Resin cotton felt conveying turn structure

By adopting a combination structure of conveyor frame, reversing conveyor module and belt conveyor module in the resin cotton felt conveying structure, the problems of small contact area and insufficient friction when resin cotton felt makes right-angle turns are solved, and a more efficient conveying effect is achieved.

CN224349810UActive Publication Date: 2026-06-12NANTONG KAILAITE MACHINERY

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
NANTONG KAILAITE MACHINERY
Filing Date
2025-08-14
Publication Date
2026-06-12

AI Technical Summary

Technical Problem

In existing resin cotton felt right-angle turning conveyors, the small contact area of ​​the conveyor roller structure results in insufficient friction, leading to insufficient traction and a tendency to slip.

Method used

It adopts a combined structure of a conveyor frame, a reversing conveyor module, and a belt conveyor module. The reversing conveyor module includes a reversing conveyor roller, a conveyor motor, and conveyor rollers, which achieve synchronous movement through chain linkage. The belt conveyor module is used to receive resin cotton felt and perform reversing conveying.

Benefits of technology

It improves the contact effect between the resin cotton felt and the conveyor rollers, enhances friction, avoids slippage of individual conveyor rollers and insufficient traction, improves the reversing conveying effect, and increases conveying efficiency.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

The utility model relates to a kind of resin cotton felt conveying turning structure, it is characterized by: including conveying frame, reversing conveying module and belt conveying module;In the utility model, resin cotton felt is reversedly conveyed by the mode of installing conveying roller on reversing conveying roller, due to the flexible effect of resin cotton felt on the whole conveying frame, the contact effect between conveying roller and resin cotton felt is improved, the friction is improved, and each reversing conveying roller is linked by chain, to ensure that each reversing conveying roller can provide power to resin cotton felt, avoid the situation that single smooth conveying roller reversing conveying skids and the traction is insufficient, greatly improve the reversing conveying effect of resin cotton felt, improve conveying efficiency.
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Description

Technical Field

[0001] This utility model relates to the field of resin cotton processing technology, and in particular to a resin cotton felt conveying turning structure. Background Technology

[0002] Right-angle turns in resin-impregnated cotton felt conveying typically employ a conveyor roller structure with a 45° angle. This type of conveyor roller reversing structure has a small contact area with the resin-impregnated cotton felt, resulting in low traction force. Furthermore, the smooth conveyor roller structure is prone to slippage. Therefore, for right-angle conveying of resin-impregnated cotton felt, it is necessary to increase the contact area between the resin-impregnated cotton felt and the drive source to increase friction and thus increase traction force. Conventional roller conveyors cannot meet these requirements. Utility Model Content

[0003] The technical problem to be solved by this utility model is to provide a turning structure for conveying resin cotton felt, which can solve the problem that the general resin cotton felt reversing conveying uses a 45° inclined conveying roller to convey the resin cotton felt at a right angle, resulting in a small contact area, low friction and insufficient traction.

[0004] To solve the above-mentioned technical problems, the technical solution of this utility model is: a resin cotton felt conveying turning structure, the innovation of which is: including a conveyor frame, a reversing conveyor module and a belt conveyor module;

[0005] The conveyor frame has a rectangular frame structure. The upper surface of the conveyor frame is provided with a side support channel steel along one side of the length direction, and a diagonal support channel steel is provided at a 45° angle from one end of the side support channel steel to the other end. The side support channel steel and the diagonal support channel steel are used to support the reversing conveyor module.

[0006] The reversing conveyor module includes reversing conveyor rollers, a conveyor motor, and conveyor wheels. There are several reversing conveyor rollers, and their lengths gradually decrease along the extension direction of the side support channel steel. The reversing conveyor rollers are evenly distributed along the extension direction of the side support channel steel, and one end of each roller is flush with the other. The reversing conveyor rollers are mounted on the side support channel steel and the inclined support channel steel via slewing bearings and bearing seats. Each flush end of the reversing conveyor roller is equipped with a sprocket, and they are connected by a chain to achieve synchronous movement. The longest reversing conveyor roller has a drive sprocket at its other end. The conveyor motor is mounted on the conveyor frame, and its output end has a drive sprocket. The drive sprocket and the driven sprocket are connected by a chain drive, enabling the conveyor motor to drive the several reversing conveyor rollers to rotate.

[0007] The conveying rollers are of several kinds, and the conveying rollers are equally spaced on the reversing conveying roller along the extension direction of the reversing conveying roller; the conveying rollers on two adjacent reversing conveying rollers are distributed in a cross pattern.

