A rotating plate 215 is rotatably connected to the outer end of the roller 214. A roller 216 is fixedly connected to the outer end of the rotating plate 215. A connecting frame 217 is fixedly connected to the outer end of the roller 216. The inner wall of the outer end is provided with a wire-passing cylinder 218; the material transfer assembly 22 includes a fixing frame 221 fixedly connected to the top of the fixing base plate 1. The outer end of the fixing frame 221 is fixedly connected to a mounting frame 222. The inner side of the mounting frame 222 is fixedly installed with a drive motor 223. The output end of the drive motor 223 is fixedly connected to a rotating rod 224. The outer wall of the rotating rod 224 is fixedly connected to a wire-passing side wheel 225. The outer wall of the rotating rod 224 is fixedly connected to a connecting plate 226. The inner side of the connecting plate 226 is rotatably connected to a wire-passing wheel 227.

[0030] In this embodiment, the cable management assembly 21 is located on the left side of the fixed substrate 1. Its core components include a fixing frame 211 fixedly connected to the top of the fixed substrate 1; a cable guide 212 can rotate flexibly on the inner wall of the fixing frame 211; when the cable passes through the cable guide 212, the cable guide 212 will rotate with the movement of the cable, thereby reducing the friction between the cable and the cable guide 212 and preventing damage to the surface of the cable due to friction; a connecting frame 213 fixedly connected to the outer wall of the cable guide 212 will transmit the rotation of the cable guide 212; a roller 214 fixedly connected to the outer end of the connecting frame 213 will rotate... One side of plate 215 rotates, working in conjunction with rollers 216 symmetrically arranged on the other side of the rotating plate 215. These two rollers can flexibly adjust their rotation angle according to the direction of the wire, ensuring that the wire maintains a relatively stable position and direction before entering the subsequent components. Rollers 216, which are fixedly connected to the outer end of the rotating plate 215, further enhance the ability to guide the direction of the wire. The connecting frame 217, which is fixedly connected to its outer end, is finally connected to the wire guide spool 218, so that the wire can be gradually straightened in the wire sorting assembly 21, preparing it for the subsequent rolling process. The material transfer assembly 22 is located in the middle section of the fixed base plate 1. The material transfer assembly 22 mainly consists of a fixed frame 221, a mounting frame 222, a drive motor 223, a rotating rod 224, a wire guide wheel 225, a connecting plate 226, and a wire guide wheel 227. The fixed frame 221 is fixedly connected to the top of the fixed base plate 1, providing support for the entire material transfer assembly 22. The mounting frame 222 is fixed to the outer end of the fixed frame 221, and the drive motor 223 mounted on it is the power source for the material transfer assembly 22. When the drive motor 223 is working, its output end drives the rotating rod 224 to rotate on the inner wall of the fixed frame 221. The wire guide wheel 225, which is fixedly connected to the outer wall of the rotating rod 224, will rotate with the rotating rod 224. The rotation of the rotating rod 224 provides lateral pushing and guiding for the wire, ensuring that the wire moves along a specific trajectory. Simultaneously, the connecting plate 226, which is fixedly connected to the outer wall of the rotating rod 224, also rotates synchronously. The wire guide wheels 227, which are symmetrically distributed on both sides of the wire guide wheel 225 and arranged circumferentially on the inner side of the connecting plate 226, will contact the wire and rotate. On the one hand, the wire guide wheels 227 assist the wire guide wheel 225 in guiding the wire, and on the other hand, they can adaptively adjust the force applied to the wire according to the tension and position changes of the wire, ensuring that the wire remains stable during transmission without deforming due to excessive force.

[0031] Furthermore, roller 1 214 and roller 216 are symmetrically arranged on both sides of the rotating plate 215; the rotating rod 224 is rotatably connected to the inner wall of the fixed frame 221; the wire guide wheel 227 is circumferentially arranged on the inner side of the connecting rotating plate 226, and the wire guide wheel 227 is symmetrically arranged on both sides of the wire guide wheel 225.

