A high-efficiency six-roller wire guide machine optimization device
By introducing a limiting mechanism into the yarn guide, the problems of non-adjustable rotating roller length and insufficient limiting are solved, achieving effective yarn limiting and flexible adjustment, improving the yarn guiding effect and the ease of use of the device.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- QINGYUAN PENGSHUN FIBER TECH CO LTD
- Filing Date
- 2025-08-30
- Publication Date
- 2026-06-26
AI Technical Summary
In existing fiber guiding machines, the rotating rollers cannot be adjusted in length according to the placement position, which makes installation inconvenient. Furthermore, the lack of a limiting mechanism affects the spreading effect of the fiber bundles and the guiding effect.
A high-efficiency six-roller wire guide machine was designed, including a base, a guide roller, and a limiting mechanism. The limiting mechanism consists of a threaded rod, a nut, a limiting plate, a worm gear, a worm, and a protective plate. Through the cooperation of these components, the wire is limited and adjusted, avoiding wire stacking and improving the wire guiding effect.
It effectively limits the movement of the wires, prevents stacking, improves the wire guiding effect, and allows the spacing of the limiting plates to be adjusted according to needs, increasing the flexibility and convenience of the device.
Smart Images

Figure CN224411083U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of chemical fiber production equipment technology, and in particular to an optimized device for a high-efficiency six-roller guide machine. Background Technology
[0002] The full name of chemical fiber is chemical fiber, which refers to fiber made from natural or artificially synthesized polymers. Depending on the source of the raw materials, it can be divided into man-made fibers made from natural polymers and synthetic fibers made from synthetic polymers. The preparation of chemical fibers usually involves first making natural or synthetic polymers or inorganic substances into spinning melts or solutions, then filtering and metering them, and extruding them into liquid fine streams through a spinneret (plate), which are then solidified into fibers. This six-roller guide machine is one of the short fiber post-processing equipment, mainly suitable for various short fibers. After the fiber bundles from the bundler are sorted by the guide rollers, they are sent to the next process.
[0003] In existing technologies, yarn guiding machines consist of large mechanical components, and most of the rotating rollers used for yarn guiding are stationary on one side, making it impossible to adjust the length of the rotating rollers according to the placement position for ease of installation and use. To address this issue, application number 202123353588.3 discloses a six-roller yarn guiding machine for processing, which includes a base and a movable cover. The movable cover is located at the outer end of the central base, and a fixed groove is provided on the side of the base. The bottom end of the movable cover is connected to the fixed groove via a fixed slider. A bidirectional push rod is provided between the fixed sliders to push the movable cover to move left and right, thereby driving the rotating rollers to move left and right to adjust their size. Then, a fan operates to draw lint from inside the movable cover into a filter bag for collection through a suction pipe. This solves the problem that existing yarn guiding machines consist of large mechanical components, and most of the rotating rollers used for yarn guiding are stationary on one side, making it impossible to adjust the length of the rotating rollers according to the placement position for ease of installation and use. Furthermore, the yarn guiding machine easily generates fine lint during operation, which can easily affect the safety and health of employees over time.
[0004] However, a thorough reading of the aforementioned patent documents reveals the following drawbacks: the lack of a mechanism to limit the yarn results in the inability to properly spread out the entire fiber bundle, thereby affecting the overall yarn guiding effect of the device, leaving room for improvement.
[0005] Therefore, this application proposes an optimized device for a high-efficiency six-roller yarn guide to solve the above problems. Utility Model Content
[0006] The purpose of this invention is to address the shortcomings of existing technologies by proposing an optimized device for a high-efficiency six-roller guide machine.
[0007] To achieve the above objectives, the present invention adopts the following technical solution:
[0008] An optimized device for a high-efficiency six-roller yarn guide machine includes a base, guide rollers, and a limiting mechanism;
[0009] Six guide rollers are rotatably mounted on the base, and a limiting mechanism for limiting the yarn is mounted on the base. The limiting mechanism is connected to one of the six guide rollers.