[0008] The belt conveyor module is suspended below the reversing conveyor module and is used to receive and convey the resin cotton felt output from the reversing conveyor module. The belt conveyor module includes a belt conveyor frame, a drive motor, and a conveyor belt. The belt conveyor frame has a rectangular frame structure and is horizontally installed inside the conveyor frame. Several support rollers are provided inside the belt conveyor frame, and drive rollers are provided at both ends of the belt conveyor frame, with a drive sprocket at one end of one of the drive rollers. The drive motor is located inside the conveyor frame, and its output end cooperates with the drive sprocket at the end of the drive roller through a chain. The conveyor belt is wound around the drive roller of the belt conveyor frame, and the drive motor drives the drive roller to rotate, thereby realizing the reversing conveying of the resin cotton felt from the reversing conveyor module.

[0009] Furthermore, one end of the reversing conveyor roller extends out as a bracing channel steel, and the portion of the reversing conveyor roller from which the bracing channel steel extends is provided with a conveying roller to prevent the bearing seat on the bracing channel steel from interfering with the conveying of the resin cotton felt.

[0010] The advantages of this utility model are:

[0011] 1) In this utility model, the resin cotton felt is conveyed by installing conveying rollers on the reversing conveyor rollers. Due to the flexibility of the resin cotton felt, the contact effect between the conveying rollers and the resin cotton felt is improved, and the friction is increased. In addition, each reversing conveyor roller is linked by a chain, which ensures that each reversing conveyor roller can provide power to the resin cotton felt. This avoids slippage and insufficient traction when a single smooth conveyor roller is used for reversing, which greatly improves the reversing conveying effect of the resin cotton felt and increases the conveying efficiency. Attached Figure Description

[0012] The present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments.

[0013] Figure 1 This is a front view schematic diagram of a resin cotton felt conveying turning structure according to the present invention.

[0014] Figure 2 This is a side view schematic diagram of a resin cotton felt conveying turning structure according to the present invention.

[0015] Figure 3 This is a top view schematic diagram of a resin cotton felt conveying turning structure according to the present invention. Detailed Implementation

[0016] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. The components of the embodiments of this utility model described and shown in the accompanying drawings can generally be arranged and designed in various different configurations.

[0017] Therefore, the following detailed description of the embodiments of the present invention provided in the accompanying drawings is not intended to limit the scope of the claimed invention, but merely to illustrate selected embodiments of the invention. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without inventive effort are within the scope of protection of the present invention.

[0018] like Figures 1 to 3 The resin cotton felt conveying turning structure shown includes a conveyor frame 1, a reversing conveyor module 2, and a belt conveyor module 3.

[0019] The conveyor frame 1 has a rectangular frame structure. A side support channel steel 11 is provided on one side of the upper surface of the conveyor frame 1 along the length direction, and a diagonal support channel steel 12 is provided at a 45° angle from one end of the side support channel steel 11 to the other end. The side support channel steel 11 and the diagonal support channel steel 12 are used to support the reversing conveyor module 2.

[0020] The reversing conveyor module 2 includes reversing conveyor rollers 21, a conveyor motor 22, and conveyor rollers 23. There are several reversing conveyor rollers 21, and the length of each roller gradually decreases along the extension direction of the side support channel steel 11. The reversing conveyor rollers 21 are evenly distributed along the extension direction of the side support channel steel 11, and one end of each roller is flush with the other. The reversing conveyor rollers 21 are mounted on the side support channel steel 11 and the inclined support channel steel 12 via slewing bearings and bearing seats. Each flush end of the reversing conveyor rollers 21 is equipped with a sprocket, and they are connected by a chain to achieve synchronous movement. The longest roller in the reversing conveyor roller 21 has a drive sprocket at its other end. The conveyor motor 22 is mounted on the conveyor frame 1, and the output end of the conveyor motor 22 is equipped with a drive sprocket. The drive sprocket and the driven sprocket are connected by a chain drive, enabling the conveyor motor 22 to drive several reversing conveyor rollers 21 to rotate.

[0021] There are several conveying rollers 23, and the conveying rollers 23 are evenly spaced on the reversing conveying roller along the extension direction of the reversing conveying roller; the conveying rollers on two adjacent reversing conveying rollers 21 are distributed in a cross pattern.

