CN222021993U - Plastic particle sorting equipment - Google Patents

Abstract

The utility model discloses plastic particle sorting equipment, which relates to the technical field of cable processing equipment, the plastic particle sorting equipment comprises a machine body and a sorting assembly, wherein the machine body is provided with a sorting groove and a discharge hole which are communicated. The sorting piece is located the below of conveyer belt and is close to the conveyer belt setting, and a plurality of screens in different apertures have been seted up to the sorting piece, and the one end of a plurality of separation channels corresponds the intercommunication screen cloth, and the other end of a plurality of separation channels all communicates the discharge gate. The sorting assembly comprises a conveying mechanism located in the sorting groove, a sorting piece and a plurality of sorting channels, wherein the conveying mechanism comprises a driving roller wheel, a conveying belt and a plurality of driving strips, the conveying belt is sleeved on the driving roller wheel, two ends of the conveying belt are close to the groove wall of the sorting groove, and the driving strips are arranged on the conveying belt at intervals along the movement direction of the conveying belt. When the material reaches the end of the conveyor belt, the driving strip can be matched with the groove wall of the sorting groove to drive the material to the upper part of the conveyor belt, and the material is circularly sorted, so that the sorting efficiency is improved.

Description

Plastic particle sorting equipment

Technical Field

The utility model relates to the technical field of cable processing equipment, in particular to plastic particle sorting equipment.

Background

In the process of processing modified plastics, the plastics subjected to modification treatment are often made into a granular structure by extrusion equipment and an extrusion die, and in order to ensure that the diameters of the prepared plastics particles are uniform as much as possible, the prepared plastics particles are required to be screened and classified.

The prior art with the bulletin number of CN219806343U discloses plastic particle and powder sorting equipment, which comprises a feeding device, a conveying device and a screening bin; the conveying device comprises a shell, bearings are arranged at two ends of the shell, a rotating shaft is arranged in the shell, the two ends of the rotating shaft are respectively and fixedly connected with the bearings at two ends of the shell, one end of the rotating shaft penetrates out of the shell and is fixedly connected with a power device, a spiral blade is arranged on the rotating shaft in a spiral mode, a screening bin is arranged below the shell, the screening bin is in through connection with the bottom of the shell, and a screen is fixedly connected to the top of the screening bin.

However, this prior art has the disadvantage that, for example, the screw blade of the sorting device can only drive the material to travel in one direction, after one round of screening of the material, there may be more material that has not been screened yet, but the screw blade cannot drive the material to be screened twice, so that the screening efficiency of the material is not high.

Disclosure of utility model

In view of the above, it is necessary to provide a plastic particle sorting device, which solves the technical problems that in the prior art, a spiral blade of the sorting device can only drive materials to advance towards one direction, the materials cannot be screened again after one round of screening, and the screening efficiency of the materials is low.

In order to achieve the technical purpose, the technical scheme of the utility model provides plastic particle sorting equipment, which comprises:

the machine body is provided with a sorting groove and a discharge hole which are communicated with each other;

The sorting assembly comprises a conveying mechanism positioned in the sorting groove, a sorting piece and a plurality of sorting channels, wherein the conveying mechanism comprises a driving roller wheel, a conveying belt and a plurality of driving strips, the conveying belt is sleeved on the driving roller wheel, the driving strips are arranged at intervals on the conveying belt along the movement direction of the conveying belt, and the driving strips can be matched with the groove walls of the sorting groove to drive materials to be transported from the lower part to the upper part of the conveying belt when in movement; the sorting piece is located the below of conveyer belt, the sorting piece is followed the advancing direction of conveyer belt has seted up the screen cloth of a plurality of different apertures, a plurality of sorting channel's one end corresponds the intercommunication the screen cloth, a plurality of sorting channel's the other end all communicates the discharge gate.

Further, the driving strip is in a bent shape, one end of the driving strip is connected with the conveyor belt, and the other end of the driving strip is bent towards the movement direction of the conveyor belt.

