A continuous conveying device for waste incinerator slag
By installing a rotatable baffle structure on the slag conveyor belt of the waste incinerator, the problem of difficulty in controlling the slag output in the existing technology is solved, and rapid adjustment and improved performance are achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIANGSU QINJUN ENVIRONMENTAL PROTECTION TECH CO LTD
- Filing Date
- 2025-07-09
- Publication Date
- 2026-07-03
AI Technical Summary
In existing waste incineration slag processing processes, the conveyor belt has difficulty controlling the slag output according to production needs, which affects the effectiveness of the equipment.
A baffle plate that can rotate relative to the conveyor belt is set above it. Through the cooperation of the movable plate, connecting shaft, connecting frame, support column and rotating mechanism, the connecting shaft is driven to rotate synchronously, and the included angle between the baffle plates is adjusted to control the slag output.
This allows for rapid adjustment of slag output based on production needs, improving the actual performance of the equipment.
Smart Images

Figure CN224449039U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of waste incineration slag conveying technology, specifically to a continuous waste incineration slag conveying device. Background Technology
[0002] Waste incineration refers to the process by which waste is reduced in volume through appropriate thermal decomposition, combustion, melting, and other reactions, and then becomes residue or molten solid matter through oxidation at high temperatures.
[0003] Currently, in the processing of slag from waste incinerators, due to the numerous processing steps, slag is often continuously transported from one piece of equipment to another via conveyor belts during the production line process. However, conveyor belts can only simply transport slag and cannot control the output of slag according to production needs, which greatly affects the actual performance of the equipment. Utility Model Content
[0004] The purpose of this invention is to provide a continuous conveying device for waste incineration slag. By symmetrically arranging two relatively rotatable baffles above the conveyor belt, and with the cooperation of structures such as movable plates, connecting shafts, connecting frames, support columns, and rotating mechanisms, the two connecting shafts can be driven to rotate synchronously outwards. The connecting shafts can drive the connecting frame to move via a first and second rotating arm, causing the connecting frame to drive a T-shaped slider to slide within a T-shaped groove on the baffles via the support column. This allows for pushing and pulling the baffles to rotate, thereby quickly adjusting the angle between the two baffles to control the slag output as needed, greatly improving the actual performance of the device and addressing the aforementioned shortcomings in the technology.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a continuous conveying device for waste incineration ash, comprising:
[0006] A fixed frame, with rotating rollers rotatably connected to both ends of its inner side, and a conveyor belt disposed between the two rotating rollers. The fixed frame is equipped with a drive assembly for driving the conveyor belt to rotate.
[0007] The material blocking mechanism includes two material blocking plates symmetrically connected to one end of the inner side of the fixed frame via a rotating shaft. The material blocking plates are located above the conveyor belt, and a fixed plate is fixed to one end of the bottom side of the fixed frame. Two connecting shafts are symmetrically connected to the middle of the bottom side of the fixed plate via bearings. A first rotating arm is fixed to the bottom end of each of the two connecting shafts. A second rotating arm is rotatably connected to one end of the first rotating arm relative to the connecting shaft. A connecting frame is movably connected to one end of each of the two second rotating arms relative to the first rotating arm via a rotating shaft. The two connecting frames are symmetrically arranged on both sides of the fixed frame, and a support column is fixed to the top of each of the two connecting frames. One end of each of the two support columns passes through the fixed frame and is movably connected to the two material blocking plates respectively.
[0008] The fixed plate is provided with a rotating mechanism, which is used to drive the two connecting shafts to rotate synchronously inward or outward.
[0009] Preferably, a T-shaped groove is provided on the outer side of the baffle plate, and a T-shaped slider is slidably connected inside the T-shaped groove. One end of the T-shaped slider extends outside the T-shaped groove and is rotatably connected to the support column through a rotating shaft.