[0032] Furthermore, the roller 216 fixedly connected to the outer end of the rotating plate 215 further enhances the guiding ability of the wire. The connecting frame 217 fixedly connected to its outer end is finally connected to the wire guide spool 218, so that the wire can be gradually straightened in the wire sorting assembly 21, preparing for the subsequent rolling process. The material transfer assembly 22 is located in the middle section of the fixed base plate 1 and mainly consists of the fixed frame 221, the mounting frame 222, the drive motor 223, the rotating rod 224, the wire guide side wheel 225, the connecting rotating plate 226, and the wire guide wheel 227. The fixed frame 221 is fixedly connected to the top of the fixed base plate 1 to provide support for the entire material transfer assembly 22.

[0033] Working principle: The cable management assembly 21 is located on the left side of the fixed base plate 1. Its core components include a fixing frame 211 fixedly connected to the top of the fixed base plate 1; a cable guide 212 can rotate flexibly on the inner wall of the fixing frame 211; when the cable passes through the cable guide 212, the cable guide 212 will rotate with the movement of the cable, thereby reducing the friction between the cable and the cable guide 212 and preventing damage to the surface of the cable due to friction; a connecting frame 213 fixedly connected to the outer wall of the cable guide 212 will transmit the rotation of the cable guide 212; a roller fixedly connected to the outer end of the connecting frame 213 Roller 214 rotates on one side of rotating plate 215 and works in conjunction with roller 216 symmetrically arranged on the other side of rotating plate 215. These two rollers can flexibly adjust their rotation angle according to the direction of the wire, ensuring that the wire maintains a relatively stable position and direction before entering the subsequent components. Roller 216, which is fixedly connected to the outer end of rotating plate 215, further enhances the ability to guide the direction of the wire. The connecting frame 217, which is fixedly connected to its outer end, is finally connected to wire guide spool 218, so that the wire can be gradually straightened in wire management component 21, preparing it for the subsequent rolling process.

[0034] The material transfer assembly 22 is located in the middle section of the fixed base plate 1 and mainly consists of a second fixed frame 221, a mounting frame 222, a drive motor 223, a rotating rod 224, a wire guide wheel 225, a connecting rotating plate 226, and a wire guide wheel 227. The second fixed frame 221 is fixedly connected to the top of the fixed base plate 1, providing support for the entire material transfer assembly 22. The mounting frame 222 is fixed to the outer end of the second fixed frame 221, and the drive motor 223 mounted on it is the power source for the material transfer assembly 22. When the drive motor 223 is working, its output end drives the rotating rod 224 to rotate on the inner wall of the second fixed frame 221. The wire guide wheel 225 is fixedly connected to the outer wall of the rotating rod 224. 5. The rotating rod 224 rotates along with the rotating rod 224, providing lateral pushing and guiding for the wire, ensuring that the wire moves along a specific trajectory. At the same time, the connecting plate 226 fixedly connected to the outer wall of the rotating rod 224 also rotates synchronously. The wire guide wheels 227, which are symmetrically distributed on both sides of the wire guide wheel 225 and arranged circumferentially on the inner side of the connecting plate 226, will contact the wire and rotate. The wire guide wheels 227 assist the wire guide wheel 225 in guiding the wire, and can adaptively adjust the force applied to the wire according to the tension and position changes of the wire, ensuring that the wire remains stable during transmission without deforming due to excessive force.

[0035] The wire guiding assembly 23 is located on the right side of the fixed base plate 1 and mainly includes a limiting slide frame 231, a fixed slide rod 232, a connecting spring 233, a carriage 234, an arc plate 235, and a wire guiding roller 236. The limiting slide frame 231 is fixedly connected to the top of the fixed base plate 1, and the fixed slide rod 232, which is fixedly connected to its inner wall, provides a sliding track for other components. The connecting spring 233, which is sleeved on the outer wall of the right side of the fixed slide rod 232, is always in a compressed state, providing a leftward elastic force to the carriage 234. The carriage 234 can slide along the fixed slide rod 232 on the inner wall of the limiting slide frame 231, and the arc plate 235, which is fixedly connected to its top, moves with the movement of the carriage 234. The inner wall of the limiting opening 235 is rotatably connected to the wire guide roller 236, and the limiting opening is equidistantly spaced around its circumference. When the wire passes through the wire guide roller 236, if the wire deviates, it will generate a lateral force on the wire guide roller 236. This force will push the slide 234 to slide to the right within the limiting slide frame 231, overcoming the elastic force of the connecting spring 233, thereby adjusting the position of the wire guide roller 236 and bringing the wire back to the correct rolling track. At the same time, the equidistant circumferential distribution of the wire guide roller 236 can guide multiple strands of wire in bundles, ensuring that each bundle of wire can enter the rolling mill in a stable state for rolling, which greatly improves the stability and accuracy of the wire rolling process.

