CN210148480U - Granulator convenient to adjustment phosphor powder plastic strip position - Google Patents

Abstract

The utility model discloses a granulator convenient for adjusting the position of a fluorescent powder plastic strip, which comprises two supporting plates, a driving wheel, a rolling wheel, a backing plate, a cutter, a cylinder, a transverse plate, a position adjusting plate and a round rod, wherein the two supporting plates are arranged oppositely in parallel, and the driving wheel, the rolling wheel, the backing plate, the transverse plate, the position adjusting plate and the round rod are all arranged between the two supporting plates; the driving wheel and the rolling wheel can rotate; the cylinder is arranged on one side of the transverse plate close to the driving wheel, the cutter is arranged at the output end of a piston rod of the cylinder, and the backing plate is positioned between the driving wheel and the cutter; the position adjusting plate is positioned on the left side of the driving wheel and the rolling wheel, a plurality of through circular channels and a plurality of through square openings are arranged in the position adjusting plate, and the square openings are communicated with two adjacent circular channels. When the cutter part of pelleter is worn and torn, adjust the phosphor powder plastic strip that the cutter wearing and tearing part is right to adjacent circular passageway through square opening, can utilize the not worn and torn part of cutter, carry out the grain operation of cutting, improve work efficiency.

Description

Granulator convenient to adjustment phosphor powder plastic strip position

Technical Field

The utility model relates to a pelleter technical field, in particular to pelleter convenient to adjustment phosphor powder plastic strip position.

Background

The fluorescent powder plastic strip is prepared by uniformly stirring, heating to melt, pulling and cooling synthetic resin, filler, plasticizer, stabilizer, lubricant, fluorescent powder and other materials in sequence. For convenient transportation, the phosphor plastic strips are generally cut into particles by a granulator, then are packed into sacks, and then are transported to various plastic processing plants. The plastic processing plant heats and melts the granular noctilucent powder plastic master batches, then molds by utilizing the flowable characteristic of the melted plastic master batches, and manufactures the product with a specific shape after cooling.

The Chinese patent application with the patent application number of 201310751757.X discloses a plastic granulator device and a plastic granulation method, wherein the plastic granulator device comprises a movable pulley, a guide groove, a limiting column, a transmission pinch roller and a cutter, the guide groove comprises a feed inlet and a discharge outlet, the feed inlet is adjacent to the movable pulley, the limiting column is arranged on the guide groove, the transmission pinch roller is arranged at the discharge outlet of the guide groove, the cutter is arranged at the output end of the transmission pinch roller, and the output end of the transmission pinch roller is aligned with the central section of the cutter. This plastics granulator device passes through the guide slot and locate spacing post on the guide slot can avoid the plastic strip to move the marginal position of cutter and the problem of the dead cutter of card appears in the cutting process, can improve the granulation quality.

However, in this plastic granulator device, the position of the plastic strand between the transport rollers is not adjustable. In the process of cutting plastic strips into granules, the cutter is partially worn due to long-time use of the cutter. When the cutter is partially worn, if the plastic strips need to be cut into granules continuously, the partially worn cutter can be replaced immediately, so that the working efficiency of the plastic granulator is reduced.

SUMMERY OF THE UTILITY MODEL

One of the purposes of the utility model is to solve the above-mentioned prior art not enough, provide a pelleter convenient to adjustment phosphor powder plastic strip position to improve pelleter's work efficiency.