[0010] The limiting mechanism includes a threaded rod, a nut, a limiting plate, a ring plate, a worm gear, a worm, and a protective plate. A threaded rod is rotatably connected to the base, and multiple nuts are threaded onto the threaded rod. Each of the multiple nuts is rotatably fitted with a limiting plate. One end of each limiting plate is in contact with one of the six guide rollers. Through the coordinated design of the six guide rollers, the base, the threaded rod, the protective plate, and the limiting plates, the mechanism effectively limits the movement of the wires, preventing wire stacking and improving the guiding effect. Furthermore, the coordinated design of the threaded rod, nut, ring plate, worm gear, worm, and protective plate allows for appropriate adjustment of the spacing between the multiple limiting plates according to user needs, and enables simultaneous movement and adjustment of the multiple limiting plates, greatly enhancing flexibility.
[0011] Specifically, one end of each of the multiple nuts is welded with a ring plate, and multiple protrusions are welded to the outer side of the multiple ring plates. The purpose of the multiple protrusions is to facilitate the rotation of the nuts by the operator.
[0012] Specifically, a protective plate is fixedly installed on the base, and the protective plate is slidably connected to multiple limiting plates, serving as a protective and guiding function.
[0013] Specifically, one end of the threaded rod passes through the base and is fixedly connected to a worm gear. A worm is meshed with the worm gear, and both ends of the worm are rotatably connected to fixed blocks. Both fixed blocks are fixedly connected to the base. The worm gear and the worm have a self-locking characteristic, which achieves the effect of limiting the threaded rod and also enables the threaded rod to be rotated.
[0014] Specifically, a rotating plate is fixedly connected to one end of the worm gear, making it easy for the operator to rotate the worm gear.
[0015] Specifically, each of the multiple limiting plates has a slot, and each of the multiple slots is adapted to the protective plate, which facilitates the connection between the multiple limiting plates and the protective plate.
[0016] Specifically, a transmission box is provided at one end of the base, and the transmission box is sleeved on one end of the six guide rollers. The six guide rollers are linked by a sprocket and a chain. An electric motor is installed at one end of the transmission box, and the output end of the electric motor is fixedly connected to one end of one of the six guide rollers. The six guide rollers can be rotated by the electric motor and the transmission between the sprocket and the chain.
[0017] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0018] This utility model discloses an optimized device for a high-efficiency six-roller yarn guide machine. Through the coordinated design of the six guide rollers, base, threaded rod, protective plate, and limiting plate, it can achieve the effect of limiting the yarns, avoiding yarn stacking, and thus improving the yarn guiding effect.
[0019] This utility model discloses an optimized device for a high-efficiency six-roller yarn guide machine. Through the cooperative design between the threaded rod, nut, ring plate, worm gear, worm, and protective plate, it can not only adjust the spacing between multiple limiting plates according to user needs, but also achieve the effect of synchronously moving and adjusting multiple limiting plates, greatly improving flexibility. Attached Figure Description
[0020] To more clearly illustrate the embodiments of this utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings in the following description are merely exemplary. The structures, proportions, sizes, etc., shown in this specification are only used to complement the content disclosed in the specification for those skilled in the art to understand and read, and are not intended to limit the conditions under which this utility model can be implemented. Therefore, they have no substantial technical significance, and any modification of the structure, change of the proportional relationship, or adjustment of the size is not permitted.
[0021] Figure 1 This is a three-dimensional structural diagram of an optimized device for a high-efficiency six-roller yarn guide proposed in this utility model;
[0022] Figure 2 This is a rear view structural schematic diagram of an optimized device for a high-efficiency six-roller yarn guide proposed in this utility model;
[0023] Figure 3 This is a schematic diagram of the limiting mechanism structure of an optimized device for a high-efficiency six-roller guide machine proposed in this utility model;
[0024] Figure 4 This is an exploded structural diagram of the threaded rod, nut, limiting plate, and ring plate.
