Textile waste recycling and compressing device

Abstract

The utility model discloses a kind of textile waste recovery compression devices, belong to textile waste recovery compression technical field;Including waste barrel;Waste barrel is arranged in the lower part of one side of support, auxiliary sleeve is equipped in the upper end of waste barrel, rotatable electric control push rod is equipped in the upper of waste barrel, electric control push rod is connected with waste barrel by separable connecting mechanism, the upper side of other side of support is equipped with crushing mechanism, the lower end of crushing mechanism is connected with the end of conveying mechanism above auxiliary sleeve, waste barrel includes barrel body, barrel cover, the upper end inner wall of barrel body is provided with several clamping blocks around equiangular, the periphery of barrel cover is provided with the clamping groove corresponding with clamping block around equiangular;Crushing mechanism can crush waste, then is transported to barrel body and auxiliary sleeve by conveying mechanism, then elongate electric control push rod and then rotate, make clamping block into clamping groove can make waste remain in waste barrel, then reverse electric control push rod can make connecting mechanism separate, to be able to take out waste barrel.

Description

Technical Field

[0001] This utility model provides a textile waste recycling and compression device, belonging to the field of textile waste recycling and compression technology. Background Technology

[0002] Textiles are materials made from natural fibers such as cotton, linen, wool, and silk, or man-made fibers such as polyester, nylon, and viscose, through spinning, weaving, or other processes. They are widely used in clothing, home decoration, and other fields. They not only meet people's basic needs in daily life, such as warmth, comfort, and aesthetics, but also reflect the artistic styles and technological achievements of different cultural backgrounds. With the advancement of technology, textiles are constantly innovating, and products with special functions, such as waterproofing and fireproofing, have emerged. At the same time, environmental protection and sustainable development have also become important directions for the industry's development. Whether it is traditional handicrafts or modern high-tech fabrics, textiles play an important role in improving the quality of life, promoting economic development, and preserving culture.

[0003] Textiles generate waste at every stage of production, use, and disposal. Uncompressed textile waste is fluffy and takes up a lot of space. Furthermore, fluffy textile waste is easily blown away by the wind, causing environmental pollution. Therefore, it needs to be compressed. However, after compression, the waste usually springs back when no force is applied. Therefore, in order to close the waste bin lid, workers will remove the part of the waste that protrudes from the top of the waste bin, thus reducing the capacity of the waste bin. Utility Model Content

[0004] The technical problem this invention aims to solve is that, currently, when compressing waste materials, the compressed waste materials tend to spring back, requiring some of the waste materials to be removed before the lid can be closed.

[0005] To solve the above problems, the proposed technical solution is as follows: a textile waste recycling and compression device, including a waste bin; the waste bin is set on the lower part of one side of a support, the support is provided with an auxiliary sleeve at the upper end of the waste bin, and a rotatable electrically controlled push rod is provided above the waste bin. The electrically controlled push rod is connected to the waste bin through a separable connecting mechanism. A crushing mechanism is provided on the upper side of the other side of the support, and the lower end of the crushing mechanism is connected to a conveying mechanism located above the auxiliary sleeve. The waste bin includes a bin body and a bin lid. Several locking blocks are provided at equal angles around the upper inner wall of the bin body, and locking grooves corresponding to the locking blocks are provided at equal angles around the bin lid.

[0006] As an improvement, the support includes a base plate, support rods at the four corners of the upper part of the base plate, a top plate at the upper end of the support rods, and an arc-shaped plate at the upper end of the base plate to fix the position of the barrel.

[0007] As an improvement, the upper part of the auxiliary sleeve gradually expands, and several connecting rods connecting to the lower end of the top plate are provided at equal angles at the upper end;

[0008] As an improvement, the connecting mechanism includes a connecting block set at an equal angle at the lower end of the electric control push rod, a connecting sleeve set at the middle of the upper end of the bucket lid, a connecting groove set at an equal angle inside the connecting sleeve and corresponding to the connecting block, a rotating platform set at the upper end of the electric control push rod, and control rods set around the rotating platform.

[0009] As an improvement, the crushing mechanism includes a crushing barrel set on the top plate with an opening at the top and gradually narrowing at the bottom, a stepper motor set above the crushing barrel with its output shaft passing through the top of the crushing barrel, several crushing blades set on the output shaft of the stepper motor, and support rods at the four corners of the lower end of the crushing barrel.

[0010] As an improvement, the conveying mechanism includes a material pipe connected to the lower end of the crushing barrel, a second stepper motor set at one end of the material pipe, and auger blades set on the output shaft of the second stepper motor. The ends of the material pipe and the auger blades are flush.

[0011] The beneficial effects of this utility model are:

[0012] By setting up a crushing mechanism, the waste material can be crushed and then conveyed to the barrel body and auxiliary sleeve by a conveying mechanism. The auxiliary sleeve contains a large amount of waste material. Then, by extending the electric control push rod, the barrel lid can be lowered, pressing the material in the auxiliary sleeve into the waste barrel. This way, a large amount of waste material is pressed in, and the waste material will not bounce back. Then, by rotating the electric control push rod, the locking block can be engaged in the locking slot, so that the waste material can be left in the waste barrel. Then, reversing the electric control push rod can separate the connecting mechanism, thereby allowing the waste barrel to be removed. Attached Figure Description

[0013] Figure 1 This is a schematic diagram of the structure of a textile waste recycling and compression device according to the present invention.

