A yarn production guide mechanism

By designing a combination of guide components and auxiliary roller components, and utilizing a combination structure of stabilizing rods and limiting rollers, the problem of yarn damage during transmission was solved, achieving stable yarn transmission and flexible adjustment.

CN224467247UActive Publication Date: 2026-07-07沪本新材料科技(上海)有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
沪本新材料科技(上海)有限公司
Filing Date
2025-07-18
Publication Date
2026-07-07

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Abstract

The utility model discloses a kind of guiding mechanism for yarn production, it is related to yarn production technical field, including guiding member and auxiliary roller component, the upper level of guiding member is erected with auxiliary roller component, and the both ends of auxiliary roller component and guiding member are vertically installed with combined column component, and the bottom of combined column component is connected and installed with adjusting frame component.The guiding mechanism for yarn production, by the upper level of guiding member is erected with auxiliary roller component, the structure of using it can not affect the operation of guiding member, can possibly avoid yarn transmission in the process from the middle of guide wheel, to this play the role of structure stable and limit, in addition by the bottom of combined column component is installed with adjusting frame component, the structure of using it, the guiding member, auxiliary roller component connected combination using combined column component can be made within certain height certain inclination Different adjustment, to improve device structure flexibility.
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Description

Technical Field

[0001] This utility model relates to the field of yarn production technology, specifically a guiding mechanism for yarn production. Background Technology

[0002] Yarn is a type of textile product made from various textile fibers processed into a certain fineness. It is used for weaving, rope making, thread making, knitting, and embroidery, and is divided into short fiber yarn and continuous filament yarn. Yarn production is the process of processing textile fibers into long and thin products through specific processes, and it is widely used in weaving, rope making, knitting and other fields.

[0003] Conventional guiding mechanisms directly adhere to the surface of the guide rollers when transporting yarn, lacking structural shielding. This makes it easy for problems to occur during the transport of multi-strand yarns, resulting in yarn damage. Utility Model Content

[0004] The purpose of this invention is to provide a guiding mechanism for yarn production to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a guiding mechanism for yarn production, comprising a guiding component and an auxiliary roller component. The auxiliary roller component is horizontally mounted above the guiding component, and both ends of the auxiliary roller component and the guiding component are vertically mounted with combined column components. An adjusting frame component is connected and mounted at the bottom of the combined column component. The auxiliary roller component includes a stabilizing rod, a damping sleeve, a limiting roller, a bearing seat component, and an adjusting post. The surface of the stabilizing rod is fitted with a damping sleeve, and the outer surface of the damping sleeve is connected with a limiting roller. Both ends of the stabilizing rod are connected with bearing seat components, and an adjusting post is mounted on the side of the bearing seat component away from the stabilizing rod.

[0006] Furthermore, the guide component includes an assembly screw, a guide wheel, a fixing nut, and a connecting post. The surface of the assembly screw is equipped with a guide wheel, and fixing nuts are provided on both sides of the guide wheel. Connecting posts are installed at both ends of the assembly screw.

[0007] Furthermore, the two ends of the assembly screw are fixed to the connecting pile by threaded connection, and the guide wheel is installed on the middle section surface of the assembly screw by bearing structure sleeve. The guide wheels are evenly arranged on the surface of the assembly screw, and the fixing nut and the assembly screw are threadedly connected.

[0008] Furthermore, both ends of the stabilizer bar are connected to the axis of the bearing seat component via threaded structures, and the damping sleeve is tightly fitted to the surface of the stabilizer bar. Moreover, the damping sleeve and the limiting roller are fixedly connected, and the adjusting pile and the bearing seat component are connected by a detachable structure.

[0009] Furthermore, the combined column component includes a combined screw, a fixed seat, and a connecting seat. The bottom of the combined screw is connected to the fixed seat, and the bottom surface of the fixed seat is provided with a connecting seat.

[0010] Furthermore, both the adjusting pile and the connecting pile adopt a threaded structure and are connected to each other with a combined screw rod. The combined screw rod is connected to the fixed seat through a bearing structure, and the fixed seat and the connecting seat are an integral structure.

