A conveying device for steel wires
By improving the design of the guide rollers and rotating guide rollers and the cleaning components, the problems of misalignment and jamming of irregularly shaped steel wires in traditional conveying devices have been solved, achieving efficient and stable steel wire conveying and cleaning to meet the needs of industrial production.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SICHUAN KUNJIE MACHINERY MANUFACTURING CO LTD
- Filing Date
- 2025-08-04
- Publication Date
- 2026-07-03
AI Technical Summary
The guiding structure of traditional conveying devices lacks adaptability to irregularly shaped steel wires, causing the steel wires to deviate, flip, or get stuck during the conveying process, affecting the precise docking of subsequent processing.
The design features a guide roller that fits tightly against the shaped steel wire, combined with a rotating guide roller to provide stable friction, and is equipped with a cleaning component to remove impurities, ensuring the stability and cleanliness of the steel wire during the conveying process.
It improves the conveying efficiency and stability of irregularly shaped steel wires, reduces the risk of equipment failure, and ensures accurate docking in subsequent processing and extends the service life of the equipment.
Smart Images

Figure CN224449792U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of steel wire conveying devices, and in particular to a steel wire conveying device. Background Technology
[0002] In modern industrial manufacturing, shaped steel wires, with their unique cross-sectional shape and mechanical properties, are widely used in key areas such as high-end machinery manufacturing, precision instruments, and aerospace. Unlike ordinary round steel wires, shaped steel wires have irregular outlines, such as squares, triangles, and D-shapes. This special structure gives them unique advantages in mechanical connections and stress distribution, but it also brings great challenges to the conveying process.
[0003] Traditional wire conveying devices exhibit numerous problems when handling irregularly shaped wires. From the perspective of the conveying components, the guiding structures of conventional conveying devices are mostly designed for round wires, lacking adaptability to the special shapes of irregularly shaped wires. When ordinary guide rollers come into contact with irregularly shaped wires, it is difficult to ensure uniform force distribution across the cross-section, easily leading to wire deviation, overturning, or even jamming during conveying. The guide rollers in traditional conveying devices are mostly single cylindrical structures. When conveying square wires, the contact points between the wire edges and the guide rollers are unstable, failing to effectively constrain the wire. This causes the wire to deviate from the predetermined track on the conveying path, affecting the precise connection of subsequent processing steps. Based on this, a wire conveying device is proposed to solve the above problems. Utility Model Content
[0004] To address the shortcomings of existing technologies, this utility model provides a wire conveying device that solves the problem that conventional conveying devices are mostly designed for round wires and lack adaptability to the special shapes of irregularly shaped wires. When ordinary guide rollers come into contact with irregularly shaped wires, it is difficult to ensure that the force is evenly distributed across the cross-section, which can easily cause the wire to deviate, overturn, or even jam during the conveying process. The guide rollers in traditional conveying devices are mostly single cylindrical structures. When conveying square wires, the contact points between the edges and corners of the wire and the guide rollers are unstable, making it impossible to effectively constrain the wire. This causes the wire to deviate from the predetermined track on the conveying path, affecting the accurate connection of subsequent processing steps.
[0005] To solve the above-mentioned technical problems, the present invention provides the following technical solution: a wire conveying device, comprising a device body, the device body being provided with a connecting mechanism, the connecting mechanism including a connecting component disposed on the top of the device body, a conveying component disposed inside the connecting component, and a cleaning component disposed in the middle section of the connecting component;
[0006] The conveying assembly includes a fixed frame 1, a guide roller 1 rotatably connected to the inner wall of the fixed frame 1, a fixed frame 2 is provided at the top middle section of the device body, a guide roller 2 rotatably connected to the inner side of the fixed frame 2, side frames are fixedly connected to the outer walls on both sides of the fixed frame 2, and rotating guide rollers are rotatably connected to the inner walls on both sides of the side frames.