[0014] Figure 2 This is a schematic diagram of the waste bin of a textile waste recycling and compression device according to the present invention.

[0015] Figure 3 This is a schematic diagram of the connection mechanism of a textile waste recycling and compression device according to the present invention.

[0016] Figure 4 This is a schematic diagram of the crushing mechanism of a textile waste recycling and compression device according to this utility model.

[0017] Figure 5 This is a schematic diagram of the conveying mechanism of a textile waste recycling and compression device according to the present invention.

[0018] 1. Waste bin; 101. Bin body; 102. Bin lid; 103. Locking block; 104. Locking groove; 2. Support; 201. Arc plate; 3. Auxiliary sleeve; 301. Connecting rod; 4. Electrically controlled push rod; 5. Connecting mechanism; 501. Connecting block; 502. Connecting sleeve; 503. Connecting groove; 504. Rotating table; 505. Control rod; 6. Crushing mechanism; 601. Opening; 602. Crushing bin; 603. Stepper motor one; 604. Crushing blade; 605. Support rod; 7. Conveying mechanism; 701. Material pipe; 702. Stepper motor two; 703. Screwdriver blade. Detailed Implementation

[0019] The present invention will be further described below with reference to the accompanying drawings.

[0020] according to Figure 1 —5 shows: This utility model provides a textile waste recycling and compression device: including a waste bin 1; the waste bin 1 includes a bin body 101 and a bin cover 102. The upper inner wall of the bin body 101 is provided with a plurality of locking blocks 103 at equal angles around its perimeter, and the bin cover 102 is provided with locking grooves 104 at equal angles around its perimeter corresponding to the locking blocks 103; thus, by rotating the bin cover 102, the position of the bin cover 102 can be fixed.

[0021] according to Figure 1 As shown: Waste bin 1 is set on the lower side of support 2; support 2 includes a base plate, support rods set at the four corners of the upper part of the base plate, and a top plate set at the upper part of the support rods. The upper part of the base plate is provided with an arc plate 201 to fix the position of the bin body 101; the design of the arc plate 201 makes it convenient for workers to place waste bin 1, and the position after placement is accurate.

[0022] according to Figure 1 As shown: The support 2 is located at the upper end of the waste bin 1 and is equipped with an auxiliary sleeve 3; the upper part of the auxiliary sleeve 3 gradually expands, and the upper end is provided with several connecting rods 301 that connect to the lower end of the top plate at equal angles; in this way, when the waste is placed into the bin body 101, there can also be a certain amount of waste inside the auxiliary sleeve 3.

[0023] according to Figure 1 , 2As shown in Figure 3: A rotatable electrically controlled push rod 4 is located above the waste bin 1; the electrically controlled push rod 4 is connected to the waste bin 1 via a separable connecting mechanism 5; the connecting mechanism 5 includes a connecting block 501 set at an equal angle at the lower end of the electrically controlled push rod 4, a connecting sleeve 502 set at the middle of the upper end of the bin cover 102, a connecting groove 503 set at an equal angle inside the connecting sleeve 502 and corresponding to the connecting block 501, a rotating platform 504 set at the upper end of the electrically controlled push rod 4, and control rods 505 set around the rotating platform 504; the slot 104 and the connecting groove 503 can be designed as follows: The L-shaped or T-shaped design allows the lid 102 to descend by extending the electric push rod 4, pushing the waste material in the auxiliary sleeve 3 into the barrel 101 for compression. Then, the control rod 505 drives the rotating table 504 and the electric push rod 4 to rotate, causing the slot 104 to be locked by the locking block 103, thus fixing the position of the lid 102. Next, reversing the electric push rod 4 allows the connecting block 501 to move within the connecting groove 503. Then, retracting the electric push rod 4 allows the connecting block 501 to disengage from the connecting groove 503, making it easy to remove the waste barrel 1.

[0024] according to Figure 1 , 4 As shown: A crushing mechanism 6 is provided on the other side of the support 2; the crushing mechanism 6 includes a crushing barrel 602 set on the top plate with an opening 601 at the top and gradually narrowing at the bottom, a stepper motor 603 set above the crushing barrel 602 with its output shaft passing through the upper end of the crushing barrel 602, a number of crushing blades 604 set on the output shaft of the stepper motor 603, and support rods 605 at the four corners of the lower end of the crushing barrel 602; in this way, by starting the stepper motor 603, the number of crushing blades 604 can be driven to rotate, and when waste is poured into the crushing barrel 602 from the opening 601, the waste will be crushed by the crushing blades 604.

