A new type of glass fiber waste silk processing equipment

CN224444075UActive Publication Date: 2026-07-03JIANGSU XINHONGYUN FILTER MATERIAL CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGSU XINHONGYUN FILTER MATERIAL CO LTD
Filing Date
2025-05-27
Publication Date
2026-07-03

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Abstract

This utility model discloses a novel glass fiber waste filament processing equipment, relating to the field of glass fiber treatment technology. It includes a crushing box, a pressing box fixedly mounted on one side of the crushing box, a pressure plate at the top inside the pressing box, a collection box slidably mounted at the bottom of the pressing box, a discharge port in the middle of one side of the crushing box, a sealing plate slidably mounted between the discharge port and the pressing box, a support plate fixedly mounted on the top of one side of the crushing box, two symmetrically arranged insert rods below the support plate, a support block fixedly mounted in the middle of the top of the sealing plate, and insertion holes for insertion and engagement with the insert rods on both sides of the support block. The beneficial effects of this utility model are: it effectively avoids interference with the pressure plate during the pressing process of glass fiber waste filaments, prevents waste filaments from seeping into the pressure plate, ensures the stable operation of the pressure plate, and enables efficient compression processing of the glass fiber waste filaments, avoiding any adverse factors to subsequent processing procedures.
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Description

Technical Field

[0001] This utility model relates to a processing equipment, and more particularly to a novel glass fiber waste filament processing equipment, belonging to the field of glass fiber processing technology. Background Technology

[0002] my country is the world's largest producer of fiberglass, but the resulting waste fiber problem is unavoidable. Every year, a large amount of waste fiberglass is generated. The composition of this waste fiberglass is the same as that of the finished fiberglass product; it belongs to the silicate material category of inorganic non-metallic materials and is non-biodegradable in nature. Waste fiberglass can be disposed of through deep burial or by crushing and recycling.

[0003] The invention disclosed in application number "202022349750.3" is titled "A Glass Fiber Waste Processing Equipment," which "includes a crushing box and a compaction box. The compaction box is located on one side below the crushing box, with a feed inlet on the crushing box and a discharge outlet on one side of the compaction box. The crushing box and the compaction box are internally connected. The crushing box is equipped with a guide assembly and a crushing assembly. The guide assembly is located inside the crushing box, and the crushing assembly is located in the middle of the crushing box. A compaction assembly is located above the compaction box, with its working end located inside the compaction box." This invention solves the problem of large volume of crushed glass fiber waste, which is inconvenient for subsequent processing; and improves the crushing efficiency of glass fiber waste by the coordinated operation of various components.

[0004] However, the above method still has the following drawbacks: While the compaction components within the compaction chamber effectively compress the volume of waste glass fiber, facilitating subsequent processing, in actual operation, as the compaction plate moves up and down, the waste glass fiber from the crushing chamber often seeps into the top of the compaction plate. This not only hinders the normal operation of the compaction plate but also interferes with the effective compression of the waste glass fiber, thus adversely affecting subsequent processing. Utility Model Content

[0005] The purpose of this invention is to provide a novel glass fiber waste filament processing equipment to solve the problem mentioned in the background art, in actual operation, where glass fibers easily seep into the compaction plate during movement, hindering the normal operation of the equipment and the effective compression of glass fiber waste filaments, thus affecting subsequent processing.

[0006] To achieve the above objectives, this utility model provides the following technical solution: A novel glass fiber waste filament processing equipment includes a crushing box, a pressing box fixedly provided on one side of the crushing box, a pressure plate provided at the top inside the pressing box, a collection box slidably provided at the bottom of the pressing box, a discharge port opened in the middle of one side of the crushing box, a sealing plate slidably provided between the discharge port and the pressing box, a support plate fixedly provided at the top of one side of the crushing box, two insert rods symmetrically provided below the support plate, a support block fixedly provided in the middle of the top of the sealing plate, and insertion holes for insertion and cooperation with the insert rods opened on both sides of the support block, an adjustment component for adjusting the insert rods provided inside the support plate, and two limiting rods inserted into one side of the top of the collection box.

[0007] As a preferred embodiment of this utility model, a motor is fixedly installed at the center of the top of the crushing box, the output shaft of the motor passes through the crushing box and is fixedly installed with a rotating rod, and a number of evenly spaced crushing blades are fixedly installed on the surface of the rotating rod.

[0008] As a preferred embodiment of the present invention, a feed hopper is fixedly provided on one side of the top of the crushing box, and a cover plate is hinged to the top of the feed hopper via two hinges, and a handle is fixedly provided on the top of the cover plate.

