A structure for adjusting a cloth roller

By designing an adjustment seat and adjustment structure on the velvet roller, and combining deep groove ball bearings and self-aligning ball bearings, the problem of the velvet roller's fixed installation being unable to adapt to different materials was solved, achieving precision and stability in position adjustment, extending service life and improving processing quality.

CN224467171UActive Publication Date: 2026-07-07PANAN MAOSHENG MASCH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
PANAN MAOSHENG MASCH CO LTD
Filing Date
2025-07-28
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

The existing fixed installation method of the fleece roller cannot adapt to the needs of fabrics of different thicknesses or materials, resulting in a decrease in processing quality and a shortened service life.

Method used

A fleece roller comprising an adjusting seat and an adjusting structure is designed. By setting the adjusting seat and adjusting structure at both ends of the roller body, combined with deep groove ball bearings and self-aligning ball bearings, the precise adjustment and stability of the roller body position can be achieved, reducing friction and vibration.

Benefits of technology

This achieves positional adaptability and stability of the fabric roller, extends its service life, and improves processing accuracy and efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application belongs to the technical field of flannel roller, and particularly relates to a adjusting structure of a flannel roller, which comprises a roller body, an adjusting seat and an adjusting structure arranged on the adjusting structure and connected with the roller body and used for adjusting the position of the roller body on the adjusting seat, wherein the adjusting seat and the adjusting structure are arranged at both ends of the roller body. The application has the beneficial effect that the position of the roller body is adjusted through the adjusting structure, so that the requirement of material processing of different thicknesses and materials is met, and the problem that the flannel roller cannot be adjusted due to fixed installation is solved.
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Description

Technical Field

[0001] This application belongs to the field of fabric roller technology, and particularly relates to an adjustment structure for a fabric roller. Background Technology

[0002] Due to the softness and absorbency of its velvet surface material, velvet rollers are widely used in textiles, printing, cleaning, and other fields. In textile production, velvet rollers are often used to press, clean, or assist in the transfer of fabrics; in printing processes, they can work with printing plates to achieve uniform ink transfer; and in cleaning equipment, velvet rollers adsorb impurities through contact with the surface to be cleaned.

[0003] In existing technologies, felt rollers are typically fixed in place, meaning their relative position to the equipment frame and the pressure between them and the contact components cannot be adjusted. This fixed structure presents several limitations in practical applications. For example, when processing fabrics of different thicknesses or materials, a fixed felt roller struggles to adapt to the varying pressure requirements of the fabric, potentially leading to wrinkles, indentations, or unstable transmission, thus affecting product quality. After prolonged use, the felt on the roller surface wears down. Because the position cannot be adjusted, the fit between the worn roller and the contact components decreases, further reducing work efficiency and processing effectiveness, necessitating improvements. Utility Model Content

[0004] The purpose of this application is to provide an adjustment structure for a fleece roller that can solve the above-mentioned problems.

[0005] The purpose of this application is to provide an adjustment structure for a fleece roller, comprising:

[0006] Roller body;

[0007] Adjustable seat;

[0008] An adjustment structure, set on the adjustment structure and connected to the roller body, is used to adjust the position of the roller body on the adjustment seat;

[0009] The adjusting seat and adjusting structure are provided at both ends of the roller body.

[0010] The aforementioned adjustment structure for a felt roller uses a roller body as its working component, with felt fabric on its surface, enabling functions such as material pressing, cleaning, or auxiliary transport. Adjustment seats and structures are located at both ends of the roller body, allowing for simultaneous position adjustment at both ends. This ensures balance and stability during adjustment, preventing roller tilting that might occur with unilateral adjustment. Furthermore, the installation of the adjustment structure allows for adjustment of the solid's position to suit different processing conditions.

[0011] Furthermore, the adjustment seat includes:

[0012] Horizontal board;

[0013] The vertical plate is perpendicular to the horizontal plate, and the vertical plate is equipped with guide rails. The roller can slide along the guide rails through the adjustment mechanism.

[0014] The horizontal and vertical plates are connected by screws.