[0007] A further improvement is that the connecting assembly includes a fixing block one fixedly connected to the top right side of the device body, a receiving plate fixedly installed on the top of the fixing block one via a hinged connecting block one, a connecting frame fixedly connected to the top of the receiving plate, a fixing block two fixedly connected to the top right side of the connecting frame, and an inner frame fixedly installed on the top of the fixing block two via a hinged connecting block two.
[0008] A further improvement is that the cleaning component includes a slide rod, a push rod is connected to the outer end of the slide rod, a sealing gasket is slidably connected to the outer wall of the slide rod, a blower head is connected to the inner side of the slide rod, a vacuum cleaner is provided on the top left side of the device body, and a suction pipe is connected to the top output end of the vacuum cleaner.
[0009] A further improvement is that the first fixing frame is fixedly connected to the bottom of the inner walls on both sides of the inner frame, and the bottom of the second fixing frame is fixedly connected to the bottom of the inner wall of the middle section of the inner frame; the first fixing frame is fixedly connected to the bottom of the inner walls on both sides of the inner frame, and the first guide roller rotatably connected to its inner wall plays a preliminary guiding role for the steel wire, guiding the steel wire into the conveying device; the second fixing frame at the top middle section of the device body is fixedly connected to the bottom of the inner wall of the middle section of the inner frame, and the second guide roller rotatably connected to its inner side further stabilizes the conveying direction of the steel wire.
[0010] A further improvement is that the receiving plate is supported on the top of the device body, the inner frame is slidably connected to the inner wall of the connecting frame, and the inner frame has limit holes equidistantly opened on both sides; it is connected to the receiving plate through a hinged connecting block one, and the receiving plate is supported on the top of the device body to provide support for subsequent components; the connecting frame on the top of the receiving plate, and the fixing block two on the top right side of the connecting frame are connected to the inner frame through the hinged connecting block two, so that the connecting components can be adjusted to a certain angle and position.
[0011] A further improvement is that the slide rod is slidably connected to the inner wall of the front section of the inner frame, the blowing head is set in the inner cavity of the inner frame, the sealing gasket is set at the connection between the slide rod and the inner frame, one end of the suction pipe is connected to the connection between the connecting frame and the inner frame, and the bottom of the vacuum cleaner is fixedly installed on the top of the receiving plate.
[0012] A further improvement is that the rotating guide rollers are equidistantly arranged on the outer side of the side frame; the rotating guide rollers rotatably connected to the inner walls of the two sides of the side frame of the fixed frame are equidistantly arranged on the outer side of the side frame. During the wire conveying process, the rotating guide rollers provide conveying power to the wire through their own rotation. At the same time, the cooperation of multiple rotating guide rollers ensures the stability of the wire during the conveying process and prevents the wire from deviating or tangling.
[0013] By means of the above technical solution, this utility model provides a wire conveying device, which has at least the following beneficial effects:
[0014] 1. The guide roller 1 on the inner wall of the fixed frame 1 and the guide roller 2 on the inner side of the fixed frame 2, through a special contour design, can closely fit the irregular shape of the irregular steel wire, ensuring that the steel wire cross-section is subjected to uniform force during the conveying process, effectively avoiding deviation, overturning and jamming; the rotating guide rollers on the inner walls of both sides of the side frame have their surfaces specially treated according to the shape of the irregular steel wire, which can provide sufficient and uniform friction, so that the irregular steel wire remains stable during movement, greatly improving the conveying efficiency, reducing the risk of equipment failure, and ensuring the precise connection of subsequent processing steps.
[0015] 2. In this utility model's cleaning assembly, the coordinated operation of the slide bar, blowing head, and vacuum cleaner allows for deep cleaning of the grooves and corners of the shaped steel wire, effectively removing dust, metal shavings, and other impurities adsorbed on its complex surface contours. This significantly improves the surface quality of the shaped steel wire and the precision of subsequent processing, while reducing wear on the conveying assembly and extending the equipment's lifespan. The connecting assembly, through the cooperation of components such as the fixing block, hinged connecting block, receiving plate, and connecting frame, allows for flexible adjustment of the connection structure. The inner frame can slide within the connecting frame and has limiting holes on both sides, enabling rapid adjustment of the conveying assembly's layout and angle according to different production scenarios and equipment requirements. This facilitates docking with other equipment, ensuring smooth production process integration and significantly improving the flexibility and efficiency of shaped steel wire processing. Attached Figure Description
[0016] 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.
