CN220113776U - Ultrasonic cleaning and regenerating plastic device - Google Patents

Abstract

The utility model discloses an ultrasonic cleaning and regenerating plastic device, which drives a material to be cleaned to flow through an ultrasonic cleaning area through water flow, and enables dirt to be stripped from the surface of the material through ultrasonic cleaning and flow out along with the water flow. The key points of the technical scheme are as follows: the ultrasonic cleaning device comprises a feeding mechanism and an ultrasonic cleaning mechanism, wherein the feeding mechanism comprises a feeding hopper and a water injection flushing head, the upper end of the feeding hopper is provided with a funnel-shaped feeding port, a feeding channel is formed below the feeding port, and the water injection flushing head is arranged inside the feeding hopper and points to the feeding channel; the ultrasonic cleaning mechanism comprises an ultrasonic generator and a cleaning cabin, a horizontal cleaning channel is formed in the cleaning cabin, the feeding channel is communicated to the upper part of the feeding end of the cleaning channel, a discharge hole is formed in one end, far away from the feed hopper, of the cleaning cabin, the ultrasonic generator is arranged on the outer side of the cleaning cabin, ultrasonic waves generated by the ultrasonic generator act on the cleaning channel, water-band animal materials flushed by the water injection flushing head enter the cleaning channel, and flow out of the discharge hole after ultrasonic cleaning.

Description

Ultrasonic cleaning and regenerating plastic device

Technical Field

The utility model relates to a cleaning apparatus, in particular to an ultrasonic cleaning regenerated plastic device.

Background

With the rapid development and the gradual updating of consumption of the society in China, people consume products increasingly and increasingly, wherein plastic products occupy a huge proportion, and waste plastics generated after each year are huge. The huge amount of waste plastics not only pollutes the environment, but also causes serious resource waste.

The plastic recycling technology is a more emerging technology which is gradually derived from the problems, and is used for preparing new plastic particles as raw materials for producing new plastic products again by collecting, crushing, cleaning and chemically and physically treating waste plastics. Because various dirt such as paint, oil stain, soil and the like are often stuck on the waste plastics after consumption, the ideal cleaning effect is difficult to achieve by adopting the current common cleaning method (water flow flushing) for part of dirt, and various dirt still remains on the waste plastics after cleaning, so that the quality of the subsequent regenerated products is affected.

Disclosure of Invention

The utility model aims at solving the problems in the background art and provides an ultrasonic cleaning and regenerating plastic device, wherein a material to be cleaned is driven to flow through an ultrasonic cleaning area by water flow, and dirt is stripped from the surface of the material by ultrasonic cleaning and flows out along with the water flow.

In order to achieve the above object, the present utility model adopts the following technical scheme:

the ultrasonic cleaning and regenerating plastic device comprises a feeding mechanism and an ultrasonic cleaning mechanism, wherein the feeding mechanism comprises a feeding hopper and a water injection flushing head, the upper end of the feeding hopper is provided with a funnel-shaped feeding port, a feeding channel is formed below the feeding port, and the water injection flushing head is arranged inside the feeding hopper and points to the feeding channel; the ultrasonic cleaning mechanism comprises an ultrasonic generator and a cleaning cabin, a horizontal cleaning channel is formed in the cleaning cabin, the feeding channel is communicated to the upper part of the feeding end of the cleaning channel, a discharge hole is formed in one end, far away from the feed hopper, of the cleaning cabin, the ultrasonic generator is arranged on the outer side of the cleaning cabin, ultrasonic generated by the ultrasonic generator acts on the cleaning channel, water-band animal materials flushed by the water injection flushing head enter the cleaning channel, and flow out of the discharge hole after ultrasonic cleaning.

Further preferably, a cylindrical cleaning channel is formed in the cleaning cabin, the ultrasonic cleaning mechanism further comprises an active flow guiding piece and a driving piece, the active flow guiding piece is located in the cleaning channel, and the driving piece drives the active flow guiding piece to move so as to promote water flow to flow from a feeding end of the cleaning channel to a discharging port.

Further preferably, the active diversion member comprises a shaft lever and a helical blade, the helical blade is arranged in a helical manner around the shaft lever, the shaft lever is arranged in the cleaning channel in parallel to the axis of the cleaning channel, the driving member is a motor, the motor is arranged outside the cleaning cabin, the shaft lever passes through the cleaning cabin and is coaxially connected with a motor rotating shaft, and the motor drives the shaft lever to rotate so that the helical blade pushes water flow to advance.

Further preferably, through holes are distributed on the spiral blade.

Still preferably, the device further comprises a collecting mechanism for collecting the cleaned materials, the collecting mechanism comprises a storage container, a blanking port is reserved at the upper end of the storage container, and the blanking port is positioned below the discharging port.

Further preferably, the lower end of the storage container is provided with a water filtering mechanism.

Further preferably, the bottom of the storage container is provided with a bottom cover, the bottom cover is movably arranged at the bottom of the storage container to cover the bottom opening of the storage container, the bottom cover is of a funnel-shaped structure with a wide upper part and a narrow lower part, the water filtering mechanism is a filter screen, and the filter screen covers the bottom opening of the bottom cover.

