Textile textile scrap recycling device

CN224374975UActive Publication Date: 2026-06-19GUANGDONG HAISHUN TEXTILE CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGDONG HAISHUN TEXTILE CO LTD
Filing Date
2025-07-11
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Existing textile scrap recycling devices cause textile scraps to accumulate directly inside the recycling bins during recycling, which is inconvenient for automatic conveying and collection, and also occupies a large space.

Method used

A textile scrap recycling device was designed, which adopts a textile scrap recycling conveyor belt, a clamping and positioning mechanism, a scraping and anti-adhesion mechanism, and a lifting and compression mechanism to realize the automatic transmission and compressed storage of textile scraps.

Benefits of technology

It enables automated transport and compressed storage of textile scraps, reducing space requirements and improving recycling efficiency and storage capacity.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of textile scrap recycling technology, and in particular to a textile scrap recycling device, comprising side plates, a textile scrap recycling conveyor belt rotatably mounted between the two side plates, a recycling box installed at one end of the textile scrap recycling conveyor belt, and a snap-fit ​​positioning mechanism provided between the recycling box and the side plates. The advantages are: this utility model facilitates the automatic transmission and recycling of textile scraps; by scraping the surface of the textile scrap recycling conveyor belt with scraping strips, textile scraps are prevented from adhering to or even tangling inside the conveyor belt, thus affecting its use; the textile scraps inside the recycling box are compressed and compacted, reducing the bulkiness of the scraps and increasing the recycling box's capacity.
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Description

Technical Field

[0001] This utility model relates to the field of textile scrap recycling technology, and in particular to a textile scrap recycling device. Background Technology

[0002] The textile industry refers to the industry that uses natural or chemical fibers to process various yarns, silks, ropes, fabrics and their dyed products. During the production of textile fabrics, a large amount of scraps are often generated. These scraps are useless and need to be recycled. Usually, textile scrap recycling devices are needed for centralized processing.

[0003] For example, the prior art Chinese patent publication number "CN213315452U" provides a textile scrap recycling device, including a shell, the inside of which is provided with a crushing chamber and a squeezing chamber, the top of which is provided with a feed inlet, a first motor fixedly installed on the top of the shell, a rotating rod fixedly connected to the output end of the first motor, a dispersing disc fixedly installed on one side of the rotating rod, an installation block fixedly installed inside the crushing chamber, and a rotating roller movably installed on one side of the installation block.

[0004] This device, by setting up a dispersion disc with perforations and guide channels on the top and sides of the disc, can quickly disperse textile scraps. This not only prevents waste fabric from clogging the feed inlet but also improves the overall recycling efficiency of the device. The second motor works in conjunction with the shredder blades on the rotating roller to shred the waste fabric into uniform sizes, facilitating subsequent processing and placement.

[0005] Existing textile scrap recycling devices cause textile scraps to accumulate directly inside the recycling bin during recycling, which is not convenient for automatic conveying and direct collection of textile scraps. Moreover, after collection and accumulation, textile scraps are relatively loose, taking up space and making it inconvenient to collect large amounts of accumulated textile scraps.

[0006] Therefore, a textile scrap recycling device is proposed. Utility Model Content

[0007] The purpose of this invention is to address the shortcomings of existing technologies where textile scraps are directly piled up inside the recycling bin during recycling, making it inconvenient for automatic conveying and direct collection of textile scraps. Therefore, this invention proposes a textile scrap recycling device.

[0008] To achieve the above objectives, this utility model provides the following technical solution:

[0009] Design a textile scrap recycling device, including side plates, a textile scrap recycling conveyor belt rotatably installed between the two side plates, a recycling box installed at one end of the textile scrap recycling conveyor belt, a snap-fit ​​positioning mechanism between the recycling box and the side plates, a scraping anti-adhesion mechanism installed at one end of the textile scrap recycling conveyor belt and above the recycling box, and a lifting and compression mechanism installed above the recycling box.

[0010] The snap-fit ​​positioning mechanism includes:

[0011] A connecting plate is fixed to one end of the side plate. The outer end of the connecting plate slides through a positioning post, and the inner end of the positioning post is engaged with the top of both sides of the recycling bin.