To achieve the purpose, the utility model adopts the following technical proposal:

a granulator convenient for adjusting the position of a fluorescent powder plastic strip comprises two supporting plates, a driving wheel, a rolling wheel, a base plate, a cutter, a cylinder, a transverse plate, a position adjusting plate and a round rod, wherein the two supporting plates are oppositely arranged in parallel;

the driving wheel and the rolling wheel can rotate, and the central axis of the driving wheel and the central axis of the rolling wheel are positioned on the same vertical plane; the cylinder is arranged on one side of the transverse plate close to the driving wheel, the cutter is arranged at the output end of a piston rod of the cylinder, the backing plate is positioned between the driving wheel and the cutter, and the cutter is over against the right end of the backing plate; the position adjusting plate is positioned on the left sides of the driving wheels and the rolling wheels, a plurality of through circular channels and a plurality of through square openings are arranged in the position adjusting plate, and the square openings are communicated with two adjacent circular channels; the round rod is positioned at the left side of the position adjusting plate, and the transmission tangent plane of the round rod and the central section of the driving wheel are positioned on the same horizontal plane.

Furthermore, the two ends of the driving wheel, the rolling wheel and the round rod are respectively provided with a connecting bearing, and the driving wheel, the rolling wheel and the round rod are rotatably arranged between the two supporting plates through the connecting bearings.

Furthermore, the inlet and the outlet of the circular channel are both horn-shaped arc surfaces.

Furthermore, a guide groove is arranged between the position adjusting plate and the driving wheel and comprises a feed inlet and a discharge outlet, the feed inlet is adjacent to the position adjusting plate, and the discharge outlet is adjacent to the driving wheel.

Furthermore, the horizontal plane of the feed inlet is lower than the horizontal plane of the lowest point of the inner wall of the circular channel.

Furthermore, the horizontal plane where the discharge hole is located and the central section of the driving wheel are located on the same horizontal plane.

Furthermore, the front side and the rear side of the discharge hole are provided with limit columns.

Furthermore, abrasive paper is laid on the rolling surfaces of the driving wheel, the rolling wheel and the round rod.

Furthermore, the bottom of the backing plate is provided with an inclined plate.

Furthermore, the upper surface of the left end of the base plate is lower than the central section of the driving wheel, and the upper surface of the right end of the base plate and the central section of the driving wheel are positioned on the same horizontal plane.

The utility model has the advantages that: the utility model provides a pelleter convenient to adjustment phosphor powder plastic strip position is provided with the position control board on the pelleter, and the position control board is equipped with circular passageway and the square opening that a plurality of runs through, and during the use, phosphor powder plastic strip meets with the peak or the minimum of the inner wall of circular passageway mutually. After the cutter part of pelleter is worn and torn, can adjust the fluorescent powder plastic strip that the cutter wearing and tearing part was right to adjacent circular passageway through square opening on, can continue to utilize the part that the cutter did not wear and tear, carry out the grain operation to the fluorescent powder plastic strip, improve the work efficiency of pelleter.

Drawings

FIG. 1 is a schematic view of a dicing machine for conveniently adjusting the position of phosphor plastic strips according to an embodiment of the present invention;

fig. 2 is a schematic view of a position adjustment plate of the pelletizer illustrated in fig. 1 for facilitating the adjustment of the position of the phosphor plastic strand.

The cutting device comprises a supporting plate 1, a driving wheel 2, a rolling wheel 3, a base plate 4, a cutter 5, an air cylinder 6, a transverse plate 7, a position adjusting plate 8, a round rod 9, a guide groove 10, a limiting column 11, an inclined plate 12, a round channel 80, a square opening 81, a feeding hole 100 and a discharging hole 101.

Detailed Description

The technical solution of the present invention will be further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1-2, a granulator convenient for adjusting the position of a fluorescent powder plastic strip comprises two support plates 1, a transmission wheel 2, a rolling wheel 3, a backing plate 4, a cutter 5, a cylinder 6, a transverse plate 7, a position adjusting plate 8 and a round rod 9, wherein the two support plates 1 are arranged oppositely in parallel, and the transmission wheel 2, the rolling wheel 3, the backing plate 4, the transverse plate 7, the position adjusting plate 8 and the round rod 9 are all arranged between the two support plates 1;