[0015] In the adjusting seat, the horizontal plate and vertical plate are perpendicular to each other, forming a stable support structure and providing an installation base for the entire adjusting structure. The guide rail on the vertical plate provides guidance for the position adjustment of the roller, allowing the roller to slide more smoothly along the guide rail through the adjusting mechanism and avoiding deviation or shaking during the adjustment process. The horizontal plate and vertical plate are connected by screws, which facilitates the disassembly and installation of the adjusting seat. When components are worn or require maintenance, they can be quickly replaced, improving the convenience of maintenance compared to existing fixed connection structures.

[0016] Furthermore: the adjustment structure includes:

[0017] The slider is slidably mounted on the guide rail.

[0018] A connecting seat is mounted on the slider, and an adjusting head is provided on its top.

[0019] The adjusting rod has one end threadedly connected to the adjusting head, and the other end passes through the cross plate and is connected to a handwheel;

[0020] The upper bearing housing is mounted on the connecting seat, and the first bearing is installed inside it;

[0021] The roller passes through the first bearing and is mounted on the first bearing housing.

[0022] The slider in the adjustment structure is slidably mounted on the guide rail. The cooperation between the slider and the guide rail ensures smooth adjustment and makes the position adjustment of the roller more precise. The connecting seat is installed on the slider, and the adjusting head on its top cooperates with the adjusting rod. By rotating the adjusting rod, the connecting seat and the slider can be moved along the guide rail, thereby adjusting the position of the roller to meet the needs of processing materials of different thicknesses and materials. At the same time, the first bearing here is a deep groove bearing, and the deep groove ball bearing in the upper bearing housing provides stable support for the roller. The deep groove ball bearing has good radial load-bearing capacity, which can reduce friction and vibration during the rotation of the roller, ensure the stability of the roller when rotating at high speed, avoid accelerated roller wear due to excessive friction, and extend the service life of the roller.

[0023] Furthermore, the adjustment structure also includes:

[0024] The lower bearing housing is mounted on the horizontal plate;

[0025] The second bearing is installed inside the second bearing housing, and the adjusting rod passes through the second bearing;

[0026] The lower bearing housing is detachably mounted on the connecting seat.

[0027] The lower bearing housing is mounted on the horizontal plate, and its internal self-aligning ball bearing supports the adjusting rod. This second bearing is a self-aligning ball bearing, which has an automatic self-aligning function to compensate for angular deviations in the adjusting rod during installation or use. This prevents accelerated wear or adjustment jamming caused by rod tilting, ensuring smooth rotation of the adjusting rod. The lower bearing housing is detachably mounted on the connecting seat, facilitating maintenance and replacement of the lower bearing housing and its internal self-aligning ball bearing. When a component malfunctions, there is no need to disassemble the entire adjusting structure, reducing maintenance costs and difficulty.

[0028] Furthermore, the adjusting rod is also provided with a locking part, and a through groove is provided on the horizontal plate. A locking rod is threaded into the through groove, and the locking rod can cooperate with the locking part to lock the adjusting rod.

[0029] The locking part on the adjusting rod cooperates with the locking rod on the horizontal plate. After the roller position adjustment is completed, tightening the locking rod to ensure tight contact with the locking part locks the adjusting rod, preventing it from loosening due to vibration or other factors during equipment operation. This ensures the roller remains in the set position and guarantees operational stability. This solves the problem of positional shifts in the adjusting structure after adjustment, which affects processing accuracy.

[0030] Furthermore, the end of the locking rod is provided with a locking head adapted to the locking rod, and the diameter of the locking head is larger than the diameter of the through groove.

[0031] The locking head at the end of the locking rod has a diameter larger than that of the through groove, which can act as a limit to prevent the locking rod from detaching from the horizontal plate. At the same time, when the locking rod is tightened, the locking head can be tightly pressed against the surface of the horizontal plate, which enhances the locking effect and prevents the locking rod from falling out of the through groove during long-term use, further improving the reliability of the locking structure.