Further, in the proceeding direction of the bottom of the conveyor belt, the pore size of the screen mesh is sequentially reduced.

Further, each sorting channel is inclined, and one end of the sorting channel with a lower topography is communicated with the discharge port.

Further, a spacer is arranged between the adjacent sorting channels.

Further, the sorting assembly further comprises a vibrator coupled to the sorting member and adapted to drive the sorting member to vibrate at a high frequency.

Further, a recovery groove is formed in the end portion of the sorting piece, and the recovery groove is used for recovering plastic particles with particle sizes larger than those of all the screens.

Further, the sorting assembly further comprises a lifting motor and a movable supporting plate, wherein the movable supporting plate is located in the recovery groove and is connected with the sorting piece in a sliding mode along the vertical direction, the lifting motor is connected with the movable supporting plate, and the movable supporting plate can be driven to drive plastic particles located in the recovery groove to rise to the top of the sorting piece.

Further, the plastic particle sorting equipment further comprises a base and buffer pieces, wherein four corners of the base are connected with the machine body through the four buffer pieces respectively.

Further, the outer wall of organism is provided with the installed part, the installed part includes bottom plate and interval locate a plurality of mounting panels on the bottom plate, a plurality of the mounting panel has all been seted up the mounting hole, a plurality of the center pin collineation of mounting hole.

Compared with the prior art, the utility model has the beneficial effects that: the conveyor belt can circularly rotate under the drive of the driving roller, workers can pour materials to be sorted onto the conveyor belt, the materials are conveyed onto the sorting piece along with the movement of the conveyor belt, and the materials with the corresponding apertures can enter the corresponding sorting channels through a plurality of screens with different apertures on the sorting piece and finally are discharged from the discharge port. The drive strip on the conveyer belt can drive the material to move, because the both ends of conveyer belt are close to the cell wall setting of separation groove, so when the material reachd the tip of conveyer belt, the drive strip can cooperate the cell wall of separation groove to drive the material to the top of conveyer belt to this circulation can circulate the separation to the material, is favorable to improving separation efficiency.

Drawings

FIG. 1 is a schematic view of a plastic particle sorting apparatus of the present utility model;

fig. 2 is a schematic view of the structure of the sorting assembly of the present utility model.

Detailed Description

The following detailed description of preferred embodiments of the utility model is made in connection with the accompanying drawings, which form a part hereof, and together with the description of the embodiments of the utility model, are used to explain the principles of the utility model and are not intended to limit the scope of the utility model.

Referring to fig. 1, the present utility model provides a plastic particle sorting apparatus 100, and the plastic particle sorting apparatus 100 is used to sort plastic particles of a plurality of different particle sizes according to a particle size range so as to be ready for a subsequent cable manufacturing process.

The plastic particle sorting device 100 comprises a machine body 1 and a sorting assembly 2, wherein the sorting assembly 2 is arranged on the machine body 1 and is used for sorting plastic particles in the machine body 1 and then discharging the plastic particles from the machine body 1 to obtain the plastic particles with the corresponding particle size range. The machine body 1 is provided with a sorting groove 11 and a discharge hole 12 which are communicated, the sorting assembly 2 is positioned in the sorting groove 11, in the working process, a worker pours materials to be sorted into the sorting groove 11, sorting of the sorting assembly 2 is carried out, and the materials with corresponding particle sizes are discharged from the discharge hole 12. Workers can connect the output pipeline at the discharge port 12, so that materials output from the discharge port 12 can be directly conveyed to the next processing procedure through the output pipeline, and the working efficiency is improved.

The sorting assembly 2 comprises a conveying mechanism 21 positioned in the sorting tank 11, a sorting piece 22 and a plurality of sorting channels 23, wherein the conveying mechanism 21 comprises a driving roller wheel 211, a conveying belt 212 and a plurality of driving strips 213, the conveying belt 212 is sleeved on the driving roller wheel 211, the driving roller wheel 211 is connected with a motor 214, and the driving roller wheel 211 can drive the conveying belt 212 to circularly rotate under the driving of the motor 214 so that the conveying belt 212 drives materials to move to the sorting piece 22 for sorting.