[0011] Furthermore, the adjustment structure includes a hydraulic rod, a first joint, a combination seat, a second joint, and a grounding seat. The top end of the hydraulic rod is connected to the first joint, and the end of the first joint away from the hydraulic rod is connected to the combination seat. The end of the hydraulic rod away from the first joint is connected to the second joint, and the end of the second joint away from the hydraulic rod is equipped with a grounding seat.

[0012] Furthermore, the end of the combined seat away from the first joint is movably installed at the bottom of the connecting seat, and the grounding seat has holes for bolt installation at each of the four opposite corners.

[0013] This utility model provides a guiding mechanism for yarn production, which has the following advantages:

[0014] 1. This utility model, by providing an auxiliary roller component, wherein the stabilizing rod is connected to the adjusting pile via a bearing seat component, and utilizes the structural characteristics of the bearing seat component to achieve axial rotation in the horizontal direction, thereby driving the limiting roller, which is mounted on the surface of the stabilizing rod via a damping sleeve, to rotate synchronously. Simultaneously, the limiting roller abuts against the surface of the guide wheel, preventing unnecessary structural deviation and slippage of the yarn passing over the guide wheel surface. This structural design maximizes the stability of the yarn during transport, preventing external factors from affecting the yarn and thus ensuring the safety of yarn transport. Furthermore, since the limiting roller is movably connected to the stabilizing rod via the damping sleeve, and the limiting roller is movably mounted on the assembly screw via a fixing nut, this structural design allows for adjustment of the number of limiting rollers and guide wheels within a certain range as needed to meet different usage requirements and ensure the flexibility of the device.

[0015] 2. This utility model, by installing an adjusting frame component at the bottom of the combined column component, utilizes the structural mobility of the first and second joint components to enable the entire adjusting frame component to have a two-stage structural bending adjustment capability, and can be flexibly adjusted within a certain angle range. The hydraulic rod can achieve axial extension and retraction adjustment within a certain range. With the use of the above structure, the guide component and auxiliary roller component connected by the combined column component can be flexibly adjusted at different heights and different structural inclination angles within a certain range, thereby meeting different structural setting needs, while also achieving a structural tensioning effect, thus ensuring the stability of yarn conveying, and effectively ensuring the structural flexibility of the entire device. Attached Figure Description

[0016] Figure 1 This is a side view of the main body of a guide mechanism for yarn production according to the present invention.

[0017] Figure 2 This is a schematic diagram of the guide component structure of a guide mechanism for yarn production according to this utility model;

[0018] Figure 3 This is a three-dimensional structural diagram of an auxiliary roller component of a guiding mechanism for yarn production according to this utility model.

[0019] Figure 4 This is a three-dimensional structural diagram of a combined column component of a guiding mechanism for yarn production according to this utility model;

[0020] Figure 5 This is a three-dimensional structural diagram of the adjusting frame component of a guiding mechanism for yarn production according to this utility model.

[0021] In the diagram: 1. Guide component; 101. Assembly screw; 102. Guide wheel; 103. Fixing nut; 104. Connecting pile; 2. Auxiliary roller component; 201. Stabilizing rod; 202. Damping sleeve; 203. Limiting roller; 204. Bearing seat component; 205. Adjusting pile; 3. Combined column component; 301. Combined screw; 302. Fixing seat; 303. Connecting seat; 4. Adjusting frame component; 401. Hydraulic rod; 402. First joint component; 403. Combined seat; 404. Second joint component; 405. Grounding seat. Detailed Implementation

[0022] The embodiments of this utility model will be described in further detail below with reference to the accompanying drawings and examples. The following examples are for illustrative purposes only and should not be construed as limiting the scope of this utility model.