[0017] In the attached diagram:
[0018] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0019] Figure 2 This is a partial structural diagram of the connecting component of this utility model;
[0020] Figure 3This is a partial structural diagram of the conveying component of this utility model;
[0021] Figure 4 This is a partial structural diagram of the cleaning component of this utility model;
[0022] Figure 5 This is a partially enlarged structural schematic diagram of the present invention.
[0023] In the diagram: 1. Device body; 2. Connecting mechanism; 21. Connecting assembly; 211. Fixing block one; 212. Hinge connecting block one; 213. Support plate; 214. Connecting frame; 215. Fixing block two; 216. Hinge connecting block two; 217. Inner frame; 22. Conveying assembly; 221. Fixing frame one; 222. Guide roller one; 223. Fixing frame two; 224. Guide roller two; 225. Side frame; 226. Rotating guide roller; 23. Cleaning assembly; 231. Slide rod; 232. Push rod; 233. Sealing gasket; 234. Blowing head; 235. Dust suction pipe; 236. Vacuum cleaner. 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.
[0025] Example 1
[0026] Conventional conveying devices typically employ guide structures designed for round steel wires, lacking adaptability to the unique shapes of irregularly shaped wires. Ordinary guide rollers, when in contact with irregularly shaped wires, struggle to ensure uniform stress across their cross-sections, easily leading to wire deviation, overturning, or even jamming during transport. Traditional conveying devices often use single cylindrical guide rollers; when conveying square steel wires, the unstable contact points between the wire's edges and the guide rollers fail to effectively constrain the wire, causing it to deviate from its intended path and affecting the precise alignment of subsequent processing steps. This embodiment provides a wire conveying device; please refer to... Figures 1-5An embodiment provides a wire conveying device, including a device body 1, a connecting mechanism 2, a connecting component 21 disposed on the top of the device body 1, a conveying component 22 disposed inside the connecting component 21, and a cleaning component 23 disposed in the middle section of the connecting component 21; the conveying component 22 includes a first fixed frame 221, a first guide roller 222 rotatably connected to the inner wall of the first fixed frame 221, a second fixed frame 223 disposed in the middle section of the top of the device body 1, a second guide roller 224 rotatably connected to the inner side of the second fixed frame 223, side frames 225 fixedly connected to the outer walls on both sides of the second fixed frame 223, and rotating guide rollers 226 rotatably connected to the inner walls on both sides of the side frames 225.
[0027] In this embodiment, the conveying assembly 22 is responsible for conveying the steel wire; the fixed frame 221 is fixedly connected to the bottom of the inner walls on both sides of the inner frame 217, and the guide roller 222 rotatably connected to its inner wall plays a preliminary guiding role for the steel wire, guiding the steel wire into the conveying device; the fixed frame 223 at the top middle section of the device body 1 is fixedly connected to the bottom of the inner wall in the middle section of the inner frame 217, and the guide roller 224 rotatably connected to its inner side further stabilizes the conveying direction of the steel wire; the side frames 225 on both sides of the outer walls of the fixed frame 223 have rotating guide rollers 226 rotatably connected to their inner walls on both sides, which are equidistantly arranged on the outer side of the side frames 225. During the steel wire conveying process, the rotating guide rollers 226 provide conveying power for the steel wire through their own rotation. At the same time, the cooperation of multiple rotating guide rollers 226 ensures the stability of the steel wire during the conveying process and prevents the steel wire from deviating or tangling.
[0028] Furthermore, the first fixing frame 221 is fixedly connected to the bottom of the inner walls on both sides of the inner frame 217, and the second fixing frame 223 is fixedly connected to the bottom of the inner wall in the middle section of the inner frame 217; the rotating guide rollers 226 are equidistantly arranged on the outside of the side frame 225.