[0036] It should be noted that, in this document, the terms “comprising,” “including,” or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.

[0037] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A stabilizing guide device for a wire rod mill, comprising a fixed base plate (1), characterized in that: The fixed substrate (1) is provided with a connecting mechanism (2), the connecting mechanism (2) includes a wire management assembly (21) provided on the left section of the fixed substrate (1), a material transfer assembly (22) provided on the middle section of the fixed substrate (1), and a wire passing assembly (23) provided on the right section of the fixed substrate (1). The wire guide assembly (23) includes a limiting slide frame (231) fixedly connected to the top of the fixed base plate (1). A fixed slide rod (232) is fixedly connected to the inner wall of the limiting slide frame (231). A connecting spring (233) is sleeved on the outer wall of the right section of the fixed slide rod (232). A slide frame (234) is slidably connected to the outer wall of the fixed slide rod (232). An arc plate (235) is fixedly connected to the top of the slide frame (234). A wire guide roller (236) is rotatably connected to the inner wall of the limiting opening of the arc plate (235).

2. The stabilizing guide device for a wire rod mill according to claim 1, characterized in that: The cable management assembly (21) includes a first fixing frame (211) fixedly connected to the top of the fixed base plate (1). The inner wall of the first fixing frame (211) is rotatably connected to a cable tube (212). The outer wall of the cable tube (212) is fixedly connected to a first connecting frame (213). The outer end of the first connecting frame (213) is fixedly connected to a first roller (214). The outer end of the first roller (214) is rotatably connected to a rotating plate (215). The outer end of the rotating plate (215) is fixedly connected to a second roller (216). The outer end of the second roller (216) is fixedly connected to a second connecting frame (217). The inner wall of the outer end of the second connecting frame (217) is provided with a second cable tube (218).

3. A stabilizing guide device for a wire rod mill according to claim 1, characterized in that: The material transfer assembly (22) includes a second fixing frame (221) fixedly connected to the top of the fixed base plate (1). A mounting frame (222) is fixedly connected to the outer end of the second fixing frame (221). A drive motor (223) is fixedly installed on the inner side of the mounting frame (222). A rotating rod (224) is fixedly connected to the output end of the drive motor (223). A wire-passing side wheel (225) is fixedly connected to the outer wall of the rotating rod (224). A connecting rotating plate (226) is fixedly connected to the outer wall of the rotating rod (224). A wire-passing wheel (227) is rotatably connected to the inner side of the connecting rotating plate (226).

4. A stabilizing guide device for a wire rod mill according to claim 1, characterized in that: The connecting spring (233) is always in a compressed state, and the slide (234) is slidably connected to the inner wall of the limiting slide frame (231).

5. A stabilizing guide device for a wire rod mill according to claim 2, characterized in that: The first roller (214) and the second roller (216) are symmetrically arranged on both sides of the rotating plate (215).

6. A stabilizing guide device for a wire rod mill according to claim 3, characterized in that: The rotating rod (224) is rotatably connected to the inner wall of the fixed frame (221), the wire guide wheel (227) is circumferentially arranged on the inner side of the connecting rotating plate (226), and the wire guide wheel (227) is symmetrically arranged on both sides of the wire guide side wheel (225).

7. A stabilizing guide device for a wire rod mill according to claim 1, characterized in that: The limiting openings of the arc plate (235) are equidistantly arranged around the circumference, and the wire guide roller (236) is used to guide the bundled wires.