[0009] As a preferred embodiment of this utility model, a handle is fixedly provided in the middle of one side of the collection box, and handles are fixedly provided on both sides of the top of the sealing plate.

[0010] As a preferred technical solution of this utility model, the adjusting component includes a lead screw, which is rotatably disposed inside the support plate. The threads at both ends of the lead screw have opposite directions. Both ends of the lead screw are threadedly connected to sliders through lead screw nuts, and the sliders are slidably connected to the support plate. One end of the insert rod is fixedly connected to the bottom of one side of the slider, and one end of the lead screw passes through the support plate and is fixedly provided with a knob.

[0011] As a preferred technical solution of this utility model, an electric push rod is provided above the pressing box, and brackets are fixedly provided at the bottom of both sides of the electric push rod. The bottom end of the bracket is fixedly connected to the top end of the pressing box. Four evenly spaced guide rods are fixedly provided at the top end of the pressure plate, and the top ends of the guide rods penetrate through the pressing box and extend to the top of the pressing box.

[0012] As a preferred technical solution of this utility model, a movable component is provided in the middle of one side of the pressing box. The movable component includes a horizontal plate, which is fixedly installed in the middle of one side of the pressing box. A screw is threadedly connected to the middle of the horizontal plate, and a movable plate is rotatably provided at the bottom end of the screw. The top end of the limiting rod is fixedly connected to the bottom end of the movable plate.

[0013] As a preferred embodiment of this utility model, two support rods are symmetrically slidably provided on the surface of the horizontal plate, and the bottom end of the support rods is fixedly connected to the top end of the moving plate. An adjustment handle is fixedly provided at the top end of the screw.

[0014] Compared with related technologies, the novel glass fiber waste filament processing equipment provided by this utility model has the following beneficial effects:

[0015] 1. By installing sealing plates at the crushing and pressing chambers, interference from glass fiber waste filaments during the pressing process is effectively prevented, preventing waste filaments from seeping above the pressing plate and ensuring stable operation of the pressing plate. This allows for efficient compression of the glass fiber waste filaments, avoiding any adverse effects on subsequent processing. Simultaneously, the adjustable components, insert rods, and supports securely limit the upward movement of the sealing plates, ensuring that the crushed glass fiber waste filaments directly enter the collection box for easy centralized collection.

[0016] 2. With the help of the movable component, the two limit rods can be moved vertically, so that the limit rods and the collection box can be inserted and limited, thereby effectively limiting and fixing the collection box, ensuring that the collection box will not be displaced during use, and thus ensuring that the collection box can collect waste normally and stably. Attached Figure Description

[0017] Figure 1 This is a schematic diagram of the structure of this utility model;

[0018] Figure 2 This is a cross-sectional structural diagram of the crushing box of this utility model;

[0019] Figure 3 This is an exploded structural diagram of the compression box of this utility model;

[0020] Figure 4 This is an exploded structural diagram of the support plate of this utility model;

[0021] Figure 5 This is a schematic diagram of the structure of the collection box of this utility model.

[0022] In the diagram: 1. Crushing box; 2. Pressing box; 3. Pressure plate; 4. Rotating rod; 5. Discharge port; 6. Sealing plate; 7. Support plate; 8. Insert rod; 9. Support block; 10. Collection box; 11. Limiting rod; 12. Moving component; 1201. Horizontal plate; 1202. Screw; 1203. Moving plate; 1204. Support rod; 1205. Adjusting handle; 13. Adjusting component; 1301. Lead screw; 1302. Slider; 1303. Knob; 14. Crushing blade; 15. Motor; 16. Electric push rod; 17. Bracket; 18. Guide rod; 19. Handle; 20. Pull handle; 21. Feed hopper; 22. Cover plate. Detailed Implementation

[0023] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0024] Please see Figure 1-5 This utility model provides a novel glass fiber waste filament processing device, including a crushing box 1, a pressing box 2 fixedly mounted on one side of the crushing box 1, a pressure plate 3 mounted on the top inside the pressing box 2, a collection box 10 slidably mounted on the bottom of the pressing box 2, a discharge port 5 opened in the middle of one side of the crushing box 1, and a sealing plate 6 slidably mounted between the discharge port 5 and the pressing box 2. The sealing plate 6 prevents the pressure plate 3 from being disturbed during the pressing of the glass fiber waste filaments, thus preventing the glass fiber waste filaments from seeping into the pressing box. Above plate 3, the normal operation of pressure plate 3 is ensured, which can effectively compress glass fiber waste and avoid adverse effects on subsequent processing. A support plate 7 is fixedly installed on the top of one side of the crushing box 1. Two insert rods 8 are symmetrically installed below the support plate 7. A support block 9 is fixedly installed in the middle of the top of the sealing plate 6. Insert holes for insertion and cooperation with the insert rods 8 are opened on both sides of the support block 9. An adjustment component 13 for adjusting the insert rods 8 is provided inside the support plate 7. Two limit rods 11 are inserted into one side of the top of the collection box 10.