[0022] The belt conveyor module 3 is suspended below the reversing conveyor module 2 and is used to receive and convey the resin cotton felt output from the reversing conveyor module 2. The belt conveyor module 3 includes a belt conveyor frame 31, a drive motor 32, and a conveyor belt 33. The belt conveyor frame 31 has a rectangular frame structure and is horizontally installed inside the conveyor frame 1. Several support rollers are provided inside the belt conveyor frame 31, and drive rollers are provided at both ends of the belt conveyor frame 31. One end of one of the drive rollers is provided with a drive sprocket. The drive motor 32 is located inside the conveyor frame 1, and the output end of the drive motor 31 is connected to the drive sprocket at the end of the drive roller through a chain. The conveyor belt 33 is wound around the drive roller of the belt conveyor frame 31. The drive motor 32 drives the drive roller to rotate, so that the conveyor belt 33 can reverse the conveying of the resin cotton felt from the reversing conveyor module 2.

[0023] One end of the reversing conveyor roller 21 extends out of the inclined support channel steel 12, and the part of the reversing conveyor roller 21 with the inclined support channel steel 12 extended out is provided with a conveying roller 23 to prevent the bearing seat on the inclined support channel steel 12 from interfering with the conveying of resin cotton felt.

[0024] The working principle of this utility model is as follows: This utility model uses conveying rollers installed on reversing conveying rollers to reverse the conveying of resin cotton felt. Due to the flexibility of the resin cotton felt, the contact effect between the conveying rollers and the resin cotton felt is improved, and the friction is increased. In addition, each reversing conveying roller is linked by a chain, which ensures that each reversing conveying roller can provide power to the resin cotton felt. This avoids slippage and insufficient traction when a single smooth conveying roller reverses the conveying, which greatly improves the reversing conveying effect of the resin cotton felt and increases the conveying efficiency.

[0025] Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of this utility model as claimed.

Claims

1. A resin cotton felt conveying turning structure, characterized in that: Includes a conveyor frame, a reversing conveyor module, and a belt conveyor module; The conveyor frame has a rectangular frame structure. The upper surface of the conveyor frame is provided with a side support channel steel along one side of the length direction, and a diagonal support channel steel is provided at a 45° angle from one end of the side support channel steel to the other end. The side support channel steel and the diagonal support channel steel are used to support the reversing conveyor module. The reversing conveyor module includes reversing conveyor rollers, a conveyor motor, and conveyor wheels. There are several reversing conveyor rollers, and their lengths gradually decrease along the extension direction of the side support channel steel. The reversing conveyor rollers are evenly distributed along the extension direction of the side support channel steel, and one end of each roller is flush with the other. The reversing conveyor rollers are mounted on the side support channel steel and the inclined support channel steel via slewing bearings and bearing seats. Each flush end of the reversing conveyor roller is equipped with a sprocket, and they are connected by a chain to achieve synchronous movement. The longest reversing conveyor roller has a drive sprocket at its other end. The conveyor motor is mounted on the conveyor frame, and its output end has a drive sprocket. The drive sprocket and the driven sprocket are connected by a chain drive, enabling the conveyor motor to drive the several reversing conveyor rollers to rotate. The conveying rollers are of several kinds, and the conveying rollers are equally spaced on the reversing conveying roller along the extension direction of the reversing conveying roller; the conveying rollers on two adjacent reversing conveying rollers are distributed in a cross pattern. The belt conveyor module is suspended below the reversing conveyor module and is used to receive and convey the resin cotton felt output from the reversing conveyor module. The belt conveyor module includes a belt conveyor frame, a drive motor, and a conveyor belt. The belt conveyor frame has a rectangular frame structure and is horizontally installed inside the conveyor frame. Several support rollers are provided inside the belt conveyor frame, and drive rollers are provided at both ends of the belt conveyor frame, with a drive sprocket at one end of one of the drive rollers. The drive motor is located inside the conveyor frame, and the output end of the drive motor cooperates with the drive sprocket at the end of the drive roller through a chain. The conveyor belt is wound around the drive roller of the belt conveyor frame, and the drive motor drives the drive roller to rotate, thereby realizing the reversing conveying of the resin cotton felt from the reversing conveyor module.

2. The resin cotton felt conveying turning structure according to claim 1, characterized in that: One end of the reversing conveyor roller extends into a diagonal bracing channel steel, and the portion of the reversing conveyor roller from which the diagonal bracing channel steel extends is provided with a conveying roller to prevent the bearing seat on the diagonal bracing channel steel from interfering with the conveying of the resin cotton felt.