The driving strips 213 are arranged on the conveyor 212 at intervals along the movement direction of the conveyor 212, and the driving strips 213 can stir the materials to move to the sorting piece 22 so that the sorting piece 22 sorts the materials. The both ends of conveyer belt 212 are close to the cell wall setting of separation tank 11, and when the material level is located the tip of conveyer belt 212, the cell wall that the drive strip 213 can cooperate separation tank 11 orders about the material motion to the top of conveyer belt 212 to make the material that does not accomplish the separation can fall to separation piece 22 from the other end of conveyer belt 212 and continue to select separately, with this circulation, make the material can circulate the separation, be favorable to improving the separation efficiency of material.

The sorting member 22 is located below the conveyor 212 and is disposed near the bottom of the conveyor 212, the sorting member 22 is provided with a plurality of screens 221 having different apertures, the sorting member 22 of the embodiment shown in fig. 2 is provided with four screens 221, the apertures of the four screens 221 are sequentially increased in the proceeding direction of the conveyor 212, and in other embodiments, the apertures of the four screens 221 may be sequentially decreased. The number of the screens 221 is not limited, and may be three, five, or more than five, for example.

One end of the sorting channels 23 is correspondingly communicated with the screen 221, and the other ends of the sorting channels 23 are communicated with the discharge port 12. The materials on the sorting piece 22 can fall into the corresponding sorting channels 23 after being sorted by the screen 221 with the corresponding aperture, and as each sorting channel 23 is obliquely arranged, one end of the sorting channel 23 with a lower topography is communicated with the discharge port 12, the materials can slide along the sorting channel 23 to the discharge port 12 under the action of self gravity to be discharged. In other embodiments, the end of the sorting channel 23 near the discharge port 12 may be further connected with a suction pipe, so that the sorted material can be moved to the next process for processing more quickly by the suction effect of the suction pipe, thereby improving the processing efficiency.

In an embodiment, the driving strip 213 on the conveyor belt 212 is curved, one end of the driving strip 213 is connected to the conveyor belt 212, and the other end is curved towards the movement direction of the conveyor belt 212, so that the driving strip 213 has the advantage that the driving strip 213 can stir the material more effectively to drive the material to move, and at the end of the conveyor belt 212, the driving strip 213 can also have a certain supporting effect on the material, so that the material can rise to the top of the conveyor belt 212 more quickly.

In one embodiment, a separator 24 is disposed between adjacent sorting channels 23, and the separator 24 is used for separating materials in different areas, so as to avoid the materials with different particle sizes from being mixed together to affect subsequent processing.

In one embodiment, the sorting assembly 2 further comprises a vibrator 25, wherein the vibrator 25 is connected to the sorting member 22 and is used for driving the sorting member 22 to vibrate at a high frequency, so that the material on the sorting member 22 is driven to fall into the corresponding screen 221 more, which is beneficial to improving the sorting efficiency.

In one embodiment, the end of the sorting member 22 is provided with a recovery tank 222, the recovery tank 222 is used for recovering plastic particles with a particle size larger than that of all the screens 221, and the plastic particles with a larger particle size need to be collected by the recovery tank 222, crushed and then enter the sorting member 22 for sorting.

In one embodiment, the sorting assembly 2 further includes a lifting motor 26 and a movable pallet 27, where the movable pallet 27 is located in the recovery tank 222 and is slidably connected to the sorting member 22 along the vertical direction, and the lifting motor 26 is connected to the movable pallet 27 and can drive the movable pallet 27 to lift up and down. When the movable pallet 27 is lifted, the movable pallet 27 can drive the plastic particles in the recovery tank 222 to be lifted to the top of the sorting piece 22, so that the plastic particles are sorted again, and after 5-6 times of sorting, the plastic particles in the recovery tank 222 are basically not sorted.