[0029] Furthermore, the fixed frame 223 at the top middle section of the device body 1 is fixedly connected to the bottom of the inner wall of the middle section of the inner frame 217, and the guide roller 224 rotatably connected to its inner side further stabilizes the conveying direction of the steel wire; the side frames 225 on both sides of the fixed frame 223 have rotating guide rollers 226 rotatably connected to their inner walls and are equidistantly arranged on the outer side of the side frames 225. During the steel wire conveying process, the rotating guide rollers 226 provide conveying power for the steel wire through their own rotation.
[0030] Example 2
[0031] Based on Embodiment 1, the connecting component 21 includes a fixing block 211 fixedly connected to the top right side of the device body 1. A receiving plate 213 is fixedly installed on the top of the fixing block 211 via a hinged connecting block 212. A connecting frame 214 is fixedly connected to the top of the receiving plate 213. A fixing block 215 is fixedly connected to the top right side of the connecting frame 214. An inner frame 217 is fixedly installed on the top of the fixing block 215 via a hinged connecting block 216. The cleaning component 23 includes a sliding rod 231. A push rod 232 is connected to the outer end of the sliding rod 231. A sealing gasket 233 is slidably connected to the outer wall of the sliding rod 231. A blowing head 234 is connected to the inner side of the sliding rod 231. A vacuum cleaner 236 is installed on the top left side of the device body 1. A vacuum cleaner tube 235 is connected to the top output end of the vacuum cleaner 236.
[0032] In this embodiment, the device body 1 serves as the basic support structure for the entire conveying device, providing a platform for the installation and operation of other components. The connecting component 21 in the connecting mechanism 2 plays a crucial connecting role. The fixing block 211, which is fixedly connected to the top right side of the device body 1, is connected to the receiving plate 213 via the hinged connecting block 212. The receiving plate 213 rests on the top of the device body 1, providing support for subsequent components. The connecting frame 214 on the top of the receiving plate 213, and the fixing block 215 on the top right side of the connecting frame 214, are connected to the inner frame 217 via the hinged connecting block 216, enabling the connecting component 21 to... It can achieve adjustments at certain angles and positions; the inner frame 217 is slidably connected to the inner wall of the connecting frame 214, and limit holes are equidistantly opened on both sides of the inner frame 217. This design not only facilitates the connection with other equipment, but also allows for flexible adjustment of the relative positions of the connecting frame 214 and the inner frame 217 according to actual needs, so as to adapt to different production scenarios and conveying path requirements; the cleaning component 23 undertakes the important task of cleaning impurities on the surface of the steel wire; the slide rod 231 is slidably connected to the inner wall of the front section of the inner frame 217. The operator can push the push rod 232 to drive the slide rod 231 to slide within the inner frame 217, thereby adjusting the blowing head 2 Position 34 allows it to be aligned with the area on the steel wire surface that needs cleaning; the sealing gasket 233 on the outer wall of the slide rod 231 is set at the connection between the slide rod 231 and the inner frame 217, ensuring the sealing of the slide rod 231 when sliding, preventing dust and impurities from entering the device; the blowing head 234 is set in the inner cavity of the inner frame 217, blowing air onto the surface of the steel wire to blow off dust, debris and other impurities; the blown-off impurities are collected and cleaned by the vacuum cleaner 236, the vacuum cleaner 236 on the top left side of the device body 1, whose top output end is connected to the suction pipe 235, one end of which is connected to the connecting frame 214. At the connection point with the inner frame 217, the suction force generated by the vacuum cleaner 236 draws in impurities through the suction pipe 235, thereby completing the cleaning of impurities on the surface of the steel wire, ensuring the surface quality of the steel wire and the clean operation of the conveying device. Throughout the operation, the connecting component 21 provides a stable and adjustable mounting base for the conveying component 22 and the cleaning component 23. The conveying component 22 ensures that the steel wire can be conveyed smoothly and stably, while the cleaning component 23 cleans impurities on the surface of the steel wire in a timely manner. The three work together to enable the steel wire conveying device to operate efficiently and stably, meeting the needs of steel wire conveying and cleaning in industrial production.