[0010] Preferably, the rotating mechanism includes fixed seats symmetrically arranged at both ends of the bottom side of the fixed plate, and a threaded rod is rotatably connected between the two fixed seats through a bearing. A movable plate is connected to the outer wall of the threaded rod through a threaded connection. The movable plate is located between two connecting shafts, and toothed plates are provided on both sides of the movable plate. Gears that mesh with the toothed plates are fixed at the top ends of the two connecting shafts. A second motor is fixed at one end of the fixed seat, and the output end of the second motor is connected to the threaded rod.
[0011] Preferably, the top side of the movable plate is provided with a T-shaped retaining strip, and the bottom side of the fixed plate is provided with a T-shaped retaining groove that matches the T-shaped retaining strip.
[0012] Preferably, the drive assembly includes a first motor fixedly connected to one end of the fixed frame, the output end of the first motor being connected to a first synchronous pulley, the output end of one of the rotating rollers being connected to a second synchronous pulley, and a synchronous belt being provided between the first synchronous pulley and the second synchronous pulley.
[0013] Preferably, a plurality of support rollers are rotatably connected to the inner side of the fixed frame and inside the conveyor belt via a rotating shaft.
[0014] The technical effects and advantages provided by this utility model in the above technical solution are as follows:
[0015] By symmetrically arranging two relatively rotatable baffles above the conveyor belt, and with the cooperation of structures such as movable plates, connecting shafts, connecting frames, support columns, and rotating mechanisms, the two connecting shafts can be driven to rotate outward synchronously. The connecting shafts can drive the connecting frame to move through the first and second rotating arms, so that the connecting frame can drive the T-shaped slider to slide in the T-shaped groove on the baffle through the support column, thereby pushing and pulling the baffle to rotate. This allows for quick adjustment of the included angle between the two baffles, so as to control the output of slag according to production needs, greatly improving the actual use effect of the device. Attached Figure Description
[0016] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the drawings used in the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments recorded in this utility model. For those skilled in the art, other drawings can be obtained based on these drawings.
[0017] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0018] Figure 2 This is a three-dimensional structural diagram of the present invention viewed from below.
[0019] Figure 3 This is a longitudinal sectional view of the conveyor belt of this utility model;
[0020] Figure 4 This is a schematic diagram of the connection between the movable plate and the support column of this utility model;
[0021] Figure 5 This is a longitudinal sectional view of the fixing plate of this utility model.
[0022] Explanation of reference numerals in the attached figures:
[0023] 1. Fixed frame; 2. Rotary roller; 3. Conveyor belt; 4. First motor; 5. First synchronous pulley; 6. Second synchronous pulley; 7. Synchronous belt; 8. Baffle plate; 9. Fixed plate; 10. Connecting shaft; 11. First rotating arm; 12. Second rotating arm; 13. Connecting frame; 14. Support column; 15. T-shaped slider; 16. T-shaped slide; 17. Movable plate; 18. T-shaped retaining strip; 19. T-shaped retaining groove; 20. Toothed plate; 21. Gear; 22. Threaded rod; 23. Second motor; 24. Fixed seat. Detailed Implementation
[0024] To enable those skilled in the art to better understand the technical solution of this utility model, the present utility model will be further described in detail below with reference to the accompanying drawings.
[0025] This utility model provides, for example Figures 1-5 The waste incinerator ash continuous conveying device shown includes:
[0026] A fixed frame 1 is provided, with rotating rollers 2 rotatably connected to both ends of the inner side of the fixed frame 1. A conveyor belt 3 is provided between the two rotating rollers 2. A drive assembly is provided on the fixed frame 1, and the drive assembly is used to drive the conveyor belt 3 to rotate.
