Fabric discharging structure

By combining a conveyor belt stacking structure, a micro-cylinder scraper, and a high-pressure jet nozzle, the problem of impurities adhering during fabric discharge is solved, achieving efficient cleaning and fabric bonding, and improving fabric utilization and production efficiency.

CN224362248UActive Publication Date: 2026-06-16HANGZHOU YIFENGGE CLOTHING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HANGZHOU YIFENGGE CLOTHING CO LTD
Filing Date
2025-07-15
Publication Date
2026-06-16

AI Technical Summary

Technical Problem

The existing fabric layout structure has the problem of dust and other impurities adhering to it, which affects the fabric utilization rate and production cost.

Method used

The design incorporates a combination of conveyor belt stacking structure, micro cylinder scraper cleaning, air supply pipe high-pressure jet nozzle, and magnetic dust cover. Impurities are cleaned from the surface of the conveyor belt and reduced by the high-pressure jet nozzle. The magnetic dust cover protects the high-pressure jet nozzle, and the pressure plate ensures the fabric adheres well.

Benefits of technology

Effectively cleans impurities from the conveyor belt, improves fabric utilization, reduces production costs, and ensures the quality and efficiency of the fabric in subsequent processes.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224362248U_ABST
    Figure CN224362248U_ABST
Patent Text Reader

Abstract

The utility model discloses a fabric discharging structure, including support leg and magnetic dust cover, the upper end of support leg is provided with the connecting table, and the left -hand end of connecting table is provided with the fixed frame, the upper end mounting of fixed frame has control block, and the right -hand end of control block is located with the gas pipe of sending, the inside mounting of gas pipe has high pressure gas jet mouth, magnetic dust cover is located in the bottom of gas pipe of sending. A kind of fabric discharging structure, through the superposition conveying structure between conveyor belt one, conveyor belt two and conveyor belt three, it is convenient for staff to put fabric in turn, to carry out discharging work to fabric, and the impurity on the surface of conveyor belt one can be cleaned by the left and right movement of scraping piece along with the start of micro cylinder, gas pipe can be well delivered to high pressure gas jet mouth, air can be sprayed in column shape by high pressure gas jet mouth, reduce the impurity on the surface of conveyor belt one, prevent fabric from possessing a large amount of impurity, and pressure plate applies pressure to well-arranged fabric.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of fabric layout technology, specifically a fabric layout structure. Background Technology

[0002] Fabric layout refers to the scientific arrangement of all garment pattern pieces of various specifications within a specified fabric width during garment production, aiming to minimize material usage by minimizing area or length. This process maximizes fabric utilization, reducing product costs and providing a feasible basis for subsequent processes such as laying and cutting. Specific steps and principles of layout include: **Arrangement according to design drawings:** Arrange the fabric on the cutting table according to the design drawings, ensuring the garment pieces are arranged to meet design requirements.23 **Material-saving principle:** Minimize fabric waste during layout, using scientific methods such as nesting (large to small, primary to secondary, straight to straight, concave to convex, etc.).14 **Maintaining straight grain:** During layout, the grain of the garment pieces should be kept straight. Avoid skewed grain or arbitrary splicing in pursuit of material saving. Fabric layout plays a crucial role in garment production, affecting not only fabric utilization and production costs but also subsequent cutting and sewing processes. By rationally planning the material layout, we can effectively save fabric, improve production efficiency, and ensure product quality.

[0003] As disclosed in application number CN202321947676.2, this utility model discloses a fiber fabric stacking device, including a base, a connecting block threaded onto a lead screw, a stacking rod at one end of the connecting block, a fixed frame fixedly connected to the upper end of the side plate, two rotating rollers symmetrically arranged between the fixed frames, a slide rail seat provided on the inner wall of the side plate, a movable frame arranged between the slide rail seats, two second fixed blocks symmetrically fixedly connected to both sides of the movable frame, and two pushing rollers symmetrically arranged between the movable frames. With the above structure, a mounting frame is fixedly connected to one side of the connecting block, a second electric push rod is fixedly connected to the inner side of the mounting frame, and a stacking rod is fixedly connected to one end of the second electric push rod, enabling the device to press and stack the placed fiber fabric on both sides. Two rotating rods are symmetrically fixedly connected between the movable frames, and pushing rollers are rotatably connected to the outer side of the rotating rods, facilitating the pushing of the placed fabric to the left and right, thus facilitating fabric stacking.