[0032] The beneficial effects of this application are:

[0033] 1. By adjusting the structure to adjust the position of the roller, it can adapt to the needs of processing materials of different thicknesses and materials, thus solving the problem of the fixed installation of the velvet roller being unable to be adjusted;

[0034] 2. By installing deep groove ball bearings and self-aligning ball bearings, friction and vibration are effectively reduced, and service life is extended;

[0035] 3. By installing a locking structure, the adjusting rod can be effectively prevented from loosening, ensuring smooth operation of the roller and avoiding positional deviation that could affect processing accuracy. Attached Figure Description

[0036] Figure 1This is a schematic diagram of the structure of this utility model;

[0037] Figure 2 yes Figure 1 Enlarged view of A in the middle;

[0038] Figure 3 This is a top view of the present invention;

[0039] Figure 4 yes Figure 3 A cross-sectional view along the AA direction;

[0040] Figure 5 yes Figure 4 A magnified view of B in the middle.

[0041] The reference numerals in the figure are as follows: 100, roller body; 200, adjusting seat; 210, horizontal plate; 220, vertical plate; 221, guide rail; 300, adjusting structure; 310, slider; 320, connecting seat; 330, adjusting head; 340, adjusting rod; 350, handwheel; 360, upper bearing seat; 361, first bearing; 370, lower bearing seat; 380, second bearing; 400, locking part; 410, through groove; 420, locking rod; 430, locking head. Detailed Implementation

[0042] The technical solutions of the embodiments of this application will be clearly described below with reference to the accompanying drawings. Obviously, the described embodiments are only some, not all, of the embodiments of this application. All other embodiments obtained by those skilled in the art based on the embodiments of this application are within the scope of protection of this application.

[0043] The terms "first," "second," etc., used in the specification and claims of this application are used to distinguish similar objects and not to describe a specific order or sequence. It should be understood that such use of data can be interchanged where appropriate so that embodiments of this application can be implemented in orders other than those illustrated or described herein, and the objects distinguished by "first," "second," etc., are generally of the same class and the number of objects is not limited; for example, a first object can be one or more. Furthermore, in the specification and claims, "and / or" indicates at least one of the connected objects, and the character " / " generally indicates that the preceding and following objects are in an "or" relationship.

[0044] The adjustment structure of the fleece roller provided in this application will be described in detail below with reference to the accompanying drawings, through specific embodiments and application scenarios.

[0045] Example 1:

[0046] like Figures 1 to 5As shown, this application embodiment provides an adjustment structure 300 for a fleece roller, including:

[0047] Roller body 100;

[0048] Adjustment seat 200;

[0049] An adjustment structure 300 is disposed on the adjustment structure 300 and connected to the roller body 100, and is used to adjust the position of the roller body 100 on the adjustment seat 200;

[0050] The adjusting seat 200 and the adjusting structure 300 are both provided at both ends of the roller body 100.

[0051] In some embodiments of this application, such as Figure 1 As shown, the above-mentioned adjustment structure 300 for a felt roller uses a roller body 100 as the working component of the felt roller, whose surface is covered with felt, enabling functions such as pressing, cleaning, or auxiliary transmission of materials. The adjustment seat 200 and the adjustment structure 300 are located at both ends of the roller body 100, allowing for simultaneous position adjustment at both ends of the roller body 100. This ensures the balance and stability of the roller body 100 during adjustment, avoiding tilting of the roller body 100 that may result from unilateral adjustment. Furthermore, the installation of the adjustment structure 300 allows for adjustment of the position of solids to adapt to different processing conditions.

[0052] Example 2:

[0053] This application provides an adjustment structure for a fleece roller. In addition to the above-mentioned technical features, the adjustment structure for the fleece roller in this application also includes the following technical features.

[0054] like Figure 2 and Figure 5 As shown, the adjustment seat 200 includes:

[0055] Horizontal plate 210;

[0056] The vertical plate 220 is perpendicular to the horizontal plate 210, and a guide rail 221 is provided on the vertical plate 220. The roller 100 can slide along the guide rail 221 through the adjustment mechanism.

[0057] The horizontal plate 210 and the vertical plate 220 are connected by screws.