[0027] The drive assembly includes a first motor 4 fixedly connected to one end of a fixed frame 1. The output end of the first motor 4 is connected to a first synchronous pulley 5, and the output end of one of the rotating rollers 2 is connected to a second synchronous pulley 6. A synchronous belt 7 is disposed between the first synchronous pulley 5 and the second synchronous pulley 6. Based on this, by starting the first motor 4, the first motor 4 drives the first synchronous pulley 5 to rotate. Then, the first synchronous pulley 5 drives the second synchronous pulley 6 to rotate via the synchronous belt 7, thereby driving the rotating roller 2 to rotate. The rotating roller 2 drives the conveyor belt 3 to rotate, which in turn allows the conveyor belt 3 to move the slag that continuously falls on it, thereby achieving continuous slag conveying.
[0028] Multiple support rollers are rotatably connected to the inner side of the fixed frame 1 and inside the conveyor belt 3 via a rotating shaft. Based on this, the support rollers can further support and stabilize the conveyor belt 3.
[0029] The material blocking mechanism includes two material blocking plates 8 symmetrically connected to one end of the inner side of the fixed frame 1 via a rotating shaft. The material blocking plates 8 are located above the conveyor belt 3. A fixed plate 9 is fixed to one end of the bottom side of the fixed frame 1. Two connecting shafts 10 are symmetrically connected to the middle of the bottom side of the fixed plate 9 via bearings. A first rotating arm 11 is fixed to the bottom end of each of the two connecting shafts 10. A second rotating arm 12 is rotatably connected to one end of the first rotating arm 11 relative to the connecting shaft 10. A connecting frame 13 is movably connected to one end of each of the two second rotating arms 12 relative to the first rotating arm 11 via a rotating shaft. The two connecting frames 13 are symmetrically arranged on both sides of the fixed frame 1. A support column 14 is fixed to the top of each of the two connecting frames 13. One end of each support column 14 passes through the fixed frame 1 and is movably connected to the two material blocking plates 8 respectively.
[0030] The outer side of the baffle plate 8 is provided with a T-shaped slide groove 16, and a T-shaped slider 15 is slidably connected inside the T-shaped slide groove 16. One end of the T-shaped slider 15 extends out of the T-shaped slide groove 16 and is rotatably connected to the support column 14 through a rotating shaft.
[0031] A rotating mechanism is provided on the fixed plate 9, which is used to drive the two connecting shafts 10 to rotate synchronously inward or outward.
[0032] The rotating mechanism includes fixed seats 24 symmetrically arranged at both ends of the bottom side of the fixed plate 9. A threaded rod 22 is rotatably connected between the two fixed seats 24 via bearings. A movable plate 17 is threadedly connected to the outer wall of the threaded rod 22. The movable plate 17 is located between two connecting shafts 10, and toothed plates 20 are provided on both sides of the movable plate 17. Gears 21 that mesh with the toothed plates 20 are fixed at the top of the two connecting shafts 10. A second motor 23 is fixed at one end of the fixed seat 24, and the output end of the second motor 23 is connected to the threaded rod 22.
[0033] In use, the second motor 23 can be started to drive the threaded rod 22 to rotate. Then, the threaded rod 22 drives the movable plate 17 to move on the bottom side of the fixed plate 9. After that, the movable plate 17 can drive the gears 21 on both sides to rotate through the toothed plate 20. The gears 21 drive the first rotating arm 11 to rotate through the connecting shaft 10. Then, the first rotating arm 11 can drive the second rotating arm 12 to move. Thus, the second rotating arm 12 can drive the support column 14 to move on the fixed frame 1 through the connecting frame 13. Then, the support column 14 can drive the T-shaped slider 15 to slide in the T-shaped groove 16 on the baffle plate 8, so that the baffle plate 8 can be pushed and pulled to rotate. This allows for quick adjustment of the included angle between the two baffle plates 8, so as to control the output of slag according to production needs, which greatly improves the actual use effect of the device.
[0034] The top side of the movable plate 17 is provided with a T-shaped retaining strip 18, and the bottom side of the fixed plate 9 is provided with a T-shaped retaining groove 19 that matches the T-shaped retaining strip 18. Based on this, by setting the T-shaped retaining strip 18 and the T-shaped retaining groove 19, the movable plate 17 can be supported and limited, thereby greatly ensuring the stability of the fixed plate 9 when it moves.