[0012] A tension spring is sleeved on the surface of the positioning post. A limit plate is fixed to the outer end of the positioning post. The two ends of the tension spring are respectively connected to the outer side of the connecting plate and the inner side of the limit plate.

[0013] The scraping anti-adhesion mechanism includes:

[0014] A scraper strip is installed between the two connecting plates, and bolts are connected to both ends of the scraper strip between the connecting plates.

[0015] Furthermore, a support frame is fixed between the bottom ends of the two side plates, and a transmission roller is rotatably installed between the two ends of the two side plates. The textile scrap recycling conveyor belt is rotatably sleeved on the surface of the two transmission rollers, and a motor is installed at one end of one of the transmission rollers. The motor is installed on the outside of one end of the side plate.

[0016] Furthermore, the connecting plate is inclined downward and spaced on both sides of the recycling box. The recycling box is a rectangular box structure and is vertically arranged. Its length is not less than the width of the textile scrap recycling conveyor belt. The recycling box is spaced at the bottom end of one end of the textile scrap recycling conveyor belt, and snap-fit ​​holes are opened at the top ends of both ends.

[0017] Furthermore, the outer end of the connecting plate has a guide hole, through which the positioning post slides horizontally, and its inner end is inserted into the snap-fit ​​hole.

[0018] Furthermore, a first connecting hole is formed in the middle of the surface of the connecting plate, and second connecting holes are formed at both ends of the scraper strip. The second connecting hole is a threaded hole structure. The bolt slides horizontally through the first connecting hole and its inner end rotates to insert into the second connecting hole.

[0019] Furthermore, the gap between the scraping strips is located above the recycling bin and installed diagonally below one end of the textile scrap recycling conveyor belt, with a length not less than the width of the textile scrap recycling conveyor belt, and the scraping strips are horizontally positioned.

[0020] Furthermore, the lifting and compression mechanism includes:

[0021] An electric push rod is vertically installed above the recycling bin. A baffle is fixed to the top of the side plate, and a mounting bracket is fixed to one end of the top of the baffle. The electric push rod is vertically fixed to the outer end of the mounting bracket.

[0022] A first compression rod is fixedly installed at the telescopic bottom end of the electric push rod, and the first compression rod is horizontally positioned above the recycling bin;

[0023] A second compression rod is rotatably installed inside the first compression rod. A connecting sleeve is fixed to the outer end of the second compression rod, and the connecting sleeve is rotatably sleeved on the surface of the first compression rod.

[0024] Furthermore, the mounting bracket has a V-shaped structure and is horizontally arranged. A limiting groove is opened at the lower oblique angle on the surface of the first compression rod. The length of the limiting groove is less than one-quarter of the circumference of the first compression rod. The connecting sleeve is fitted onto the outside of the limiting groove. A third connecting hole is opened on its surface at the position outside the limiting groove. The third connecting hole is a threaded hole structure. The second compression rod is inclined downward. A connecting post is fixed at its top end. The connecting post is threaded and rotates through the third connecting hole. Its inner end slides and engages with the limiting groove. The second compression rod is inclined at the outer end of the textile scrap recycling conveyor belt and is located directly above the recycling box.

[0025] The textile scrap recycling device proposed in this utility model has the following advantages:

[0026] 1. This utility model uses a textile scrap recycling conveyor belt to transport textile scraps and automatically collect them into a recycling bin. The recycling bin is detachably and positioned at one end of the textile scrap recycling conveyor belt via a connecting plate and positioning post, facilitating automatic transport and recycling of textile scraps. Furthermore, a scraping strip is installed via the connecting plate and bolts to scrape the surface of the textile scrap recycling conveyor belt, preventing textile scraps from adhering to or even becoming entangled inside the conveyor belt and affecting its use.

