CN-122008374-A - Regeneration treatment equipment for waste wooden transfer box

Abstract

A regeneration treatment device for a waste wood transfer box belongs to the technical field of wood regeneration treatment and comprises a device main body, a propulsion unit, a conveying device and a steam generating device. The equipment main body is provided with an inclined feeding channel, the upper end of the feeding channel is provided with a feeding hole, a crushing cavity is arranged in the feeding channel, a propelling unit is symmetrically arranged at two sides of the feeding channel and comprises a rotating motor, a rotating shaft and a spiral propelling roller, the spiral propelling roller is positioned in the feeding channel and sleeved on the rotating shaft, a conveying device is obliquely arranged in front of the equipment main body through a bracket, the tail end of the conveying device is close to the feeding hole, a closed cover is arranged above the tail end of the conveying device, a steam generating device is arranged below the conveying device, a plurality of groups of steam spraying belts are arranged on the upper wall of the closed cover, the steam spraying belts penetrate through the plurality of groups of steam spraying pipes extending into the conveying device, and the steam generating device is connected with the steam spraying belts through steam pipelines. The device can reduce the feeding jamming of the wooden box, improve the crushing efficiency and reduce the dust pollution of the wood dust.

Inventors

• WANG LING
• Shen Shoubin
• WU JIDONG

Assignees

• 旺妮(江苏)机具制造有限公司

Dates

Publication Date

20260512

Application Date

20260227

Claims (10)

1. 1. Waste wood transfer box regeneration treatment facility, characterized by, include: an apparatus main body (1) including a crushing chamber (4) provided inside thereof; The feeding channel (2) is communicated with the equipment main body (1) and comprises a feeding port (3), and the feeding channel (2) is used for conveying a waste wood transfer box to be crushed to the crushing cavity (4); The two propelling units (5) are symmetrically arranged on two sides of the feeding channel (2) so as to push materials to enter the equipment main body (1) from the feeding channel (2), each propelling unit (5) comprises a rotating motor (6), a rotating shaft (7) and a spiral propelling roller (8), the rotating motor (6) is fixedly arranged on the outer side wall of the feeding channel (2), one end of the rotating shaft (7) is fixedly connected with the output end of the rotating motor (6) in a coaxial mode, the other end of the rotating shaft (7) is movably connected with the inner side wall of the feeding channel (2) through a bearing, and the spiral propelling rollers (8) are fixedly sleeved on the rotating shaft (7) and are located inside the feeding channel (2).
2. 2. The waste wood transfer box recycling treatment device according to claim 1, further comprising: the conveying device (9), the material outlet of conveying device (9) is close to feed inlet (3), just conveying device (9) top is equipped with enclosure (11).
3. 3. The waste wood transfer box recycling treatment device according to claim 1, further comprising: The steam generator (12), the below of conveyor (9) is located to steam generator (12), the upper wall of enclosing cover (11) evenly is equipped with multiunit steam spray area (13), every group all run through on steam spray area (13) and be equipped with multiunit steam spray pipe (14), the lower extreme of steam spray pipe (14) extends to the inner space of conveyor (9), the steam outlet of steam generator (12) pass through steam pipe (15) with steam spray area (13) intercommunication.
4. 4. The regeneration treatment equipment for the waste wood transfer box according to claim 1 is characterized in that the crushing cavity (4) is of a double-cavity crushing structure, two groups of staggered alloy steel toothed rollers, namely a primary toothed roller (16) and a secondary toothed roller (17), are arranged in the crushing cavity (4), the primary toothed roller (16) is close to the lower end outlet of the feeding channel (2), the secondary toothed roller (17) is arranged below the primary toothed roller (16), and roller shafts of the primary toothed roller (16) and the secondary toothed roller (17) are movably connected with the side wall of the crushing cavity (4) through bearings; The inner wall of the crushing cavity (4) is fixedly attached with a wear-resistant lining plate (18).
5. 5. The regeneration treatment device for the waste wood transfer box according to claim 1, wherein a protecting shell (19) is sleeved outside the rotating motor (6), one side of the protecting shell (19) is fixedly connected with the outer side wall of the feeding channel (2), and a gap is reserved between the inner wall of the protecting shell (19) and the outer shell of the rotating motor (6).
6. 6. The regeneration treatment equipment for the waste wood transfer box according to claim 1, wherein a pressure sensor (20) is embedded in the lower wall of the feeding channel (2), the pressure sensor (20) is located right below a position between the two spiral pushing rollers (8), the pressure sensor (20) is in signal connection with the rotating motor (6) through a control circuit, and the sensing surface of the pressure sensor (20) is flush with the inner surface of the lower wall of the feeding channel (2).
7. 7. The regeneration treatment equipment for the waste wood transfer box according to claim 4 is characterized in that a discharge hole (21) is formed in the lower end of the crushing cavity (4), an arc-shaped screen (22) is fixedly arranged at the discharge hole (21), an arc-shaped concave surface of the arc-shaped screen (22) faces the secondary toothed roller (17), and the edge of the arc-shaped screen (22) is detachably connected with the inner wall of the discharge hole (21) of the crushing cavity (4) through bolts.
8. 8. The regeneration treatment equipment for the waste wood transfer box according to claim 3, wherein a manual regulating valve (23) is arranged on the steam pipeline (15) in series, the inlet end of the manual regulating valve (23) is welded with the steam outlet pipeline of the steam generating device (12), and the outlet end of the manual regulating valve (23) is welded with the pipeline connected with the steam spraying belt (13).
9. 9. The regeneration treatment equipment of the waste wood transfer box according to claim 2, wherein a water collection tank (24) is arranged below the lowest end of the conveying device (9), the top of the water collection tank (24) is of an opening structure, and the opening is opposite to the lowest end of the conveying device (9); the bottom of the water collecting tank (24) is provided with a drain valve (25) and a water level sensor (26), the drain valve (25) is in threaded connection with the bottom outlet of the water collecting tank (24), and the water level sensor (26) is embedded in the inner side wall of the water collecting tank (24); The side wall lower part of the water collecting tank (24) is also provided with a water outlet port (27), the water outlet port (27) is communicated with the water inlet of the steam generating device (12) through a filter pipeline (28), and the filter pipeline (28) is provided with a filter element.
10. 10. The regeneration treatment device for the waste wood transfer box according to claim 1, wherein anti-skid patterns are integrally formed on the outer peripheral surface of the spiral pushing roller (8), and the anti-skid patterns are spirally distributed along the axial direction of the spiral pushing roller (8).