[0023] like Figures 1 to 5As shown, a guiding mechanism for yarn production includes a guiding component 1 and an auxiliary roller component 2. The auxiliary roller component 2 is horizontally mounted above the guiding component 1, and combined column components 3 are vertically mounted at both ends of the auxiliary roller component 2 and the guiding component 1. An adjusting frame component 4 is connected and mounted at the bottom of the combined column component 3. The auxiliary roller component 2 includes a stabilizing rod 201, a damping sleeve 202, a limiting roller 203, a bearing seat component 204, and an adjusting post 205. The damping sleeve 202 is sleeved on the surface of the stabilizing rod 201, and the damping sleeve 202... The outer surface is connected to a limiting roller 203. Both ends of the stabilizer bar 201 are connected to bearing housing components 204, and an adjusting post 205 is installed on the side of the bearing housing component 204 away from the stabilizer bar 201. The guide component 1 includes an assembly screw 101, a guide wheel 102, a fixing nut 103, and a connecting post 104. The surface of the assembly screw 101 is equipped with the guide wheel 102, and fixing nuts 103 are provided on both sides of the guide wheel 102. Both ends of the assembly screw 101 are connected to and installed with connecting posts 104. The two ends of the assembly screw 101 are connected by threads. The connecting and connecting piles 104 are combined and fixed, and the guide wheels 102 are installed on the middle section surface of the assembly screw 101 through a bearing structure sleeve. The guide wheels 102 are equidistantly arranged on the surface of the assembly screw 101, and the fixing nut 103 and the assembly screw 101 are threadedly connected. Both ends of the stabilizer bar 201 are connected to the axis of the bearing seat component 204 through a threaded structure. The damping sleeve 202 is tightly fitted to the surface of the stabilizer bar 201, and the damping sleeve 202 and the limiting roller 203 are fixedly connected. The adjusting pile 20... The stabilizer bar 201 and the bearing housing component 204 are connected by a detachable structure. The stabilizer bar 201 is connected to the bearing housing component 204 connected to the adjusting pile 205. The axial rotation in the horizontal direction is achieved by utilizing the structural characteristics of the bearing housing component 204. This drives the limiting roller 203, which is mounted on the surface of the stabilizer bar 201 by the damping sleeve 202, to rotate synchronously. At the same time, the limiting roller 203 is pressed against the surface of the guide wheel 102, so that the yarn passing through the surface of the guide wheel 102 avoids unnecessary structural displacement and slippage.

[0024] like Figures 1 to 5As shown, the combined column component 3 includes a combined screw 301, a fixed seat 302, and a connecting seat 303. The bottom of the combined screw 301 is connected to the fixed seat 302, and the bottom surface of the fixed seat 302 is provided with the connecting seat 303. The adjusting pile 205 and the connecting pile 104 are both connected to the combined screw 301 by a threaded structure. The combined screw 301 is connected to the fixed seat 302 by a bearing structure. The fixed seat 302 and the connecting seat 303 are integral structures. The adjusting frame component 4 includes a hydraulic rod 401, a first joint 402, a combined seat 403, a second joint 404, and a grounding seat 405. The top of the hydraulic rod 401 is connected to the first joint 402, and the first joint 402 is located away from the grounding seat. One end of the hydraulic rod 401 is connected to a combination seat 403, and the end of the hydraulic rod 401 away from the first joint member 402 is connected to a second joint member 404. The end of the second joint member 404 away from the hydraulic rod 401 is equipped with a grounding seat 405. The end of the combination seat 403 away from the first joint member 402 is movably installed at the bottom of the connecting seat 303. The grounding seat 405 has holes for bolt installation at its four opposite corners. The structural mobility of the first joint member 402 and the second joint member 404 enables the entire adjusting frame component 4 to have a two-stage structural bending adjustment capability and to be flexibly adjusted within a certain angle range. The hydraulic rod 401 can achieve axial extension and retraction adjustment within a certain range.

[0025] In summary, as Figures 1 to 5 As shown, the guiding mechanism for yarn production, when in use, firstly connects the entire combined column component 3 with the threaded connection between the combined screw 301 and the connecting pile 104 to realize the structural combination of the guiding component 1 and the combined column component 3. At the same time, the upper end of the combined screw 301 is connected with the threaded connection between it and the adjusting pile 205 to quickly combine and connect the auxiliary roller component 2 and the combined column component 3, and the limiting roller 203 is pressed against the upper surface of the guide wheel 102.

[0026] If the adjustment frame component 4 is to be used, the second joint component 404 is connected and installed to the bottom of the connecting seat 303 using bolts. At the same time, the grounding seat 405 is fixed to the ground using bolts. Then, the first joint component 402 and the second joint component 404 are used to adjust the entire device to a suitable tilt angle. At the same time, with the structural extension and retraction of the hydraulic rod 401, the entire guide component 1 and auxiliary roller component 2 are adjusted to maintain a suitable positional distance from the upstream equipment. When the yarn passes between the guide wheel 102 and the limiting roller 203, sufficient conveying stability can be ensured.