the driving wheel 2 and the rolling wheel 3 can rotate, and the central axis of the driving wheel 2 and the central axis of the rolling wheel 3 are positioned on the same vertical plane; the air cylinder 6 is arranged on one side of the transverse plate 7 close to the driving wheel 2, the cutter 5 is arranged at the output end of a piston rod of the air cylinder 6, the backing plate 4 is positioned between the driving wheel 2 and the cutter 5, and the cutter 5 is over against the right end of the backing plate 4; the position adjusting plate 8 is positioned on the left sides of the driving wheel 2 and the rolling wheel 3, a plurality of through circular passages 80 and a plurality of through square openings 81 are arranged in the position adjusting plate 8, and the square openings 81 are communicated with two adjacent circular passages 80; the round rod 9 is positioned at the left side of the position adjusting plate 8, and the transmission section of the round rod 9 and the central section of the driving wheel 2 are positioned on the same horizontal plane.

The right end of the backing plate 4 is positioned right below the cutter 5, a gap is reserved between the driving wheel 2 and the rolling wheel 3 for the fluorescent powder plastic strip to pass through, the central axes of the driving wheel 2 and the rolling wheel 3 are positioned on the same vertical plane, and the output shaft of the motor is connected with the driving wheel 2 to drive the driving wheel 2 to rotate. After the fluorescent powder plastic strip passes through the gap between the driving wheel 2 and the rolling wheel 3, the fluorescent powder plastic strip is conveyed to the position right below the cutter 5 along the backing plate 4, at the moment, the air cylinder 6 extends, the cutter 5 moves downwards, and the fluorescent powder plastic strip is cut into particles.

The position adjusting plate 8 is positioned at the left side of the driving wheel 2 and the rolling wheel 3, and the round rod 9 is arranged between the two supporting plates 1 and positioned at the left side of the position adjusting plate 8. The conveying section of the round rod 9 and the central section of the driving wheel 2 are on the same horizontal plane, and the height of the central section of the driving wheel 2 is equal to the height of the highest point or the lowest point of the inner wall of the circular channel 80, so that when the fluorescent powder plastic strip passes through the circular channel 80 and the gap between the driving wheel 2 and the rolling wheel 3, the fluorescent powder plastic strip is connected with the highest point or the lowest point of the inner wall of the circular channel 80.

When the fluorescent powder plastic strip passes through the round rod 9, the position adjusting plate 8 and the gap between the driving wheel 2 and the rolling wheel 3 in sequence and is conveyed to the lower part of the cutter 5 along the backing plate 4, the fluorescent powder plastic strip is connected with the highest point or the lowest point of the inner wall of the round channel 80. After the cutter 5 part of pelleter is worn and torn, the pelleter is stopped, and operating personnel manually adjusts the fluorescent powder plastic strip that cutter 5 wearing and tearing part is right to adjacent circular passageway 80 through square opening 81, can continue to utilize the part that cutter 5 is not worn and torn, carries out the grain cutting operation to fluorescent powder plastic strip to improve the work efficiency of pelleter.

Here, the height of the square opening 81 should be larger than the thickness of the phosphor plastic strip, and the length of the circular channel 80 should not be too long, so as to facilitate the operator to adjust the position of the phosphor plastic strip in the case of the operation of the pelletizer. In order to ensure that the normal grain cutting operation of other phosphor plastic strips is not affected when the position of the phosphor plastic strip is adjusted, the phosphor plastic strip can be inserted into the circular channel 80 at intervals when the phosphor plastic strip is just started to penetrate into the position adjusting plate 8.

Furthermore, the two ends of the driving wheel 2, the rolling wheel 3 and the round rod 9 are respectively provided with a connecting bearing, and the driving wheel 2, the rolling wheel 3 and the round rod 9 are rotatably arranged between the two supporting plates 1 through the connecting bearings.