Still preferably, the device further comprises a tail end flushing mechanism, wherein the tail end flushing mechanism comprises a flushing nozzle and a conveying pipe, the conveying pipe is connected to a clean water source or cleaning liquid, the tail end flushing mechanism is arranged above a blanking port of the storage container, and the flushing nozzle faces downwards towards the blanking port.

Compared with the prior art, the ultrasonic cleaning and regenerating plastic device adopting the technical scheme has the following beneficial effects:

1. the ultrasonic cleaning technology is adopted, so that a better cleaning effect can be achieved compared with a traditional flushing mode, the cavitation effect generated by ultrasonic waves in liquid can impact firm stains on the surface of a material, and meanwhile, the ultrasonic waves can decompose and emulsify greasy stains so as to achieve a more thorough cleaning effect.

2. The dirt and materials stripped by ultrasonic cleaning can enter a storage container along with water flow, and the sewage fused with the dirt can flow out through a water filtering mechanism at the bottom, so that only the materials are reserved in the storage container, and the materials and the sewage are rapidly separated; in the preferred scheme, the material after separating sewage is further washed through tail end washing mechanism to further wash away the sewage and the filth of material surface adhesion, promote flushing efficiency and effect.

Drawings

FIG. 1 is a schematic view of an embodiment of an ultrasonic cleaning recycled plastic apparatus according to the present utility model.

Fig. 2 is a schematic structural diagram of an active deflector in the present embodiment.

Fig. 3 is a schematic diagram of the working mode of the present embodiment.

Reference numerals: 1. a feed mechanism; 10. a feed hopper; 100. a feed inlet; 101. a feed channel; 11. injecting water into the flushing head; 2. an ultrasonic cleaning mechanism; 20. an ultrasonic generator; 21. cleaning the cabin; 210. cleaning the channel; 211. a discharge port; 22. an active flow guide; 220. a shaft lever; 221. a helical blade; 2210. a through hole; 23. a motor; 3. a collection mechanism; 30. a storage container; 300. a blanking port; 31. a bottom cover; 32. a filter screen; 4. a tail end flushing mechanism; 40. a spray head; 41. a conveying pipe.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

The ultrasonic cleaning and regenerating plastic device shown in fig. 1-3 comprises a feeding mechanism 1, an ultrasonic cleaning mechanism 2, a collecting mechanism 3 and a tail end flushing mechanism 4. The feeding mechanism 1 comprises a feeding hopper 10 and a water injection flushing head 11, wherein the upper end of the feeding hopper 10 is provided with a funnel-shaped feeding port 100, a feeding channel 101 is formed below the feeding port 100, the water injection flushing head 11 is arranged inside the feeding hopper 10 and points to the feeding channel 101, the water injection flushing head 11 is connected with a water inlet pipe, and the water injection flushing head 11 is used for flushing clean water into the feeding port 100 so as to flush materials into the feeding channel 101.

The ultrasonic cleaning mechanism 2 comprises an ultrasonic generator 20, a cleaning cabin 21, an active flow guide piece 22 and a driving piece, wherein a horizontal cleaning channel 210 is formed in the hollow of the cleaning cabin 21, the cleaning channel 210 is a cylindrical cavity, a feeding channel 101 is communicated to the upper part of the feeding end of the cleaning channel 210, and a discharging hole 211 is formed in one end, far away from the feeding hopper 10, of the cleaning cabin 21. The ultrasonic generators 20 are provided with three groups in total, the three groups of ultrasonic generators 20 are arranged outside the cleaning cabin 21 and are equidistantly arranged along the axial direction of the cleaning channel 210, and ultrasonic waves generated by the ultrasonic generators 20 act on the cleaning channel 210.

The active diversion member 22 comprises a shaft 220 and a spiral blade 221, the spiral blade 221 is spirally arranged around the shaft 220, the shaft 220 is parallel to the axis of the cleaning channel 210 and is arranged in the cleaning channel 210, the shaft 220 and the spiral blade 221 extend from the feeding end of the feeding channel 101 to the discharging port 211, and a plurality of through holes 2210 are uniformly and densely distributed on the spiral blade 221. The driving piece is a motor 23, the motor 23 is arranged outside the cleaning cabin 21, the shaft lever 220 passes through the cleaning cabin 21 and is coaxially connected with the rotating shaft of the motor 23, the motor 23 drives the shaft lever 220 to rotate so that the spiral blades 221 push water flow to advance, and the water flow is caused to flow from the feeding end of the cleaning channel 210 to the discharging hole 211.