[0027] 2. This utility model uses a baffle and mounting bracket to install an electric push rod. The electric push rod drives a first compression rod and a second compression rod, which are positioned above the recycling bin. The second compression rod is rotatably and tiltably mounted on top of the first compression rod via a connecting column and a connecting sleeve. As textile scraps are collected and accumulate inside the recycling bin, the electric push rod drives the first compression rod to extend and retract, causing the first compression rod to lower the second compression rod. Both the first and second compression rods horizontally compress the textile scraps inside the recycling bin. Afterward, the electric push rod drives the first and second compression rods to rise above the recycling bin. The second compression rod is rotatably connected to the surface of the first compression rod via a connecting sleeve, and is locked in place by a limit switch between the inner end of the connecting column and the limit switch, so that the second compression rod is tilted downward, preventing it from obstructing the textile scraps from falling into the recycling bin. Therefore, the textile scraps inside the recycling bin can be compressed and compacted, reducing the bulkiness of the textile scraps and increasing the recycling bin's capacity for collecting textile scraps. Attached Figure Description

[0028] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0029] Figure 2 This utility model Figure 1 Schematic diagram of the connecting plate and side plate;

[0030] Figure 3 This utility model Figure 1 A schematic diagram of the recycling bin section;

[0031] Figure 4 This utility model Figure 1 A schematic diagram of the scraper strip section;

[0032] Figure 5 This utility model Figure 1 A schematic diagram of the electric push rod and the first compression rod;

[0033] Figure 6 This utility model Figure 1 A schematic diagram of the connecting sleeve part;

[0034] Figure 7 This utility model Figure 1 A schematic diagram of the second compression rod section.

[0035] In the diagram: 1. Side plate; 2. Support frame; 3. Motor; 4. Baffle; 5. Textile scrap recycling conveyor belt; 6. Mounting frame; 7. Electric push rod; 8. Connecting plate; 9. Bolt; 10. Limiting plate; 11. Tension spring; 12. Positioning post; 13. Recycling box; 14. Scraper strip; 15. Second compression rod; 16. First compression rod; 17. Connecting sleeve; 18. Drive roller; 19. First connecting hole; 20. Guide hole; 21. Snap-fit ​​hole; 22. Second connecting hole; 23. Limiting groove; 24. Third connecting hole; 25. Connecting post. Detailed Implementation

[0036] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.

[0037] Example 1

[0038] Please see Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 5 , Figure 6 and Figure 7 The illustrated textile scrap recycling device includes side plates 1, a textile scrap recycling conveyor belt 5 rotatably mounted between the two side plates 1, a recycling box 13 mounted at one end of the textile scrap recycling conveyor belt 5, a snap-fit ​​positioning mechanism between the recycling box 13 and the side plates 1, a scraping anti-adhesion mechanism at one end of the textile scrap recycling conveyor belt 5 and above the recycling box 13, and a lifting and compression mechanism mounted above the recycling box 13.

[0039] The snap-fit ​​positioning mechanism includes: a connecting plate 8 fixed to one end of the side plate 1, the outer end of the connecting plate 8 slidingly passing through a positioning post 12, and the inner end of the positioning post 12 snapping into the top of both sides of the recycling bin 13.

[0040] A tension spring 11 is sleeved on the surface of the positioning post 12. The outer end of the positioning post 12 is fixed with a limiting plate 10. The two ends of the tension spring 11 are connected to the outer side of the connecting plate 8 and the inner side of the limiting plate 10, respectively.

[0041] A support frame 2 is fixed between the bottom ends of the two side plates 1. A transmission roller 18 is rotatably installed between the two ends of the two side plates 1. The textile scrap recycling conveyor belt 5 is rotatably sleeved on the surface of the two transmission rollers 18. A motor 3 is installed at one end of one transmission roller 18. The motor 3 is installed on the outside of one end of the side plate 1.

[0042] The connecting plate 8 is inclined downward and is spaced on both sides of the recycling box 13. The recycling box 13 is a rectangular box structure and is vertically set. Its length is not less than the width of the textile scrap recycling conveyor belt 5. The recycling box 13 is spaced at the bottom of one end of the textile scrap recycling conveyor belt 5, and its top ends are provided with snap-fit ​​holes 21.

[0043] The outer end of the connecting plate 8 has a guide hole 20, and the positioning post 12 slides horizontally through the guide hole 20, with its inner end inserted into the snap-fit ​​hole 21.