[0033] Furthermore, the receiving plate 213 is supported on the top of the device body 1, the inner frame 217 is slidably connected to the inner wall of the connecting frame 214, and the inner frame 217 has limit holes equidistantly opened on both sides of the inner wall; the slide rod 231 is slidably connected to the inner wall of the front section of the inner frame 217, the blowing head 234 is set in the inner cavity of the inner frame 217, the sealing gasket 233 is set at the connection between the slide rod 231 and the inner frame 217, the top end of the suction pipe 235 is connected to the connection between the connecting frame 214 and the inner frame 217, and the bottom of the vacuum cleaner 236 is fixedly installed on the top of the receiving plate 213.
[0034] Furthermore, the blowing head 234 is located inside the inner cavity of the inner frame 217. By blowing air onto the surface of the steel wire, it blows off dust, debris, and other impurities. The blown-off impurities are collected and cleaned by the vacuum cleaner 236. The vacuum cleaner 236, located on the top left side of the device body 1, has a suction pipe 235 connected to its top output end. One end of the suction pipe is connected to the connection between the connecting frame 214 and the inner frame 217. The suction force generated by the vacuum cleaner 236 draws the impurities in through the suction pipe 235, thereby completing the cleaning of impurities on the surface of the steel wire and ensuring the surface quality of the steel wire and the clean operation of the conveying device.
[0035] Working principle: The main body 1 serves as the basic support structure of the entire conveying device, providing a platform for the installation and operation of other components; the connecting component 21 in the connecting mechanism 2 plays a key connecting role; the fixing block 211, which is fixedly connected to the top right side of the main body 1, is connected to the receiving plate 213 through the hinged connecting block 212. The receiving plate 213 supports the top of the main body 1, providing support for subsequent components; the connecting frame 214 on the top of the receiving plate 213, and the fixing block 215 on the top right side of the connecting frame 214, are connected to the inner frame 217 through the hinged connecting block 216, allowing the connecting component 21 to be adjusted in a certain angle and position; the inner frame 217 is slidably connected to the inner wall of the connecting frame 214, and the inner frame 217 has equidistant limit holes on both sides. This design not only facilitates the connection with other equipment, but also allows for flexible adjustment of the relative position of the connecting frame 214 and the inner frame 217 according to actual needs, in order to adapt to different production scenarios and conveying path requirements;
[0036] The conveying assembly 22 is responsible for conveying the steel wire; the fixed frame 221 is fixedly connected to the bottom of the inner wall on both sides of the inner frame 217, and the guide roller 222 rotatably connected to its inner wall plays a preliminary guiding role for the steel wire, guiding the steel wire into the conveying device; the fixed frame 223 at the top middle section of the device body 1 is fixedly connected to the bottom of the inner wall in the middle section of the inner frame 217, and the guide roller 224 rotatably connected to its inner side further stabilizes the conveying direction of the steel wire; the side frames 225 on both sides of the outer wall of the fixed frame 223 have rotating guide rollers 226 rotatably connected to their inner walls on both sides, which are equidistantly arranged on the outer side of the side frames 225. During the steel wire conveying process, the rotating guide rollers 226 provide conveying power for the steel wire through their own rotation. At the same time, the cooperation of multiple rotating guide rollers 226 ensures the stability of the steel wire during the conveying process and prevents the steel wire from deviating or tangling;
[0037] The cleaning component 23 is responsible for cleaning impurities from the surface of the steel wire. The slide rod 231 is slidably connected to the inner wall of the front section of the inner frame 217. The operator can push the push rod 232 to move the slide rod 231 within the inner frame 217, thereby adjusting the position of the blowing head 234 so that it is aligned with the area on the steel wire surface that needs cleaning. A sealing gasket 233 on the outer wall of the slide rod 231 is located at the connection between the slide rod 231 and the inner frame 217, ensuring a tight seal during the sliding of the slide rod 231 and preventing dust and impurities from entering the device. The blowing head 234 is... Inside the inner frame 217, air is blown onto the surface of the steel wire to remove dust, debris, and other impurities. The blown-off impurities are collected and cleaned by the vacuum cleaner 236. The vacuum cleaner 236 is located on the top left side of the device body 1. Its top output end is connected to the suction pipe 235, and one end of the top end is connected to the connection between the connecting frame 214 and the inner frame 217. The suction force generated by the vacuum cleaner 236 draws the impurities in through the suction pipe 235, thereby completing the cleaning of impurities on the surface of the steel wire and ensuring the surface quality of the steel wire and the clean operation of the conveying device.