[0004] The above applications currently have the following shortcomings:

[0005] Dust and other substances may remain in the structure and adhere to the fabric during material discharge.

[0006] Therefore, in view of this, we have studied and improved the existing structure and its shortcomings, and proposed a fabric layout structure in order to achieve a more practical purpose. Utility Model Content

[0007] The purpose of this invention is to provide a fabric layout structure to solve the problems mentioned in the background art.

[0008] To achieve the above objectives, this utility model provides the following technical solution: a fabric feeding structure, including a support foot and a magnetic dust cover, wherein a connecting platform is provided at the upper end of the support foot, and a fixing frame is provided at the left end of the connecting platform, a control block is installed at the upper end of the fixing frame, and an air supply pipe is arranged at the right end of the control block, a high-pressure air nozzle is installed inside the air supply pipe, and the magnetic dust cover is arranged at the bottom of the air supply pipe.

[0009] Furthermore, a first conveyor belt is installed at the upper end of the connecting platform, and a second conveyor belt is installed at the right end of the first conveyor belt.

[0010] Furthermore, a third conveyor belt is installed at the right end of the second conveyor belt, and the first, second and third conveyor belts have the same shape and structure.

[0011] Furthermore, a miniature cylinder is installed on the inner wall of the fixing frame, and a scraper is installed at the end of the miniature cylinder.

[0012] Furthermore, a shelf is provided at the right end of the connecting platform, and a connecting frame is provided at the upper end of the shelf.

[0013] Furthermore, a hydraulic cylinder is installed at the top of the connecting frame, and a pressure plate is placed at the bottom of the hydraulic cylinder.

[0014] Furthermore, a removable rubber pad is provided on the bottom surface of the pressure plate, and the surface of the removable rubber pad is covered with traceless adhesive tape.

[0015] Compared with the prior art, the beneficial effects of this utility model are:

[0016] 1. This utility model utilizes a superimposed conveying structure between conveyor belt one, conveyor belt two, and conveyor belt three to facilitate the sequential placement of fabric by workers, thereby enabling fabric discharge. The scraper moves left and right on the surface of conveyor belt one when activated by a micro cylinder, thus cleaning impurities on conveyor belt one. The air supply pipe effectively delivers gas to the high-pressure jet nozzle, which sprays air in a columnar shape, reducing impurities on the surface of conveyor belt one and preventing the fabric from accumulating a large amount of impurities. The pressure plate applies pressure to the discharged fabric, making the fabric more conforming. The magnetic dust cover protects the high-pressure jet nozzle, preventing impurities from accumulating on its surface. Attached Figure Description

[0017] Figure 1 This is a front-view three-dimensional structural diagram of a fabric layout structure according to the present invention;

[0018] Figure 2 This is a three-dimensional structural diagram of a fabric feeding structure pressing plate according to the present invention;

[0019] Figure 3 This is a bottom-view three-dimensional structural diagram of the air supply pipe of the fabric feeding structure of this utility model;

[0020] Figure 4 This is a three-dimensional structural diagram of a fabric feeding structure scraper according to the present invention, viewed from below.