[0044] A textile scrap recycling conveyor belt 5 is installed on the inner side of the side plate 1. The textile scrap is transported by the rotation of the textile scrap recycling conveyor belt 5 driven by the motor 3 and the transmission roller 18. The textile scrap is automatically recycled into the recycling box 13. The recycling box 13 is detachably positioned at one end of the textile scrap recycling conveyor belt 5 by the connecting plate 8 and the positioning column 12, which facilitates the automatic transmission and recycling of textile scrap.

[0045] Example 2

[0046] Please see Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 5 , Figure 6 and Figure 7 The illustrated textile scrap recycling device includes side plates 1, a textile scrap recycling conveyor belt 5 rotatably mounted between the two side plates 1, a recycling box 13 mounted at one end of the textile scrap recycling conveyor belt 5, a snap-fit ​​positioning mechanism between the recycling box 13 and the side plates 1, a scraping anti-adhesion mechanism at one end of the textile scrap recycling conveyor belt 5 and above the recycling box 13, and a lifting and compression mechanism mounted above the recycling box 13.

[0047] The scraping anti-adhesion mechanism includes: a scraping strip 14 installed between two connecting plates 8, with bolts 9 connecting both ends of the scraping strip 14 to the connecting plates 8.

[0048] The connecting plate 8 has a first connecting hole 19 in the middle of its surface, and the scraper strip 14 has a second connecting hole 22 at both ends. The second connecting hole 22 is a threaded hole structure. The bolt 9 slides horizontally through the first connecting hole 19 and its inner end rotates to insert into the second connecting hole 22.

[0049] The scraper strip 14 is positioned above the recycling bin 13 and installed diagonally below one end of the textile scrap recycling conveyor belt 5. Its length is not less than the width of the textile scrap recycling conveyor belt 5, and the scraper strip 14 is horizontally positioned.

[0050] The scraping strip 14 is installed by connecting plate 8 and bolt 9. The scraping strip 14 scrapes the surface of textile scrap recycling conveyor belt 5 to prevent textile scraps from adhering to or even getting tangled inside the textile scrap recycling conveyor belt 5 and affecting its use.

[0051] Example 3

[0052] Please see Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 5 , Figure 6 and Figure 7 The illustrated textile scrap recycling device includes side plates 1, a textile scrap recycling conveyor belt 5 rotatably mounted between the two side plates 1, a recycling box 13 mounted at one end of the textile scrap recycling conveyor belt 5, a snap-fit ​​positioning mechanism between the recycling box 13 and the side plates 1, a scraping anti-adhesion mechanism at one end of the textile scrap recycling conveyor belt 5 and above the recycling box 13, and a lifting and compression mechanism mounted above the recycling box 13.

[0053] The lifting and compression mechanism includes: an electric push rod 7 vertically installed above the recycling bin 13; a baffle 4 fixed to the top of the side plate 1; a mounting bracket 6 fixed to one end of the top of the baffle 4; and the electric push rod 7 vertically fixed to the outer end of the mounting bracket 6.

[0054] A first compression rod 16 is fixedly installed at the telescopic bottom end of the electric push rod 7, and the first compression rod 16 is horizontally positioned above the recycling bin 13;

[0055] A second compression rod 15 is rotatably installed inside the first compression rod 16. A connecting sleeve 17 is fixed to the outer end of the second compression rod 15, and the connecting sleeve 17 is rotatably sleeved on the surface of the first compression rod 16.

[0056] As textile scraps are collected and accumulated inside the recycling bin 13, the electric push rod 7 drives the first compression rod 16 to extend and retract, and the first compression rod 16 drives the second compression rod 15 to descend. Both the first compression rod 16 and the second compression rod 15 horizontally compress the textile scraps inside the recycling bin 13.

[0057] The mounting bracket 6 has a V-shaped structure and is horizontally set. A limiting groove 23 is opened on the lower part of the surface of the first compression rod 16. The length of the limiting groove 23 is less than one-quarter of the circumference of the first compression rod 16. The connecting sleeve 17 is sleeved on the outside of the limiting groove 23. A third connecting hole 24 is opened on its surface and at the position outside the limiting groove 23. The third connecting hole 24 is a threaded hole structure.