[0025] according to Figure 1 , 5 As shown: The lower end of the crushing mechanism 6 is connected to the conveying mechanism 7, which is located above the auxiliary sleeve 3. The conveying mechanism 7 includes a material pipe 701 that connects to the lower end of the crushing barrel 602, a stepper motor 702 at one end of the material pipe 701, and an auger blade 703 on the output shaft of the stepper motor 702. The ends of the material pipe 701 and the auger blade 703 are flush. In this way, by starting the stepper motor 702, the auger blade 703 can be driven to rotate. When the waste is crushed, it will fall into the material pipe 701, be moved by the auger blade 703, and finally fall into the barrel body 101 and the auxiliary sleeve 3.

[0026] The principle of this utility model is as follows: In use, firstly, stepper motor 603 and stepper motor 702 are started. Stepper motor 603 drives several crushing blades 604 to rotate, and stepper motor 702 drives the auger blades 703 to rotate. After preventing waste from being poured into the crushing barrel 602 through the opening 601, the waste is crushed by the crushing blades 604. The crushed waste falls into the feed pipe 701 and is moved by the auger blades 703, eventually falling into the barrel body 101 and auxiliary sleeve 3. When the barrel body 101 and auxiliary sleeve 3 are filled with waste, the barrel body 101 is shaken to ensure it is full. After the barrel body 101 and auxiliary sleeve 3 are filled with waste, stepper motor 702 is turned off, and then the electrically controlled push rod 4 is extended. This will cause the lid 102 to fall, thereby pushing the waste material in the auxiliary sleeve 3 into the barrel body 101 for compression. Then, the control rod 505 drives the rotating table 504 and the electric push rod 4 to rotate, so that the slot 104 is locked by the locking block 103, thus fixing the position of the lid 102. Then, the electric push rod 4 is reversed, causing the connecting block 501 to move in the connecting groove 503. Then, the electric push rod 4 is retracted, so that the connecting block 501 is disengaged from the connecting groove 503. Then, the waste barrel 1 is removed, so that the waste barrel 1 is filled with waste material. Then, a barrel body 101 is placed on the bottom plate through the arc plate 201, and a lid 102 is connected to the electric push rod 4 through the connecting mechanism 5 to continue recycling and compression.

[0027] The present invention and its embodiments have been described above. This description is not restrictive, and the accompanying drawings are only one embodiment of the present invention; the actual structure is not limited thereto. In conclusion, if those skilled in the art are inspired by this description and design similar structures and embodiments without departing from the inventive spirit of the present invention, such designs should fall within the protection scope of the present invention.

Claims

1. A textile waste recycling and compression device, comprising a waste bin (1); characterized in that: The waste bin (1) is located on the lower part of one side of the support (2). The support (2) is provided with an auxiliary sleeve (3) at the upper end of the waste bin (1) and an electrically controlled push rod (4) that can rotate is provided above the waste bin (1). The electrically controlled push rod (4) is connected to the waste bin (1) through a separable connecting mechanism (5). A crushing mechanism (6) is provided on the upper side of the other side of the support (2). The lower end of the crushing mechanism (6) is connected to a conveying mechanism (7) located above the auxiliary sleeve (3). The waste bin (1) includes a body (101) and a lid (102). Several locking blocks (103) are provided at equal angles around the upper inner wall of the body (101). The lid (102) is provided with locking grooves (104) corresponding to the locking blocks (103) at equal angles around its perimeter.

2. The textile waste recycling and compression device according to claim 1, characterized in that: The bracket (2) includes a base plate, support rods at the four corners of the upper part of the base plate, and a top plate at the upper end of the support rods. The upper end of the base plate is provided with an arc plate (201) for fixing the position of the barrel body (101).

3. The textile waste recycling and compression device according to claim 2, characterized in that: The upper part of the auxiliary sleeve (3) gradually expands, and several connecting rods (301) connecting the lower end of the top plate are provided at equal angles at the upper end.

4. The textile waste recycling and compression device according to claim 1, characterized in that: The connecting mechanism (5) includes a connecting block (501) set at an equal angle at the lower end of the electric push rod (4), a connecting sleeve (502) set at the middle of the upper end of the bucket cover (102), a connecting groove (503) set at an equal angle inside the connecting sleeve (502) and corresponding to the connecting block (501), a rotating platform (504) set at the upper end of the electric push rod (4), and control rods (505) set around the rotating platform (504).

5. The textile waste recycling and compression device according to claim 2, characterized in that: The crushing mechanism (6) includes a crushing barrel (602) set on the top plate with an opening (601) at the top and gradually narrowing at the bottom, a stepper motor (603) set above the crushing barrel (602) with its output shaft passing through the top of the crushing barrel (602), a plurality of crushing blades (604) set on the output shaft of the stepper motor (603), and support rods (605) provided at the four corners of the lower end of the crushing barrel (602).

6. The textile waste recycling and compression device according to claim 5, characterized in that: The conveying mechanism (7) includes a material pipe (701) connected to the lower end of the crushing barrel (602), a stepper motor (702) set at one end of the material pipe (701), and an auger blade (703) set on the output shaft of the stepper motor (702). The ends of the material pipe (701) and the auger blade (703) are flush.

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