[0058] In this embodiment, in the adjusting seat 200, the horizontal plate 210 and the vertical plate 220 are perpendicular to each other to form a stable support structure, providing an installation base for the entire adjusting structure 300. The guide rail 221 on the vertical plate 220 provides guidance for the position adjustment of the roller 100, making the roller 100 slide more smoothly along the guide rail 221 through the adjusting mechanism, avoiding deviation or shaking during the adjustment process. The horizontal plate 210 and the vertical plate 220 are connected by screws, which facilitates the disassembly and installation of the adjusting seat 200. When components are worn or require maintenance, they can be quickly replaced, improving the convenience of maintenance compared to the existing fixed connection structure.

[0059] Example 3:

[0060] This application provides an adjustment structure for a fleece roller. In addition to the above-mentioned technical features, the adjustment structure for the fleece roller in this application also includes the following technical features.

[0061] like Figure 2 and Figure 5 As shown, the adjustment structure 300 includes:

[0062] Slider 310 is slidably mounted on guide rail 221;

[0063] A connecting seat 320 is mounted on a slider 310, and an adjusting head 330 is provided on its top.

[0064] The adjusting rod 340 has one end threadedly connected to the adjusting head 330, and the other end passes through the cross plate 210 and is connected to the handwheel 350;

[0065] The upper bearing housing 360 is disposed on the connecting seat 320, and the first bearing 361 is disposed inside it;

[0066] The roller body 100 passes through the first bearing 361 and is mounted on the first bearing 361 seat.

[0067] In this embodiment, the slider 310 in the adjusting structure 300 is slidably mounted on the guide rail 221. The cooperation between the slider 310 and the guide rail 221 ensures the smoothness of the adjustment process, making the position adjustment of the roller 100 more precise. The connecting seat 320 is mounted on the slider 310, and its top adjusting head 330 cooperates with the adjusting rod 340. The rotation of the adjusting rod 340 can drive the connecting seat 320 and the slider 310 to move along the guide rail 221, thereby realizing the adjustment of the position of the roller 100 to adapt to the needs of processing materials of different thicknesses and materials. At the same time, the first bearing 361 here is a deep groove bearing. The deep groove ball bearing in the upper bearing seat 360 provides stable support for the roller 100. The deep groove ball bearing has good radial load-bearing capacity, which can reduce friction and vibration during the rotation of the roller 100, ensure the stability of the roller 100 when rotating at high speed, avoid accelerated wear of the roller 100 due to excessive friction, and extend the service life of the roller 100.

[0068] Furthermore, the adjustment structure 300 also includes:

[0069] The lower bearing housing 370 is mounted on the horizontal plate 210;

[0070] The second bearing 380 is disposed inside the second bearing 380 seat, and the adjusting rod 340 passes through the second bearing 380;

[0071] The lower bearing housing 370 is detachably mounted on the connecting seat 320.

[0072] The lower bearing housing 370 is mounted on the horizontal plate 210. Its internal self-aligning ball bearing supports the adjusting rod 340. The second bearing 380 is also a self-aligning ball bearing, which has an automatic self-aligning function. This compensates for angular deviations in the adjusting rod 340 during installation or use, preventing increased wear or adjustment jamming caused by the rod's tilt, and ensuring smooth rotation of the rod. The lower bearing housing 370 is detachably mounted on the connecting seat 320, facilitating maintenance and replacement of the lower bearing housing 370 and its internal self-aligning ball bearing. When a component malfunctions, it is not necessary to disassemble the entire adjusting structure 300, reducing maintenance costs and difficulty.

[0073] Example 4:

[0074] This application provides an adjustment structure for a fleece roller. In addition to the above-mentioned technical features, the adjustment structure for the fleece roller in this application also includes the following technical features.

[0075] like Figure 2 and Figure 5As shown, the adjusting rod 340 is also provided with a locking part 400, and the horizontal plate 210 is provided with a through groove 410. The through groove 410 is internally threaded with a locking rod 420, which can cooperate with the locking part 400 to lock the adjusting rod 340.