The collecting mechanism 3 is used for collecting the material flowing out from the discharge hole 211 after cleaning, the collecting mechanism 3 comprises a storage container 30, a blanking hole 300 is reserved at the upper end of the storage container 30, the blanking hole 300 is positioned below the discharge hole 211, a bottom cover 31 is arranged at the bottom of the storage container 30, the bottom cover 31 is movably mounted at the bottom of the storage container 30, the bottom cover 31 is closed to cover an opening at the bottom of the storage container 30, the bottom cover 31 is opened to discharge the material in the storage container 30, the bottom cover 31 is of a funnel-shaped structure with wide top and narrow bottom, a filter screen 32 is arranged at the bottom opening of the bottom cover 31, and the filter screen 32 covers the bottom opening of the bottom cover 31. The dirt and materials stripped by ultrasonic cleaning can enter the storage container 30 along with water flow, and the sewage fused with the dirt can flow out through the water filtering mechanism at the bottom, so that only the materials are reserved in the storage container 30 to separate the materials from the sewage.

The tail flushing mechanism 4 includes a flushing head 40 and a delivery pipe 41, the delivery pipe 41 is connected to a clean water source or cleaning liquid, the tail flushing mechanism 4 is disposed above the blanking port 300 of the magazine 30, and the flushing head 40 faces downward toward the blanking port 300. The material after separating the sewage is further washed by a tail end washing mechanism 4 so as to further wash away the sewage and dirt adhered on the surface of the material.

The above-described technical solution is a preferred embodiment of the present utility model, and it should be understood that those skilled in the art may make several modifications and improvements without departing from the principles of the present utility model, and these should also be considered as the protection scope of the present utility model.

Claims (8)

1. An ultrasonic cleaning regeneration plastic device is characterized in that: the ultrasonic cleaning device comprises a feeding mechanism (1) and an ultrasonic cleaning mechanism (2), wherein the feeding mechanism (1) comprises a feeding hopper (10) and a water injection flushing head (11), the upper end of the feeding hopper (10) is provided with a funnel-shaped feeding port (100), a feeding channel (101) is formed below the feeding port (100), and the water injection flushing head (11) is arranged inside the feeding hopper (10) and points to the feeding channel (101); ultrasonic cleaning mechanism (2) are including supersonic generator (20) and washing cabin (21), wash cabin (21) cavity and form horizontally wash passageway (210), feed channel (101) communicate to the feed end top of wasing passageway (210), and discharge gate (211) are seted up to one end that feeder hopper (10) was kept away from to washing cabin (21), supersonic generator (20) set up in washing cabin (21) outside, and supersonic generator (20) produced ultrasonic wave acts on in wasing passageway (210), and hosepipe animal material that water injection dashing stub (11) dashed gets into washs passageway (210), is washed by the ultrasonic wave and flows by discharge gate (211).

2. The ultrasonic cleaning reclaimed plastic apparatus of claim 1 wherein: the ultrasonic cleaning mechanism (2) further comprises an active flow guide piece (22) and a driving piece, wherein the active flow guide piece (22) is positioned in the cleaning channel (210), and the driving piece drives the active flow guide piece (22) to move so as to promote water flow to the discharge port (211) from the feeding end of the cleaning channel (210).

3. The ultrasonic cleaning reclaimed plastic apparatus of claim 2 wherein: the active flow guide piece (22) comprises a shaft lever (220) and a spiral blade (221), the spiral blade (221) is arranged in a spiral mode around the shaft lever (220), the shaft lever (220) is arranged in the cleaning channel (210) in parallel to the axis of the cleaning channel (210), the driving piece is a motor (23), the motor (23) is arranged outside the cleaning cabin (21), the shaft lever (220) penetrates through the cleaning cabin (21) to be coaxially connected with the rotating shaft of the motor (23), and the motor (23) drives the shaft lever (220) to rotate so that the spiral blade (221) pushes water flow to advance.

4. An ultrasonic cleaning recycled plastic apparatus according to claim 3, wherein: through holes (2210) are distributed on the spiral blades (221).

5. The ultrasonic cleaning reclaimed plastic apparatus of claim 1 wherein: the device is characterized by further comprising a collecting mechanism (3) for collecting the cleaned materials, wherein the collecting mechanism (3) comprises a storage container (30), a blanking port (300) is reserved at the upper end of the storage container (30), and the blanking port (300) is positioned below the discharging port (211).

6. The ultrasonic cleaning reclaimed plastic apparatus of claim 5 wherein: the lower end part of the storage container (30) is provided with a water filtering mechanism.

7. The ultrasonic cleaning reclaimed plastic apparatus of claim 6 wherein: the bottom of the storage container (30) is provided with a bottom cover (31), the bottom cover (31) is movably arranged at the bottom of the storage container (30) to cover the bottom opening of the storage container (30), the bottom cover (31) is of a funnel-shaped structure with a wide upper part and a narrow lower part, the water filtering mechanism is a filter screen (32), and the filter screen (32) covers the bottom opening of the bottom cover (31).

8. The ultrasonic cleaning recycled plastic apparatus of claim 6 or 7, wherein: the automatic cleaning device is characterized by further comprising a tail end flushing mechanism (4), wherein the tail end flushing mechanism (4) comprises a flushing nozzle (40) and a conveying pipe (41), the conveying pipe (41) is connected to a clean water source or cleaning liquid, the tail end flushing mechanism (4) is arranged above a blanking port (300) of the storage container (30), and the flushing nozzle (40) faces downwards to the blanking port (300).