[0021] In the diagram: 1. Support leg; 2. Connecting platform; 3. Conveyor belt one; 4. Conveyor belt two; 5. Conveyor belt three; 6. Fixing frame; 7. Control block; 8. Air supply pipe; 9. Miniature cylinder; 10. Storage platform; 11. Connecting frame; 12. Hydraulic cylinder; 13. Pressure plate; 14. Removable rubber pad; 15. High-pressure air nozzle; 16. Magnetic dust cover; 17. Scraper blade. 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 1-4As shown, a fabric feeding structure includes a support leg 1 and a magnetic dust cover 16. A connecting platform 2 is provided at the upper end of the support leg 1, and a fixing frame 6 is provided at the left end of the connecting platform 2. A control block 7 is installed at the upper end of the fixing frame 6, and an air supply pipe 8 is installed at the right end of the control block 7. A high-pressure air nozzle 15 is installed inside the air supply pipe 8. The magnetic dust cover 16 is placed at the bottom of the air supply pipe 8. A first conveyor belt 3 is installed at the upper end of the connecting platform 2, and a second conveyor belt 4 and a third conveyor belt 5 are installed at the right end of the second conveyor belt 4. The first conveyor belt 3, the second conveyor belt 4, and the third conveyor belt 5 have the same shape and structure. A miniature cylinder 9 is installed on the inner wall of the fixing frame 6, and a scraper 17 is installed at the end of the miniature cylinder 9. A shelf 10 is provided at the right end of the connecting platform 2, and a connecting frame 11 is provided at the upper end of the shelf 10. A hydraulic cylinder 1 is installed at the top of the connecting frame 11. 2. A pressure plate 13 is installed at the bottom of the hydraulic cylinder 12. A removable rubber pad 14 is installed on the bottom surface of the pressure plate 13. The surface of the removable rubber pad 14 is covered with non-marking adhesive tape. Through the superimposed conveying structure between conveyor belt 1 3, conveyor belt 2 4 and conveyor belt 3 5, it is convenient for the staff to put the fabric in one by one, so as to perform the fabric discharge work. The scraper 17 can move left and right on the surface of conveyor belt 1 3 when the micro cylinder 9 is started, so as to clean the impurities on conveyor belt 1 3. The air supply pipe 8 can effectively deliver the gas to the high-pressure jet nozzle 15. The high-pressure jet nozzle 15 can spray the air in a columnar shape to reduce the impurities on the surface of conveyor belt 1 3 and prevent the fabric from having a large amount of impurities. The pressure plate 13 applies pressure to the discharged fabric, making the fabric more compact. The magnetic dust cover 16 protects the high-pressure jet nozzle 15 and prevents impurities from being present on the surface of the high-pressure jet nozzle 15.

[0024] Working principle: When this fabric layout structure is in use, it first... Figures 1-4 When in use, first turn on the high-pressure jet nozzle 15 to spray air onto the conveyor belt 3. The high-pressure jet nozzle 15 can spray air in a columnar shape to reduce impurities on the surface of the conveyor belt 3 and prevent the fabric from having a large amount of impurities. Place fabric 1 on the conveyor belt 3, and use the conveyor belt 2 4 and the conveyor belt 3 5 to transport fabric 1 to the storage table 10. Then place fabric 2 on the conveyor belt 3, and use the conveyor belt 2 4 and the conveyor belt 3 5 to transport fabric 2 to the top of fabric 1. Repeat this process to stack multiple fabrics together. The pressure plate 13 applies pressure to the stacked fabric to make the fabric fit better. The magnetic dust cover 16 protects the high-pressure jet nozzle 15 to prevent impurities on its surface. The scraper 17 can move left and right on the surface of the conveyor belt 3 when the micro cylinder 9 is activated, thereby cleaning the impurities on the conveyor belt 3.

[0025] 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 fabric layout structure, comprising support feet (1) and a magnetic dust cover (16), characterized in that, The upper end of the support foot (1) is provided with a connecting platform (2), and the left end of the connecting platform (2) is provided with a fixing frame (6). The upper end of the fixing frame (6) is provided with a control block (7), and the right end of the control block (7) is provided with an air supply pipe (8). The inside of the air supply pipe (8) is provided with a high-pressure jet nozzle (15), and the magnetic dust cover (16) is located at the bottom of the air supply pipe (8).

2. The fabric layout structure according to claim 1, characterized in that, The upper end of the connecting platform (2) is equipped with a first conveyor belt (3), and the right end of the first conveyor belt (3) is equipped with a second conveyor belt (4).

3. The fabric layout structure according to claim 2, characterized in that, The right end of the second conveyor belt (4) is equipped with the third conveyor belt (5), and the first conveyor belt (3), the second conveyor belt (4) and the third conveyor belt (5) have the same shape and structure.

4. The fabric layout structure according to claim 1, characterized in that, The inner wall of the fixing frame (6) is equipped with a miniature cylinder (9), and a scraper (17) is installed at the end of the miniature cylinder (9).

5. The fabric layout structure according to claim 1, characterized in that, The right end of the connecting platform (2) is provided with a shelf (10), and the upper end of the shelf (10) is provided with a connecting frame (11).

6. The fabric layout structure according to claim 5, characterized in that, A hydraulic cylinder (12) is installed at the top of the connecting frame (11), and a pressure plate (13) is placed at the bottom of the hydraulic cylinder (12).

7. The fabric layout structure according to claim 6, characterized in that, The bottom surface of the pressure plate (13) is provided with a removable rubber pad (14), and the surface of the removable rubber pad (14) contains traceless adhesive tape.