[0025] In the diagram: 1. Base; 2. Guide roller; 3. Limiting mechanism; 4. Transmission box; 5. Motor; 6. Rotating plate; 7. Slot; 31. Threaded rod; 32. Nut; 33. Limiting plate; 34. Ring plate; 35. Worm gear; 36. Worm; 37. Protective plate. Detailed Implementation
[0026] The following specific embodiments illustrate the implementation of this utility model. Those skilled in the art can easily understand other advantages and effects of this utility model from the content disclosed in this specification. Obviously, the described embodiments are only some, not all, of the embodiments of this utility model. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of this utility model.
[0027] Reference Figures 1-4 An optimized device for a high-efficiency six-roller guide machine includes a base 1, a guide roller 2, and a limiting mechanism 3;
[0028] Six guide rollers 2 are rotatably mounted on the base 1. A limiting mechanism 3 for limiting the wire is mounted on the base 1. The limiting mechanism 3 is connected to one of the six guide rollers 2.
[0029] The limiting mechanism 3 includes a threaded rod 31, nuts 32, limiting plates 33, ring plates 34, worm gears 35, worms 36, and protective plates 37. A threaded rod 31 is rotatably connected to the base 1. A bearing 2 is fixedly sleeved on the threaded rod 31, and the outer wall of the bearing 2 is fixedly connected to the base 1. Multiple nuts 32 are threadedly connected to the threaded rod 31. Each of the multiple nuts 32 has a limiting plate 33 rotatably sleeved on it, and each of the multiple nuts 32 has a bearing 1 fixedly sleeved on it. The outer walls of the multiple bearing 1 are respectively fixedly connected to the multiple limiting plates 33. One end of each of the multiple limiting plates 33 is respectively connected to one of the six guide rollers 2. The six guide rollers 2 are connected in contact. Through the cooperative design between the six guide rollers 2, the base 1, the threaded rod 31, the protective plate 37, and the limiting plate 33, the wires can be limited to avoid stacking and thus improve the guiding effect. Through the cooperative design between the threaded rod 31, the nut 32, the ring plate 34, the worm gear 35, the worm 36, and the protective plate 37, the spacing between the multiple limiting plates 33 can be adjusted according to the user's needs, and the simultaneous movement and adjustment of the multiple limiting plates 33 can be achieved, greatly improving flexibility.
[0030] In this method, a ring plate 34 is welded to one end of each of the multiple nuts 32, and multiple protrusions are welded to the outer side of the multiple ring plates 34. The purpose of the multiple protrusions is to facilitate the rotation of the nuts 32 by the operator.
[0031] In this method, a protective plate 37 is fixedly installed on the base 1. The protective plate 37 is slidably connected to multiple limiting plates 33, which serve as protection and guidance. One end of each of the multiple limiting plates 33 is adapted to the guide roller 2.
[0032] In this method, one end of the threaded rod 31 passes through the base 1 and is fixedly connected to a worm gear 35. A worm 36 is meshed on the worm gear 35. Both ends of the worm 36 are rotatably connected to fixed blocks. Both fixed blocks are fixedly connected to the base 1. By utilizing the self-locking characteristic between the worm gear 35 and the worm 36, the threaded rod 31 can be limited, and the threaded rod 31 can also be rotated.
[0033] In this configuration, a rotating plate 6 is fixedly connected to one end of the worm gear 36, making it easy for the operator to rotate the worm gear 36.
[0034] In this method, each of the multiple limiting plates 33 has a slot 7, and each of the multiple slots 7 is adapted to the protective plate 37, which facilitates the connection between the multiple limiting plates 33 and the protective plate 37.
[0035] In this method, a transmission box 4 is provided at one end of the base 1. The transmission box 4 is sleeved on one end of the six guide rollers 2. The six guide rollers 2 are linked by a sprocket and a chain. A motor 5 is installed at one end of the transmission box 4. The output end of the motor 5 is fixedly connected to one end of one of the six guide rollers 2. The six guide rollers 2 can be rotated by the drive of the motor 5 and the transmission between the sprocket and the chain.