The driving wheel 2, the rolling wheel 3 and the round rod 9 are rotatably arranged between the two supporting plates 1 through the connecting bearing, so that the rotating efficiency of the driving wheel 2, the rolling wheel 3 and the round rod 9 can be improved, the friction coefficient of the driving wheel 2, the rolling wheel 3 and the round rod 9 is reduced, and the service lives of the driving wheel 2, the rolling wheel 3 and the round rod 9 are prolonged.

Further, the inlet and outlet of the circular channel 80 are both trumpet-shaped arc surfaces.

The inlet and the outlet of the circular channel 80 are designed into horn-shaped arc surfaces, so that the fluorescent powder plastic strips can be prevented from being abraded by the edges of the inlet and the outlet of the circular channel 80, and the granulating quality of the granulator is improved.

Further, a guide groove 10 is arranged between the position adjusting plate 8 and the driving wheel 2, the guide groove 10 comprises a feed inlet 100 and a discharge outlet 101, the feed inlet 100 is adjacent to the position adjusting plate 8, and the discharge outlet 101 is adjacent to the driving wheel 2.

The guide groove 10 is arranged between the position adjusting plate 8 and the driving wheel 2, the feeding hole 100 is adjacent to the position adjusting plate 8, the discharging hole 101 is adjacent to the driving wheel 2, the fluorescent powder plastic strip between the position adjusting plate 8 and the driving wheel 2 can be supported, and the fluorescent powder plastic strip can be conveniently conveyed to the driving wheel 2 from the position adjusting plate 8.

Further, the feed inlet 100 is located at a level lower than that of the lowest point of the inner wall of the circular passage 80.

The horizontal plane of the feed inlet 100 is lower than the horizontal plane of the lowest point of the inner wall of the circular channel 80, so that the situation that the feed inlet 100 abrades the fluorescent powder plastic strips when the fluorescent powder plastic strips pass through the circular channel 80 and are conveyed to the driving wheel 2 can be avoided, and the granulating quality of the granulator is improved.

Further, the discharge hole 101 is located on the same horizontal plane as the central section of the driving wheel 2.

The horizontal plane of the discharge port 101 and the central section of the driving wheel 2 are on the same horizontal plane, so that the fluorescent powder plastic strips can be uniformly pulled by the driving wheel 2, and the fluorescent powder plastic strips cannot deviate in the process of being pulled and conveyed.

Furthermore, the front side and the rear side of the discharge hole 101 are provided with limiting columns 11.

The limiting column 11 can limit the fluorescent powder plastic strips in the conveying process, so that the problem that the fluorescent powder plastic strips are moved to the edge positions of two sides of the cutter 5 to block the cutter 5 is avoided, and the grain cutting quality of the grain cutting machine on the fluorescent powder plastic strips can be ensured.

Furthermore, abrasive paper is laid on the rolling surfaces of the driving wheel 2, the rolling wheel 3 and the round rod 9.

When the fluorescent powder plastic strip is separated from the round rod 9 and the gap between the driving wheel 2 and the rolling wheel 3, the friction force between the fluorescent powder plastic strip and the round rod 9, between the driving wheel 2 and the rolling wheel 3 can be enhanced by the arrangement of the abrasive paper, and the problem that the fluorescent powder plastic strip slips in the conveying process is avoided. In addition, locate abrasive paper on the rolling surface of round bar 9, drive wheel 2 and rolling wheel 3, when abrasive paper damaged, it can to change abrasive paper, so can prolong the life of round bar 9, drive wheel 2 and rolling wheel 3, reduction in production cost.

Further, the bottom of the backing plate 4 is provided with a sloping plate 12.

The sloping plate 12 is arranged at the bottom of the backing plate 4, and two side edges of the sloping plate are attached to the surface of the supporting plate 1. After the cutter 5 cuts the phosphor plastic strip into particles, the sloping plate 12 can guide the phosphor plastic particles, so that the phosphor plastic particles fall into a collecting tank or a gunny bag below the sloping plate 12.