[0035] The foregoing description only illustrates certain exemplary embodiments of the present invention. Undoubtedly, those skilled in the art can modify the described embodiments in various ways without departing from the spirit and scope of the present invention. Therefore, the above drawings and descriptions are illustrative in nature and should not be construed as limiting the scope of protection of the claims of the present invention.
Claims
1. A continuous conveying device for waste incineration slag, characterized in that, include: A fixed frame (1) is provided, with rotating rollers (2) rotatably connected to both ends of the inner side of the fixed frame (1), and a conveyor belt (3) is provided between the two rotating rollers (2). A drive assembly is provided on the fixed frame (1), and the drive assembly is used to drive the conveyor belt (3) to rotate. The material blocking mechanism includes two material blocking plates (8) symmetrically connected to one end of the inner side of the fixed frame (1) via a rotating shaft. The material blocking plates (8) are located above the conveyor belt (3), and a fixed plate (9) is fixed at one end of the bottom side of the fixed frame (1). Two connecting shafts (10) are symmetrically connected to the middle of the bottom side of the fixed plate (9) via bearings. A first rotating arm (11) is fixed at the bottom end of each of the two connecting shafts (10). A second rotating arm (12) is rotatably connected to one end of the first rotating arm (11) relative to the connecting shaft (10). A connecting frame (13) is movably connected to one end of each of the two second rotating arms (12) relative to the first rotating arm (11) via a rotating shaft. The two connecting frames (13) are symmetrically arranged on both sides of the fixed frame (1), and a support column (14) is fixed at the top of each of the two connecting frames (13). One end of each support column (14) passes through the fixed frame (1) and is movably connected to the two material blocking plates (8) respectively. The fixed plate (9) is provided with a rotating mechanism, which is used to drive the two connecting shafts (10) to rotate synchronously inward or outward.
2. A continuous conveying device for waste incineration slag according to claim 1, characterized in that: The outer side of the baffle plate (8) is provided with a T-shaped groove (16), and a T-shaped slider (15) is slidably connected inside the T-shaped groove (16). One end of the T-shaped slider (15) extends outside the T-shaped groove (16) and is rotatably connected to the support column (14) through a rotating shaft.
3. A continuous conveying device for waste incineration slag according to claim 1, characterized in that: The rotating mechanism includes fixed seats (24) symmetrically arranged at both ends of the bottom side of the fixed plate (9). A threaded rod (22) is rotatably connected between the two fixed seats (24) through a bearing. A movable plate (17) is connected to the outer wall of the threaded rod (22) through a threaded connection. The movable plate (17) is located between two connecting shafts (10), and toothed plates (20) are provided on both sides of the movable plate (17). A gear (21) that meshes with the toothed plate (20) is fixed at the top of each of the two connecting shafts (10). A second motor (23) is fixed at one end of the fixed seat (24), and the output end of the second motor (23) is connected to the threaded rod (22).
4. A continuous conveying device for waste incineration slag according to claim 3, characterized in that: The top side of the movable plate (17) is provided with a T-shaped clip (18), and the bottom side of the fixed plate (9) is provided with a T-shaped slot (19) that matches the T-shaped clip (18).
5. A continuous conveying device for waste incineration slag according to claim 1, characterized in that: The drive assembly includes a first motor (4) fixedly connected to one end of the fixed frame (1), the output end of the first motor (4) is connected to a first synchronous pulley (5), the output end of one of the rollers (2) is connected to a second synchronous pulley (6), and a synchronous belt (7) is provided between the first synchronous pulley (5) and the second synchronous pulley (6).
6. A continuous conveying device for waste incinerator slag according to claim 1, characterized in that: The fixed frame (1) is rotatably connected to multiple support rollers via a rotating shaft inside the conveyor belt (3).