[0036] Working principle: In use, firstly, the wires are installed sequentially on six guide rollers 2, and at the same time, multiple limiting plates 33 are installed sequentially on the threaded rod 31 and the protective plate 37, so that the multiple limiting plates 33 and the wires are arranged in an alternating manner. Then, through the cooperation between the multiple limiting plates 33 and the corresponding guide rollers 2, the wires can be limited, avoiding wire stacking and greatly improving the wire guiding effect.
[0037] When installing the limiting plate 33, first align the nut 32 with the threaded rod 31, and at the same time insert one end of the protective plate 37 into the slot 7 on the limiting plate 33. Then, the ring plate 34 rotates the nut 32, so that the nut 32 and the threaded rod 31 are threadedly driven, thereby causing the nut 32 to drive the limiting plate 33 to move horizontally, thus achieving the effect of quickly installing the limiting plate 33.
[0038] At the same time, it can also achieve the effect of adjusting the spacing between multiple limit plates 33 according to the user's needs, thus improving flexibility;
[0039] Then, by rotating the rotating plate 6, the worm 36 rotates and drives the worm wheel 35, which in turn drives the threaded rod 31 to rotate on the base 1. This allows the threaded rod 31 to synchronously drive the multiple nuts 32, thereby achieving the effect of synchronously adjusting the horizontal movement of the multiple limit plates 33 and improving convenience.
[0040] The technological advancements of this invention compared to existing technologies are as follows: through the cooperation of various components, not only can the stacking of threads be avoided and the guiding effect be improved, but the spacing between multiple limiting plates 33 can also be appropriately adjusted according to the user's needs. At the same time, the simultaneous movement and adjustment of multiple limiting plates 33 can be achieved, greatly improving flexibility. Moreover, the structure is simple and the practicality is higher.
Claims
1. A high efficiency six roll godet machine optimization device, characterized by, It includes a base (1), a guide roller (2), and a limiting mechanism (3); Six guide rollers (2) are rotatably mounted on the base (1), and a limiting mechanism (3) for limiting the wire is mounted on the base (1). The limiting mechanism (3) is connected to one of the six guide rollers (2). The limiting mechanism (3) includes a threaded rod (31), a nut (32), a limiting plate (33), a ring plate (34), a worm gear (35), a worm (36), and a protective plate (37). The threaded rod (31) is rotatably connected to the base (1). Multiple nuts (32) are threadedly connected to the threaded rod (31). Each of the multiple nuts (32) is rotatably fitted with a limiting plate (33). One end of each of the multiple limiting plates (33) is in contact with one of the six guide rollers (2).
2. The high efficiency six roll godet machine optimization apparatus of claim 1, wherein, One end of each of the plurality of nuts (32) is welded with a ring plate (34), and a plurality of protrusions are welded to the outer side of the plurality of ring plates (34).
3. The high efficiency six roll godet machine optimization apparatus of claim 1, wherein, A protective plate (37) is fixedly installed on the base (1), and the protective plate (37) is slidably connected to the plurality of limiting plates (33).
4. The high-efficiency six-roller guide machine optimization device according to claim 1, characterized in that, One end of the threaded rod (31) passes through the base (1) and is fixedly connected to a worm gear (35), and a worm (36) is meshed on the worm gear (35).
5. The high-efficiency six-roller guide machine optimization device according to claim 4, characterized in that, Both ends of the worm (36) are rotatably connected to fixed blocks, and both fixed blocks are fixedly connected to the base (1).
6. The high-efficiency six-roller guide machine optimization device according to claim 5, characterized in that, One end of the worm (36) is fixedly connected to a rotating plate (6).
7. The high-efficiency six-roller guide machine optimization device according to claim 3, characterized in that, Each of the limiting plates (33) has a slot (7) provided, and each of the slots (7) is adapted to the protective plate (37).
8. The high-efficiency six-roller guide machine optimization device according to claim 1, characterized in that, One end of the base (1) is provided with a transmission box (4), which is sleeved on one end of the six guide rollers (2). The six guide rollers (2) are linked by a sprocket and a chain. One end of the transmission box (4) is equipped with a motor (5), and the output end of the motor (5) is fixedly connected to one end of one of the six guide rollers (2).