Further, the upper surface of the left end of the backing plate 4 is lower than the central section of the driving wheel 2, and the upper surface of the right end of the backing plate 4 and the central section of the driving wheel 2 are on the same horizontal plane.

The upper surface of the left end of the backing plate 4 is lower than the central section of the driving wheel 2, so that the upper surface of the left end of the backing plate 4 can be prevented from wearing the fluorescent powder plastic strip when the fluorescent powder plastic strip passes through the driving wheel 2 and the rolling wheel 3 and is conveyed to the cutter 5. The upper surface of the right end of the backing plate 4 and the central section of the driving wheel 2 are positioned on the same horizontal plane, when the fluorescent powder plastic strips are conveyed to the position under the cutter 5, the fluorescent powder plastic strips are positioned at the horizontal position, the cutter 5 can conveniently cut the fluorescent powder plastic strips, and the grain cutting quality of the grain cutting machine is improved.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. A granulator convenient for adjusting the position of a fluorescent powder plastic strip is characterized by comprising two supporting plates, a driving wheel, a rolling wheel, a base plate, a cutter, a cylinder, a transverse plate, a position adjusting plate and a round rod, wherein the two supporting plates are oppositely arranged in parallel, and the driving wheel, the rolling wheel, the base plate, the transverse plate, the position adjusting plate and the round rod are all arranged between the two supporting plates;

the driving wheel and the rolling wheel can rotate, and the central axis of the driving wheel and the central axis of the rolling wheel are positioned on the same vertical plane; the cylinder is arranged on one side, close to the driving wheel, of the transverse plate, the cutter is arranged at the output end of a piston rod of the cylinder, the base plate is located between the driving wheel and the cutter, and the cutter is opposite to the right end of the base plate; the position adjusting plate is positioned on the left sides of the driving wheel and the rolling wheel, a plurality of through circular channels and a plurality of through square openings are arranged in the position adjusting plate, and the square openings are communicated with two adjacent circular channels; the round rod is positioned on the left side of the position adjusting plate, and the conveying tangent plane of the round rod and the central section of the driving wheel are positioned on the same horizontal plane.

2. The pelletizer for facilitating the adjustment of the position of a phosphor plastic strip as set forth in claim 1, wherein the driving wheel, the rolling wheel and the round bar are provided with connecting bearings at both ends thereof, and the driving wheel, the rolling wheel and the round bar are rotatably provided between the two supporting plates through the connecting bearings.

3. The pelletizer as set forth in claim 1, wherein the inlet and outlet of said circular channel are both flared circular surfaces.

4. The pelletizer for facilitating the position adjustment of phosphor plastic strands as recited in claim 1, wherein a guide channel is provided between said position adjustment plate and said drive wheel, said guide channel including a feed port and a discharge port, said feed port being adjacent to said position adjustment plate, said discharge port being adjacent to said drive wheel.

5. The pelletizer to facilitate the alignment of phosphor strands as recited in claim 4, wherein said feed port is located at a level below the level of the lowest point of the inner wall of said circular channel.

6. The pelletizer for facilitating the position adjustment of phosphor plastic strips as set forth in claim 4, wherein the discharge port is located on a horizontal plane with the central section of the driving wheel.

7. The pelletizer of claim 6, wherein the front and back sides of the discharge port are provided with limiting posts.

8. The pelletizer for facilitating the positioning of phosphor plastic strands as recited in claim 1, wherein the driving wheel, the rolling wheel and the rolling surface of the rod are coated with sand paper.

9. The pelletizer for facilitating the alignment of phosphor strands as set forth in claim 1, wherein the bottom of the backing plate is provided with a sloping plate.

10. The pelletizer for facilitating the alignment of phosphor strands as set forth in claim 1, wherein the upper surface of the left end of the shim plate is lower than the center section of the drive wheel, and the upper surface of the right end of the shim plate is located on the same horizontal plane as the center section of the drive wheel.

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