In an embodiment, the plastic particle sorting apparatus 100 further includes a base 3 and a buffer member 4, wherein four corners of the base 3 are connected to the machine body 1 through the four buffer members 4, and the buffer member 4 may be a spring pad or a spring, which can effectively absorb shock of the machine body 1, and is also beneficial to reducing noise generated by the vibrator 25 during vibration.

In an embodiment, the outer wall of the machine body 1 is provided with a mounting member 5, the mounting member 5 comprises a bottom plate 51 and a plurality of mounting plates 52 arranged on the bottom plate at intervals, the mounting plates 52 are provided with mounting holes 53, central axes of the mounting holes 53 are collinear, the mounting plates 52 can be inserted into corresponding mounting positions, and the mounting holes 53 and the mounting positions are penetrated by screws so as to fix the machine body 1 at the mounting positions, thereby realizing mounting and fixing.

The machine body 1 is also provided with a control panel 6, the control panel 6 is electrically connected with the motor 214 and the vibrator 25, and a worker can manually control the control panel 6 so as to control the motor 214 and the vibrator 25 to work or not work.

The present utility model is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present utility model are intended to be included in the scope of the present utility model.

Claims (10)

1. A plastic particle sorting apparatus, characterized by comprising:

the machine body is provided with a sorting groove and a discharge hole which are communicated with each other;

The sorting assembly comprises a conveying mechanism positioned in the sorting groove, a sorting piece and a plurality of sorting channels, wherein the conveying mechanism comprises a driving roller wheel, a conveying belt and a plurality of driving strips, the conveying belt is sleeved on the driving roller wheel, the driving strips are arranged at intervals on the conveying belt along the movement direction of the conveying belt, and the driving strips can be matched with the groove walls of the sorting groove to drive materials to be transported from the lower part to the upper part of the conveying belt when in movement; the sorting piece is located the below of conveyer belt, the sorting piece is followed the advancing direction of conveyer belt has seted up the screen cloth of a plurality of different apertures, a plurality of sorting channel's one end corresponds the intercommunication the screen cloth, a plurality of sorting channel's the other end all communicates the discharge gate.

2. The plastic particle sorting apparatus of claim 1, wherein the driving bar is curved, one end of the driving bar being connected to the conveyor belt, and the other end being curved toward a moving direction of the conveyor belt.

3. The plastic particle sorting apparatus of claim 1, wherein the mesh screen sequentially decreases in pore size in the proceeding direction of the bottom of the conveyor belt.

4. The plastic particle sorting apparatus of claim 1, wherein each of the sorting channels is inclined, and the lower end of the sorting channel communicates with the discharge port.

5. Plastic particle sorting apparatus according to claim 1, characterized in that a spacer is arranged between adjacent sorting channels.

6. The plastic particle sorting apparatus of claim 1, wherein the sorting assembly further comprises a vibrator coupled to the sorting member and adapted to drive the sorting member to vibrate at high frequencies.

7. The plastic particle sorting apparatus of claim 1, wherein the sorting member is provided at an end thereof with a recovery tank for recovering plastic particles having a particle diameter larger than that of all the screens.

8. The plastic particle sorting apparatus of claim 7, wherein the sorting assembly further comprises a lifting motor and a movable pallet, the movable pallet being located in the recovery tank and being slidably connected to the sorting member in a vertical direction, the lifting motor being connected to the movable pallet and being capable of driving the movable pallet to lift plastic particles located in the recovery tank to the top of the sorting member.

9. The plastic particle sorting apparatus of claim 1, further comprising a base and a buffer, four corners of the base being connected to the body by four buffers.

10. The plastic particle sorting apparatus according to claim 1, wherein the outer wall of the machine body is provided with a mounting member, the mounting member includes a bottom plate and a plurality of mounting plates disposed on the bottom plate at intervals, the plurality of mounting plates are each provided with a mounting hole, and central axes of the plurality of mounting holes are collinear.