[0058] The second compression rod 15 is inclined downward, and a connecting post 25 is fixed at its top. The connecting post 25 is threaded through the third connecting hole 24, and its inner end is slidably inserted into the limiting groove 23. The second compression rod 15 is inclined at the outer end of the textile scrap recycling conveyor belt 5 and is located directly above the recycling box 13.

[0059] Then, the electric push rod 7 drives the first compression rod 16 and the second compression rod 15 to rise above the recycling box 13. The second compression rod 15 is rotatably connected to the surface of the first compression rod 16 through the connecting sleeve 17, and is locked and limited by the inner end of the connecting post 25 and the limiting groove 23, so that the second compression rod 15 is in a downward tilted state to avoid blocking the textile scraps from falling into the recycling box 13.

[0060] Therefore, the electric push rod 7 drives the first compression rod 16 and the second compression rod 15 to move up and down repeatedly, which can compress and compact the textile scraps inside the recycling box 13, reduce the bulkiness of the textile scraps and the space occupied, and increase the recycling capacity of the recycling box 13.

[0061] Working method: A textile scrap recycling conveyor belt 5 is set on the inner side of the side plate 1. The textile scrap is transported by the rotation of the textile scrap recycling conveyor belt 5 driven by the motor 3 and the transmission roller 18. The textile scrap is automatically recycled into the recycling box 13. The recycling box 13 is detachably positioned at one end of the textile scrap recycling conveyor belt 5 through the connecting plate 8 and the positioning column 12, which facilitates the automatic transmission and recycling of textile scrap.

[0062] Furthermore, a scraper strip 14 is installed by connecting plate 8 and bolt 9. The scraper strip 14 scrapes the surface of textile scrap recycling conveyor belt 5 to prevent textile scraps from adhering to or even getting tangled inside the textile scrap recycling conveyor belt 5 and affecting its use.

[0063] An electric push rod 7 is installed through a baffle 4 and a mounting bracket 6. The electric push rod 7 drives the first compression rod 16 and the second compression rod 15 to be positioned above the recycling box 13. The second compression rod 15 is rotatably and tiltably installed on the top of the first compression rod 16 through a connecting column 25 and a connecting sleeve 17.

[0064] As textile scraps are collected and accumulated inside the recycling bin 13, the electric push rod 7 drives the first compression rod 16 to extend and retract, and the first compression rod 16 drives the second compression rod 15 to descend. Both the first compression rod 16 and the second compression rod 15 horizontally compress the textile scraps inside the recycling bin 13.

[0065] Then, the electric push rod 7 drives the first compression rod 16 and the second compression rod 15 to rise above the recycling box 13. The second compression rod 15 is rotatably connected to the surface of the first compression rod 16 through the connecting sleeve 17, and is locked and limited by the inner end of the connecting post 25 and the limiting groove 23, so that the second compression rod 15 is in a downward tilted state to avoid blocking the textile scraps from falling into the recycling box 13.

[0066] Therefore, the electric push rod 7 drives the first compression rod 16 and the second compression rod 15 to move up and down repeatedly, which can compress and compact the textile scraps inside the recycling box 13, reduce the bulkiness of the textile scraps and the space occupied, and increase the recycling capacity of the recycling box 13.

[0067] The above are merely preferred embodiments of this utility model, but the scope of protection of this utility model is not limited thereto. Any equivalent substitutions or modifications made by those skilled in the art within the scope of the technology disclosed in this utility model, based on the technical solution and inventive concept of this utility model, should be included within the scope of protection of this utility model.

