Building waste recycling device with anti-splashing function

By adopting a V-shaped anti-splash feed pipe and conveyor roller design in the construction waste recycling device, the problem of material splashing during the crushing process is solved, achieving safe and continuous feeding and improving processing efficiency and safety.

CN224486246UActive Publication Date: 2026-07-14SONGPAN COUNTY YIJIAJIE SOLID WASTE MANAGEMENT CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SONGPAN COUNTY YIJIAJIE SOLID WASTE MANAGEMENT CO LTD
Filing Date
2025-06-09
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing construction waste recycling equipment often results in material splattering during the crushing process, affecting processing efficiency and endangering worker safety.

Method used

The V-shaped anti-splash feed pipe structure, combined with the design of conveyor rollers and crushing rollers, enables continuous feeding and prevents material splashing. The cooperation between the conveyor belt and the crushing rollers ensures that the material falls back into the crusher, avoiding splashing.

Benefits of technology

It effectively prevents material from splashing, protects personnel safety, maintains processing continuity, avoids material blockage, and improves processing efficiency.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224486246U_ABST
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Abstract

The utility model relates to building garbage recovery device technical field discloses a building garbage recovery device with prevent splashing function, including support, the support is fixedly connected with building garbage recovery and uses the rubbing crusher, the upper portion of rubbing crusher is installed with V type splash proof feed pipe, V type splash proof feed pipe fixed mounting on the support, two vertical baffle fixedly connected with on V type splash proof feed pipe, the vertical baffle is rotatably connected with main conveying roller and slave conveying roller, the main conveying roller with slave conveying roller between is connected with conveying belt, the conveying surface of conveying belt with the inner wall of V type splash proof feed pipe is flush, one of vertical baffle fixedly connected with motor no.
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Description

Technical Field

[0001] This utility model belongs to the technical field of construction waste recycling devices, specifically a construction waste recycling device with anti-splash function. Background Technology

[0002] Construction waste refers to slag, waste soil, waste materials, silt and other waste generated by construction units or individuals during the construction, laying or demolition and repair of various buildings, structures, pipelines, etc.

[0003] Current methods for handling construction waste include crushing it. However, when construction waste is fed into crushing equipment, the fragments tend to splash out through the feed inlet. These splashed fragments require further processing and can easily injure workers. Existing solutions often involve installing baffles at the feed inlet to block the splashing, such as the construction waste recycling device with anti-splashing function disclosed in announcement number CN221156860U. However, the aforementioned method of blocking the feed inlet to prevent splashing hinders continuous feeding and processing by the conveying equipment, affecting processing efficiency. To address the aforementioned problems, a construction waste recycling device with anti-splashing function is proposed. Utility Model Content

[0004] The purpose of this utility model is to provide a construction waste recycling device with anti-splash function in order to solve the above-mentioned problems.

[0005] The technical solution adopted by this utility model is as follows: a construction waste recycling device with anti-splash function, including a support frame, a construction waste recycling crusher fixedly connected to the support frame, a V-shaped anti-splash feed pipe installed on the upper part of the crusher, and the V-shaped anti-splash feed pipe fixedly installed on the support frame;

[0006] Two vertical plates are fixedly connected to the V-shaped anti-splash feed pipe. A main conveyor roller and a secondary conveyor roller are rotatably connected to the vertical plates. A conveyor belt is connected between the main conveyor roller and the secondary conveyor roller. The conveying surface of the conveyor belt is flush with the inner wall of the V-shaped anti-splash feed pipe. A motor is fixedly connected to one of the vertical plates. The motor is connected to the main conveyor roller through an output shaft. Multiple support rollers for the conveyor belt are rotatably connected to the vertical plates.

[0007] In a preferred embodiment, the upper part of the V-shaped anti-splash feed pipe is provided with a feeding port with a flared mouth structure, and the lower part of the V-shaped anti-splash feed pipe is provided with a discharge port.