[0027] The embodiments of this utility model are given for illustrative and descriptive purposes only, and are not intended to be exhaustive or to limit the utility model to the forms disclosed. Many modifications and variations will be apparent to those skilled in the art. The embodiments were chosen and described in order to better illustrate the principles and practical applications of this utility model, and to enable those skilled in the art to understand this utility model and design various embodiments with various modifications suitable for a particular purpose.

Claims

1. A guiding mechanism for yarn production, comprising a guiding component (1) and an auxiliary roller component (2), characterized in that: An auxiliary roller component (2) is horizontally mounted above the guide component (1), and a combined column component (3) is vertically mounted at both ends of the auxiliary roller component (2) and the guide component (1). An adjustment frame component (4) is connected to the bottom of the combined column component (3). The auxiliary roller component (2) includes a stabilizer (201), a damping sleeve (202), a limiting roller (203), a bearing seat component (204), and an adjustment pile (205). The surface of the stabilizer (201) is fitted with a damping sleeve (202), and the outer surface of the damping sleeve (202) is connected to a limiting roller (203). Both ends of the stabilizer (201) are connected to a bearing seat component (204), and an adjustment pile (205) is installed on the side of the bearing seat component (204) away from the stabilizer (201).

2. The guiding mechanism for yarn production according to claim 1, characterized in that, The guide component (1) includes an assembly screw (101), a guide wheel (102), a fixing nut (103), and a connecting post (104). The surface of the assembly screw (101) is equipped with a guide wheel (102), and a fixing nut (103) is provided on both sides of the guide wheel (102). The two ends of the assembly screw (101) are connected and installed with connecting posts (104).

3. The guiding mechanism for yarn production according to claim 2, characterized in that, The two ends of the assembly screw (101) are fixed to the connecting pile (104) by threaded connection, and the guide wheel (102) is installed on the middle section surface of the assembly screw (101) by bearing structure sleeve. The guide wheels (102) are evenly arranged on the surface of the assembly screw (101), and the fixing nut (103) and the assembly screw (101) are threaded together.

4. The guiding mechanism for yarn production according to claim 1, characterized in that, Both ends of the stabilizer bar (201) are connected to the axis of the bearing seat component (204) by threaded structure, and the damping sleeve (202) is tightly attached to the surface of the stabilizer bar (201). The damping sleeve (202) and the limiting roller (203) are fixedly connected. The adjusting pile (205) and the bearing seat component (204) are connected by a detachable structure.

5. A guiding mechanism for yarn production according to claim 4, characterized in that, The combined column component (3) includes a combined screw (301), a fixed seat (302) and a connecting seat (303). The bottom of the combined screw (301) is connected to the fixed seat (302), and the bottom surface of the fixed seat (302) is provided with the connecting seat (303).

6. A guiding mechanism for yarn production according to claim 5, characterized in that, The adjusting pile (205) and the connecting pile (104) are both connected to each other by a threaded structure and a combined screw (301). The combined screw (301) is connected to the fixed seat (302) through a bearing structure. The fixed seat (302) and the connecting seat (303) are an integral structure.

7. A guiding mechanism for yarn production according to claim 5, characterized in that, The adjustment structure component (4) includes a hydraulic rod (401), a first joint (402), a combination seat (403), a second joint (404), and a grounding seat (405). The top end of the hydraulic rod (401) is connected to the first joint (402), and the end of the first joint (402) away from the hydraulic rod (401) is connected to the combination seat (403). The end of the hydraulic rod (401) away from the first joint (402) is connected to the second joint (404), and the end of the second joint (404) away from the hydraulic rod (401) is equipped with a grounding seat (405).

8. A guiding mechanism for yarn production according to claim 7, characterized in that, The end of the combined seat (403) away from the first joint (402) is movably installed on the bottom of the connecting seat (303), and the grounding seat (405) has holes for bolt installation at its four opposite corners.