[0025] The adjusting assembly 13 includes a lead screw 1301, which is rotatably mounted inside the support plate 7. The threads at both ends of the lead screw 1301 turn in opposite directions. Both ends of the lead screw 1301 are threadedly connected to sliders 1302 via lead screw nuts, and the sliders 1302 are slidably connected to the support plate 7. One end of the insertion rod 8 is fixedly connected to the bottom of one side of the slider 1302. One end of the lead screw 1301 passes through the support plate 7 and is fixedly equipped with a knob 1303. The adjusting assembly 13 uses the knob 1303 to drive the lead screw 1301 to rotate, thereby enabling the two sliders 1302 and the two insertion rods 8 to move synchronously in opposite directions. By moving the sealing plate 6, the support block 9 is moved, and combined with the insertion holes on its surface, the sealing plate 6 can be limited.

[0026] A movable component 12 is provided in the middle of one side of the pressing box 2. The movable component 12 includes a horizontal plate 1201, which is fixedly installed in the middle of one side of the pressing box 2. A screw 1202 is threadedly connected to the middle of the horizontal plate 1201, and a movable plate 1203 is rotatably provided at the bottom end of the screw 1202. The top end of the limiting rod 11 is fixedly connected to the bottom end of the movable plate 1203. Two support rods 1204 are symmetrically slidably provided on the surface of the horizontal plate 1201, and the bottom end of the support rod 1204 is fixedly connected to the top end of the movable plate 1203. An adjusting handle 1205 is fixedly provided at the top end of the screw 1202. Through the movable component 12, the screw 1202 is rotated by adjusting the handle 1205, which can drive the movable plate 1203 and the two limiting rods 11 to move in the vertical direction, thereby limiting and fixing the collection box 10 and preventing the collection box 10 from shifting during use, ensuring that the collection box 10 can collect waste normally.

[0027] An electric push rod 16 is provided above the pressing box 2. Supports 17 are fixedly provided at the bottom of both sides of the electric push rod 16, and the bottom end of the support 17 is fixedly connected to the top of the pressing box 2. Four evenly spaced guide rods 18 are fixedly provided at the top of the pressing plate 3, and the top ends of the guide rods 18 pass through the pressing box 2 and extend to the top of the pressing box 2. The electric push rod 16 can control and drive the pressing plate 3 to press the material inside the collection box 10, which is convenient for subsequent processing. The guide rods 18 can limit and guide the movement of the pressing plate 3.

[0028] A motor 15 is fixedly installed at the center of the top of the crushing box 1. The output shaft of the motor 15 passes through the crushing box 1 and is fixedly installed with a rotating rod 4. Several uniformly spaced crushing blades 14 are fixedly installed on the surface of the rotating rod 4. The motor 15 can drive the rotating rod 4 and the several crushing blades 14 to rotate, thereby enabling the material to be fully crushed.

[0029] A feed hopper 21 is fixedly provided on one side of the top of the crushing box 1, and a cover plate 22 is hinged to the top of one side of the feed hopper 21 by two hinges, and a handle is fixedly provided on the top of the cover plate 22; a handle 20 is fixedly provided in the middle of one side of the collection box 10, and handles 19 are fixedly provided on both sides of the top of the sealing plate 6; the feed hopper 21 can add glass fiber waste, and the cover plate 22 can cover the material; it is convenient to move the collection box 10 by pulling the handle 20; the handles 19 can lift the sealing plate 6 upward.