[0008] In a preferred embodiment, the pulverizer includes a casing, with two pulverizing rollers rotatably connected to the upper part of the casing. A second motor is fixedly installed on the outer wall of the casing, and the second motor is connected to one of the pulverizing rollers via a conveying shaft. Gears are fixedly connected to the same end of the two pulverizing rollers, and the two gears mesh together.

[0009] In a preferred embodiment, the bottom end of the V-shaped anti-splash feed pipe is connected to the upper part of the chassis.

[0010] In a preferred embodiment, the bottom of the chassis is inclined.

[0011] In a preferred embodiment, a second discharge port is provided on one side wall of the chassis, and the second discharge port is located at the lowest inclined point of the bottom of the chassis.

[0012] In a preferred embodiment, the second discharge port is provided with a guide trough fixedly installed on the chassis, and the guide trough is fixedly installed on the bracket.

[0013] In a preferred embodiment, the V-shaped splash-proof feed pipe has an inspection port, and a sealing door is provided at the inspection port. The sealing door is hinged to the V-shaped splash-proof feed pipe and is locked to the V-shaped splash-proof feed pipe by bolts. A handle is fixedly connected to the sealing door.

[0014] In summary, due to the adoption of the above technical solution, the beneficial effects of this utility model are:

[0015] 1. In this utility model, the structure of the V-shaped anti-splash feed pipe is used. When construction waste is crushed, the splashed fragments will bounce onto the lower inner wall of the V-shaped anti-splash feed pipe and eventually fall back into the crusher. This can prevent the splashed fragments from flying out and injuring people during crushing, thus protecting personnel safety. Moreover, the entire structure can achieve continuous feeding and crushing without affecting processing efficiency.

[0016] 2. In this utility model, when construction waste is put into the V-shaped anti-splash feed pipe, the construction waste will slide down from the top onto the conveyor belt. Then, the motor is started to drive the main conveyor roller to rotate. The main conveyor roller cooperates with the secondary conveyor roller to drive the conveyor roller to move, thereby conveying the construction waste into the crusher, thus forcing feeding and avoiding the problem of material blockage caused by the accumulation of construction waste. Attached Figure Description

[0017] Figure 1 This is a simplified schematic diagram of the three-dimensional structure of this utility model from the front view;

[0018] Figure 2 This is a simplified schematic diagram of the internal structure of this utility model from the front view;

[0019] Figure 3 This is a simplified schematic diagram of the rear-view three-dimensional structure of this utility model.

[0020] The markings in the diagram are: 1-Support, 2-Crusher, 3-V-shaped anti-splash feed pipe, 4-Vertical plate, 5-Main conveyor roller, 6-Secondary conveyor roller, 7-Conveyor belt, 8-Motor 1, 9-Feeding port, 10-Discharge port, 11-Chassis, 12-Crushing roller, 13-Motor 2, 14-Gear, 15-Second discharge port, 16-Guide chute, 17-Inspection port, 18-Sealing door, 19-Handle, 20-Support roller. Detailed Implementation

[0021] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below in conjunction with the embodiments of this utility model. Obviously, the described embodiments are only some embodiments of this utility model, not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of this utility model.

[0022] The following will combine Figures 1-3 A detailed description is provided of a construction waste recycling device with anti-splash function according to an embodiment of the present invention. Example

[0023] This utility model provides a construction waste recycling device with anti-splash function, see reference. Figures 1 to 3 As shown, the structure includes a support 1, on which a construction waste recycling crusher 2 is fixedly connected. A V-shaped anti-splash feed pipe 3 is installed on the upper part of the crusher 2. The V-shaped anti-splash feed pipe 3 is fixedly installed on the support 1. In this structure, the crusher 2 is used to crush construction waste, and the V-shaped anti-splash feed pipe 3 is used to feed the crusher 2.

[0024] The structure of the V-shaped anti-splash feed pipe 3 is utilized. When the construction waste is crushed, the splashed fragments will bounce onto the lower inner wall of the V-shaped anti-splash feed pipe 3 and eventually fall back into the crusher 2. This can prevent the splashed fragments from flying out and injuring people during crushing, thus protecting personnel safety.