[0076] In this embodiment, the locking part 400 on the adjusting rod 340 cooperates with the locking rod 420 on the horizontal plate 210. After the position adjustment of the roller 100 is completed, the locking rod 420 is tightened to make it tightly contact the locking part 400, thereby locking the adjusting rod 340. This prevents the adjusting rod 340 from loosening due to vibration or other factors during equipment operation, ensuring that the roller 100 remains in the set position and guaranteeing operational stability. This solves the problem that the adjusting structure 300 is prone to positional shift after adjustment, affecting processing accuracy.

[0077] Furthermore, the end of the locking rod 420 is provided with a locking head 430 adapted to the locking rod 420, and the diameter of the locking head 430 is larger than the diameter of the through groove 410.

[0078] The locking head 430 at the end of the locking rod 420 has a larger diameter than the through groove 410, which can play a limiting role and prevent the locking rod 420 from detaching from the horizontal plate 210. At the same time, when the locking rod 420 is tightened, the locking head 430 can be tightly pressed against the surface of the horizontal plate 210, which enhances the locking effect and prevents the locking rod 420 from falling out of the through groove 410 during long-term use, further improving the reliability of the locking structure.

[0079] 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 a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes that element. Furthermore, it should be noted that the scope of the methods and apparatuses in the embodiments of this application is not limited to performing functions in the order shown or discussed, but may also include performing functions substantially simultaneously or in the reverse order, depending on the functions involved. For example, the described methods may be performed in a different order than described, and various steps may be added, omitted, or combined. Additionally, features described with reference to certain examples may be combined in other examples.

[0080] The embodiments of this application have been described above with reference to the accompanying drawings. However, this application is not limited to the specific embodiments described above. The specific embodiments described above are merely illustrative and not restrictive. Those skilled in the art can make many other forms under the guidance of this application without departing from the spirit and scope of the claims, and all of these forms are within the protection scope of this application.

Claims

1. An adjustment structure for a felt roller, characterized in that: include: Roller body (100); Adjustment seat (200); An adjustment structure (300) is provided on the adjustment structure (300) and connected to the roller body (100) for adjusting the position of the roller body (100) on the adjustment seat (200); The adjusting seat (200) and the adjusting structure (300) are both provided at both ends of the roller body (100).

2. The adjustment structure of the fleece roller according to claim 1, characterized in that: The adjusting seat (200) includes: Horizontal plate (210); The vertical plate (220) is perpendicular to the horizontal plate (210), and the vertical plate (220) is provided with a guide rail (221). The roller (100) can slide along the guide rail (221) through the adjustment mechanism. The horizontal plate (210) and the vertical plate (220) are connected by screws.

3. The adjusting structure (300) of the fleece roller according to claim 2, characterized in that: The adjustment structure (300) includes: The slider (310) is slidably mounted on the guide rail (221); A connecting seat (320) is provided on the slider (310), and an adjusting head (330) is provided on its top; An adjusting rod (340) has one end threadedly connected to an adjusting head (330) and the other end passing through a cross plate (210) and connected to a handwheel (350); The upper bearing housing (360) is disposed on the connecting seat (320), and the first bearing (361) is disposed inside it; The roller (100) passes through the first bearing (361) and is mounted on the first bearing (361) seat.

4. The adjustment structure of the fleece roller according to claim 3, characterized in that: The adjustment structure (300) also includes: The lower bearing housing (370) is mounted on the horizontal plate (210); The second bearing (380) is disposed in the second bearing (380) seat, and the adjusting rod (340) passes through the second bearing (380); The lower bearing housing (370) is detachably mounted on the connecting seat (320).

5. The adjustment structure of the fleece roller according to claim 4, characterized in that: The adjusting rod (340) is also provided with a locking part (400), and the horizontal plate (210) is provided with a through groove (410). A locking rod (420) is threadedly connected in the through groove (410). The locking rod (420) can cooperate with the locking part (400) and lock the adjusting rod (340).

6. The adjustment structure of the fleece roller according to claim 5, characterized in that: The end of the locking rod (420) is provided with a locking head (430) adapted to the locking rod (420), and the diameter of the locking head (430) is larger than the diameter of the through groove (410).