[0030] In use, open the cover 22 and feed the glass fiber waste into the crushing box 1 through the feed hopper 21. Then, drive the rotating rod 4 with the control motor 15 to work. With the multiple crushing blades 14, the glass fiber waste can be fully crushed. The crushed glass fiber waste enters the collection box 10 through the discharge port 5 for collection. When it is necessary to press the glass fiber waste, rotate the screw 1301 clockwise with the knob 1303. This will drive the two sliders 1302 and the two insert rods 8 to move synchronously away. Combined with the handle 19, the sealing plate 6 can be moved downward to block the glass fiber waste and prevent it from seeping into the pressure plate 3, thus ensuring the pressing. The plate 3 operates stably. Then, the extension of the telescopic rod of the electric push rod 16 is controlled, which drives the pressure plate 3 to move downward, thus compacting the glass fiber waste inside the collection box 10. Next, the sealing plate 6 can be lifted again using the handle 19, allowing the glass fiber waste to re-enter the collection box 10 for collection. The above operation steps are repeated to compact the glass fiber waste again. After compaction, the operation of each electrical device is stopped. Then, the screw 1202 is rotated counterclockwise by adjusting the throttle 1205, which drives the moving plate 1203 and the two limit rods 11 to move upward, stopping the limitation on the collection box 10. Then, the collection box 10 is taken out, and the glass fiber waste inside the collection box 10 is processed uniformly.

[0031] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A novel glass fiber waste filament processing equipment, comprising a crushing box (1), characterized in that, A pressing box (2) is fixedly provided on one side of the crushing box (1). A pressure plate (3) is provided at the top inside the pressing box (2). A collection box (10) is slidably provided at the bottom of the pressing box (2). A discharge port (5) is opened in the middle of one side of the crushing box (1). A sealing plate (6) is slidably provided between the discharge port (5) and the pressing box (2). A support plate (7) is fixedly provided at the top of one side of the crushing box (1). Two insert rods (8) are symmetrically provided below the support plate (7). A support block (9) is fixedly provided in the middle of the top of the sealing plate (6). Insert holes for insertion and cooperation with the insert rods (8) are opened on both sides of the support block (9). An adjustment component (13) is provided inside the support plate (7). Two limiting rods (11) are inserted into one side of the top of the collection box (10).

2. The novel glass fiber frit processing apparatus of claim 1, wherein: A motor (15) is fixedly installed at the middle of the top of the crushing box (1). The output shaft of the motor (15) passes through the crushing box (1) and is fixedly installed with a rotating rod (4). Several uniformly spaced crushing blades (14) are fixedly installed on the surface of the rotating rod (4).

3. The novel glass fiber frit processing apparatus of claim 1, wherein: A feed hopper (21) is fixedly provided on one side of the top of the crushing box (1), and a cover plate (22) is hinged to the top of one side of the feed hopper (21) by two hinges, and a handle is fixedly provided on the top of the cover plate (22).

4. The novel glass fiber frit processing apparatus of claim 1, wherein: A handle (20) is fixedly provided in the middle of one side of the collection box (10), and handles (19) are fixedly provided on both sides of the top of the sealing plate (6).

5. The novel glass fiber frit processing apparatus of claim 1, wherein: The adjustment assembly (13) includes a lead screw (1301), which is rotatably disposed inside the support plate (7). The threads at both ends of the lead screw (1301) are opposite in direction. Both ends of the lead screw (1301) are threadedly connected to sliders (1302) through lead screw nuts. The sliders (1302) are slidably connected to the support plate (7). One end of the insertion rod (8) is fixedly connected to the bottom of one side of the slider (1302). One end of the lead screw (1301) passes through the support plate (7) and is fixedly provided with a knob (1303).

6. The novel glass fiber frit processing apparatus of claim 1, wherein: An electric push rod (16) is provided above the pressure box (2). A bracket (17) is fixedly provided at the bottom of both sides of the electric push rod (16), and the bottom end of the bracket (17) is fixedly connected to the top end of the pressure box (2). Four evenly spaced guide rods (18) are fixedly provided at the top end of the pressure plate (3), and the top end of the guide rods (18) passes through the pressure box (2) and extends to the top of the pressure box (2).

7. The novel glass fiber frit processing apparatus of claim 1, wherein: A movable component (12) is provided in the middle of one side of the pressing box (2). The movable component (12) includes a horizontal plate (1201). The horizontal plate (1201) is fixedly installed in the middle of one side of the pressing box (2). A screw (1202) is threadedly connected to the middle of the horizontal plate (1201). A movable plate (1203) is rotatably provided at the bottom end of the screw (1202). The top end of the limiting rod (11) is fixedly connected to the bottom end of the movable plate (1203).

8. The novel glass fiber frit processing apparatus of claim 7, wherein: The surface of the transverse plate (1201) is symmetrically provided with two supporting rods (1204), and the bottom end of the supporting rod (1204) is fixedly connected with the top end of the moving plate (1203), and the top end of the screw rod (1202) is fixedly provided with an adjusting handle (1205).