[0025] refer to Figures 1 to 3As shown, two vertical plates 4 are fixedly connected to the V-shaped anti-splash feed pipe 3. A main conveyor roller 5 and a secondary conveyor roller 6 are rotatably connected to the vertical plates 4. A conveyor belt 7 is connected between the main conveyor roller 5 and the secondary conveyor roller 6. The conveying surface of the conveyor belt 7 is flush with the inner wall of the V-shaped anti-splash feed pipe 3. A motor 8 is fixedly connected to one of the vertical plates 4. The motor 8 is connected to the main conveyor roller 5 through its output shaft. In this structure, when construction waste is put into the V-shaped anti-splash feed pipe 3, the construction waste will slide down from the top onto the conveyor belt 7. Then, the motor 8 is started to drive the main conveyor roller 5 to rotate. The main conveyor roller 5 cooperates with the secondary conveyor roller 6 to drive the conveyor roller 7 to move, thereby conveying the construction waste into the crusher 2, thus forcing feeding and avoiding the problem of material blockage caused by the accumulation of construction waste.

[0026] refer to Figures 1 to 3 As shown, multiple support rollers 20 for conveyor belts 7 are rotatably connected to the vertical plate 4. This structure utilizes the support rollers 20 to improve the load-bearing capacity of the conveyor belts 7.

[0027] refer to Figures 1 to 3 As shown, the upper part of the V-shaped anti-splash feed pipe 3 is provided with a feeding port 9 with a flared mouth structure, and the lower part of the V-shaped anti-splash feed pipe 3 is provided with a discharge port 10. This structure allows the feeding port 9 to facilitate feeding materials into the V-shaped anti-splash feed pipe 3, and the discharge port 10 facilitates the falling of construction waste into the crusher 2.

[0028] refer to Figures 1 to 3 As shown, the crusher 2 includes a housing 11. Two crushing rollers 12 are rotatably connected to the upper part of the housing 11. A motor 13 is fixedly installed on the outer wall of the housing 11. The motor 13 is connected to one of the crushing rollers 12 through a conveying shaft. Gears 14 are fixedly connected to the same end of the two crushing rollers 12. The two gears 14 mesh together. This structure uses the motor 13 to drive one crushing roller 12 to rotate, and then, in conjunction with the gears 14, drives both crushing rollers 12 to rotate simultaneously. The rotating crushing rollers 12 are then used to crush construction waste.

[0029] refer to Figures 1 to 3 As shown, the bottom end of the V-shaped anti-splash feed pipe 3 is connected to the upper part of the casing 11.

[0030] refer to Figures 1 to 3 As shown, the bottom of the casing 11 is inclined, and a second discharge port 15 is provided on one side wall of the casing 11. The second discharge port 15 is located at the lowest point of the inclined bottom of the casing 11. In this structure, the crushed construction waste will slide out of the second discharge port 15 from the bottom of the casing 11, thereby realizing the discharge of construction waste.

[0031] refer to Figures 1 to 3 As shown, the second discharge port 15 is provided with a guide trough 16 fixedly installed on the housing 11. The guide trough 16 is fixedly installed on the bracket 1. This structure uses the guide trough 16 to discharge construction waste.

[0032] refer to Figures 1 to 3 As shown, an inspection port 17 is provided on the V-shaped anti-splash feed pipe 3, and a sealing door 18 is provided at the inspection port 17. The sealing door 18 is hinged to the V-shaped anti-splash feed pipe 3 and is also locked to the V-shaped anti-splash feed pipe 3 by bolts. A handle 19 is fixedly connected to the sealing door 18. In this structure, personnel can remove the connecting bolts between the sealing door 18 and the V-shaped anti-splash feed pipe 3, and then flip the sealing door 18 outward by using the handle 19 to open the inspection port 17. The inspection port 17 is used to facilitate the inspection and maintenance of the crushing mechanism inside the crusher.