Description

Regeneration treatment equipment for waste wooden transfer box Technical Field The invention relates to the technical field of wood regeneration treatment, in particular to waste wood transfer box regeneration treatment equipment. Background In the field of modern logistics and industrial transportation, the wooden transfer box becomes a widely applied packaging and transportation container by virtue of the advantages of firmness, durability, convenient material taking, good buffering performance and the like. However, most of these wooden transfer boxes are large-sized, high-weight large-sized boards after scrapping, and the wood has high strength, which brings great challenges to the recycling process. When facing to large hard wood, the conventional equipment has a fixed feed inlet, cannot adapt to the large plate surface, needs pretreatment, is easy to jam and block, has weak wear resistance and impact resistance of the traditional crushing parts in the crushing link, is easy to wear and deform after long-term treatment of the hard wood, has low crushing efficiency, can generate a large amount of wood dust when crushing the hard wood, and has no effective inhibition design, thereby not only polluting the environment and endangering the health, but also restricting the large-scale and green development of the regeneration treatment industry in the field. Disclosure of Invention Aiming at the situation, in order to overcome the defects of the prior art, the invention provides a regeneration treatment device for a waste wood transfer box, which at least partially solves the problems in the background art. The invention adopts the technical scheme that the regeneration treatment equipment for the waste wood transfer box comprises the following components: An apparatus body including a crushing chamber disposed inside thereof; The feeding channel is communicated with the equipment main body and comprises a feeding port, and is used for conveying the waste wood transfer box to be crushed to the crushing cavity; The two propelling units are symmetrically arranged on two sides of the feeding channel to push materials to enter the equipment main body from the feeding channel, and each propelling unit comprises a rotating motor, a rotating shaft and a spiral propelling roller, wherein the rotating motor is fixedly arranged on the outer side wall of the feeding channel, one end of the rotating shaft is fixedly connected with the output end of the rotating motor in a coaxial manner, the other end of the rotating shaft is movably connected with the inner side wall of the feeding channel through a bearing, and the spiral propelling rollers are fixedly sleeved on the rotating shaft and are positioned in the feeding channel; The conveying device is obliquely arranged in front of the equipment main body through a bracket, the tail end of the conveying device is close to the feed inlet, and a closed cover is arranged above the conveying device; The steam generating device is fixedly arranged below the conveying device, a plurality of groups of steam spraying belts are uniformly arranged on the upper wall of the sealing cover, a plurality of groups of steam spraying pipes are respectively arranged on the steam spraying belts in a penetrating mode, the lower ends of the steam spraying pipes extend to the inner space of the conveying device, and a steam outlet of the steam generating device is communicated with the steam spraying belts through a steam pipeline. The crushing cavity is of a double-cavity crushing structure, and two groups of staggered alloy steel toothed rollers, namely a primary toothed roller and a secondary toothed roller, are arranged in the crushing cavity, wherein the primary toothed roller is close to the outlet at the lower end of the feeding channel, the secondary toothed roller is arranged below the primary toothed roller, and the roller shafts of the primary toothed roller and the secondary toothed roller are movably connected with the side wall of the crushing cavity through bearings; the inner wall of the crushing cavity is fixedly attached with a wear-resistant lining plate. In a further embodiment, a protecting shell is sleeved outside the rotating motor, one side of the protecting shell is fixedly connected with the outer side wall of the feeding channel, and a gap is reserved between the inner wall of the protecting shell and the outer shell of the rotating motor. In a further embodiment, a pressure sensor is embedded in the lower wall of the feeding channel, the pressure sensor is located right below the space between the two spiral pushing rollers, the pressure sensor is in signal connection with the rotating motor through a control circuit, and the sensing surface of the pressure sensor is flush with the inner surface of the lower wall of the feeding channel. Further, a discharge hole is formed in the lower end of the crushing cavity, an arc-shaped screen is fixedly arranged at the dischar