[0038] Throughout the operation, the connecting component 21 provides a stable and adjustable mounting base for the conveying component 22 and the cleaning component 23. The conveying component 22 ensures that the steel wire can be conveyed smoothly and stably, while the cleaning component 23 cleans impurities from the surface of the steel wire in a timely manner. The three components work together to enable the steel wire conveying device to operate efficiently and stably, meeting the needs of steel wire conveying and cleaning in industrial production.
[0039] 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.
[0040] 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 conveying device for steel wires, comprising a device body (1), characterized in that: The device body (1) is provided with a connecting mechanism (2), the connecting mechanism (2) includes a connecting component (21) provided on the top of the device body (1), a conveying component (22) is provided inside the connecting component (21), and a cleaning component (23) is provided in the middle section of the connecting component (21). The conveying assembly (22) includes a first fixed frame (221), a first guide roller (222) is rotatably connected to the inner wall of the first fixed frame (221), a second fixed frame (223) is provided in the middle of the top of the device body (1), a second guide roller (224) is rotatably connected to the inner side of the second fixed frame (223), a side frame (225) is fixedly connected to the outer walls on both sides of the second fixed frame (223), and a rotating guide roller (226) is rotatably connected to the inner walls on both sides of the side frame (225).
2. The conveying device for steel wires according to claim 1, characterized in that: The connecting assembly (21) includes a fixing block 1 (211) fixedly connected to the top right side of the device body (1). A receiving plate (213) is fixedly installed on the top of the fixing block 1 (211) via a hinged connecting block 1 (212). A connecting frame (214) is fixedly connected to the top of the receiving plate (213). A fixing block 2 (215) is fixedly connected to the top right side of the connecting frame (214). An inner frame (217) is fixedly installed on the top of the fixing block 2 (215) via a hinged connecting block 2 (216).
3. The conveying device for steel wire according to claim 1, characterized in that: The cleaning component (23) includes a slide rod (231), a push rod (232) is connected to the outer end of the slide rod (231), a sealing gasket (233) is slidably connected to the outer wall of the slide rod (231), a blower head (234) is connected to the inner side of the slide rod (231), a vacuum cleaner (236) is provided on the top left side of the device body (1), and a vacuum tube (235) is connected to the top output end of the vacuum cleaner (236).
4. The delivery device of claim 1, wherein: The first fixing bracket (221) is fixedly connected to the bottom of the inner walls on both sides of the inner frame (217), and the second fixing bracket (223) is fixedly connected to the bottom of the inner wall in the middle section of the inner frame (217).
5. The delivery device of claim 2, wherein: The receiving plate (213) is supported on the top of the device body (1), the inner frame (217) is slidably connected to the inner wall of the connecting frame (214), and the inner frame (217) has limit holes equidistantly opened on both sides of the inner frame (217).
6. The delivery device of claim 3, wherein: The slide rod (231) is slidably connected to the inner wall of the front section of the inner frame (217), the blowing head (234) is set in the inner cavity of the inner frame (217), the sealing gasket (233) is set at the connection between the slide rod (231) and the inner frame (217), one end of the top of the suction pipe (235) is connected to the connection between the connecting frame (214) and the inner frame (217), and the bottom of the vacuum cleaner (236) is fixedly installed on the top of the receiving plate (213).
7. The delivery device of claim 1, wherein: The rotating guide rollers (226) are equidistantly arranged on the outside of the side frame (225).