Claims

1. A textile scrap recycling device, comprising a side plate (1), characterized in that: A textile scrap recycling conveyor belt (5) is rotatably installed between the two side plates (1). A recycling box (13) is installed at one end of the textile scrap recycling conveyor belt (5). A snap-fit ​​positioning mechanism is provided between the recycling box (13) and the side plate (1). A scraping anti-adhesion mechanism is provided at one end of the textile scrap recycling conveyor belt (5) and above the recycling box (13). A lifting and compression mechanism is installed above the recycling box (13). The snap-fit ​​positioning mechanism includes: A connecting plate (8) is fixed at one end of the side plate (1). The outer end of the connecting plate (8) slides through a positioning post (12). The inner end of the positioning post (12) is engaged with the top of both sides of the recycling bin (13). A tension spring (11) is sleeved on the surface of the positioning post (12). A limiting plate (10) is fixed to the outer end of the positioning post (12). The two ends of the tension spring (11) are respectively connected to the outer side of the connecting plate (8) and the inner side of the limiting plate (10). The scraping anti-adhesion mechanism includes: A scraper strip (14) is installed between the two connecting plates (8), and bolts (9) are connected to the connecting plates (8) at both ends of the scraper strip (14).

2. The textile scrap recycling device according to claim 1, characterized in that: A support frame (2) is fixed between the bottom ends of the two side plates (1), and a transmission roller (18) is rotatably installed between the two ends of the two side plates (1). The textile scrap recycling conveyor belt (5) is rotatably sleeved on the surface of the two transmission rollers (18). A motor (3) is installed at one end of one of the transmission rollers (18), and the motor (3) is installed on the outside of one end of the side plate (1).

3. The textile scrap recycling device according to claim 1, characterized in that: The connecting plate (8) is inclined downward and spaced on both sides of the recycling box (13). The recycling box (13) is a rectangular box structure and is vertically arranged. Its length is not less than the width of the textile scrap recycling conveyor belt (5). The recycling box (13) is spaced at the bottom end of one end of the textile scrap recycling conveyor belt (5), and its two ends have snap-fit ​​holes (21).

4. A textile scrap recycling device according to claim 3, characterized in that: The outer end of the connecting plate (8) has a guide hole (20), and the positioning post (12) slides horizontally through the guide hole (20), with its inner end inserted into the snap-fit ​​hole (21).

5. A textile scrap recycling device according to claim 1, characterized in that: The connecting plate (8) has a first connecting hole (19) in the middle of its surface, and the scraper strip (14) has a second connecting hole (22) at both ends. The second connecting hole (22) is a threaded hole structure. The bolt (9) slides horizontally through the first connecting hole (19) and its inner end rotates into the second connecting hole (22).

6. A textile scrap recycling device according to claim 5, characterized in that: The scraping strip (14) is positioned above the recycling bin (13) and installed diagonally below one end of the textile scrap recycling conveyor belt (5). Its length is not less than the width of the textile scrap recycling conveyor belt (5), and the scraping strip (14) is horizontally positioned.

7. A textile scrap recycling device according to claim 1, characterized in that: The lifting and compression mechanism includes: An electric push rod (7) is vertically installed above the recycling bin (13). A baffle (4) is fixed to the top of the side plate (1). A mounting bracket (6) is fixed to one end of the top of the baffle (4). The electric push rod (7) is vertically fixed to the outer end of the mounting bracket (6). A first compression rod (16) is fixedly installed at the telescopic bottom end of the electric push rod (7), and the first compression rod (16) is horizontally positioned above the recycling bin (13); A second compression rod (15) is rotatably installed inside the first compression rod (16). A connecting sleeve (17) is fixed to the outer end of the second compression rod (15), and the connecting sleeve (17) is rotatably sleeved on the surface of the first compression rod (16).

8. A textile scrap recycling device according to claim 7, characterized in that: The mounting bracket (6) has a V-shaped structure and is horizontally arranged. A limiting groove (23) is opened on the lower surface of the first compression rod (16). The length of the limiting groove (23) is less than one-quarter of the circumference of the first compression rod (16). The connecting sleeve (17) is sleeved on the outside of the limiting groove (23). A third connecting hole (24) is opened on its surface and at the position outside the limiting groove (23). The third connecting hole (24) is a threaded hole structure. The second compression rod (15) is inclined downward. A connecting post (25) is fixed at its top. The connecting post (25) is threaded through the third connecting hole (24). Its inner end is slidably inserted into the limiting groove (23). The second compression rod (15) is inclined at the outer end of the textile scrap recycling conveyor belt (5) and is located directly above the recycling box (13).