[0033] The implementation principle of a construction waste recycling device with anti-splash function according to an embodiment of this application is as follows: When in use, construction waste is put into the V-shaped anti-splash feed pipe 3 through the feeding port 9. Then the construction waste will slide down from the top onto the conveyor belt 7. Then the motor 8 is started to drive the main conveyor roller 5 to rotate. The main conveyor roller 5 cooperates with the secondary conveyor roller 6 to drive the conveyor roller 7 to move, thereby conveying the construction waste to the discharge port 10 and falling into the crusher 2. Then the motor 13 drives a crushing roller 12 to rotate. Then, in cooperation with the gear 14, it drives two crushing rollers 12 to rotate simultaneously. Then the rotating crushing rollers 12 crush the construction waste. The crushed waste is immediately discharged from the second discharge port 15 and guided into the collection device by the guide chute 16.

[0034] It should be noted that the construction waste crushing device disclosed in the above implementation will first coarsely crush the construction waste using a crushing excavator, thereby reducing the volume of the construction waste and ensuring that the volume of the waste meets the requirements of the crushing device. This will prevent larger pieces of construction waste from getting stuck at the corner of the V-shaped anti-splash feed pipe and causing blockage.

[0035] The above embodiments are only used to illustrate the technical solutions of this utility model, and are not intended to limit it. Although this utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the spirit and scope of the technical solutions of the embodiments of this utility model.

Claims

1. A construction waste recycling device with anti-splash function, comprising a support frame (1), characterized in that: A construction waste recycling crusher (2) is fixedly connected to the support (1). A V-shaped anti-splash feed pipe (3) is installed on the upper part of the crusher (2). The V-shaped anti-splash feed pipe (3) is fixedly installed on the support (1). Two vertical plates (4) are fixedly connected to the V-shaped anti-splash feed pipe (3). A main conveyor roller (5) and a secondary conveyor roller (6) are rotatably connected to the vertical plate (4). A conveyor belt (7) is connected between the main conveyor roller (5) and the secondary conveyor roller (6). The conveying surface of the conveyor belt (7) is flush with the inner wall of the V-shaped anti-splash feed pipe (3). A motor (8) is fixedly connected to one of the vertical plates (4). The motor (8) is connected to the main conveyor roller (5) through an output shaft. Multiple support rollers (20) for the conveyor belt (7) are rotatably connected to the vertical plate (4).

2. A construction waste recycling device with anti-splash function as described in claim 1, characterized in that: The upper part of the V-shaped anti-splash feed pipe (3) is provided with a feeding port (9) with a flared mouth structure, and the lower part of the V-shaped anti-splash feed pipe (3) is provided with a discharge port (10).

3. A construction waste recycling device with anti-splash function as described in claim 1, characterized in that: The crusher (2) includes a housing (11), and two crushing rollers (12) are rotatably connected to the upper part of the housing (11). A motor (13) is fixedly installed on the outer wall of the housing (11). The motor (13) is connected to one of the crushing rollers (12) through a conveying shaft. Gears (14) are fixedly connected to the same end of the two crushing rollers (12), and the two gears (14) mesh together.

4. A construction waste recycling device with anti-splash function as described in claim 3, characterized in that: The bottom end of the V-shaped anti-splash feed pipe (3) is connected to the upper part of the machine casing (11).

5. A construction waste recycling device with anti-splash function as described in claim 3, characterized in that: The bottom of the chassis (11) is inclined.

6. A construction waste recycling device with anti-splash function as described in claim 3, characterized in that: A second discharge port (15) is provided on one side wall of the casing (11), and the second discharge port (15) is located at the lowest inclined point at the bottom of the casing (11).

7. A construction waste recycling device with anti-splash function as described in claim 6, characterized in that: The second discharge port (15) is provided with a guide trough (16) fixedly installed on the chassis (11), and the guide trough (16) is fixedly installed on the bracket (1).

8. A construction waste recycling device with anti-splash function as described in claim 1, characterized in that: The V-shaped anti-splash feed pipe (3) is provided with an inspection port (17), and a sealing door (18) is provided at the inspection port (17). The sealing door (18) is hinged to the V-shaped anti-splash feed pipe (3), and the sealing door (18) is locked to the V-shaped anti-splash feed pipe (3) by bolts. A handle (19) is fixedly connected to the sealing door (18).