CN114633395A - Excision equipment of plastic granules processing - Google Patents

Abstract

The invention provides a cutting device for plastic particle processing, which comprises a cutting device and a feeding device, wherein the cutting device comprises a mounting frame, a cutting box and a cutting gear, the cutting box is arranged at the upper end part of the mounting frame, the cutting gear is provided with a plurality of cutting gears, the cutting gears are circumferentially and fixedly sleeved on a first transmission shaft, two end parts of the first transmission shaft are respectively and rotatably arranged in the cutting box through bearings, and a first transmission wheel is arranged at the outer side end of the first transmission shaft extending to the cutting box. The plastic wire cutting machine has the advantages that the plurality of cutting gears are arranged on the first transmission shaft in a penetrating mode, the first transmission wheel at the end portion of the first transmission shaft is driven to drive the cutting gears to rotate, the tooth edges of the cutting gears are matched with the cutting grooves formed in the feeding plate, plastic wires in the cutting grooves are cut, the tooth pitches among the tooth edges of the cutting gears are equal, so that the sizes and the shapes of the manufactured plastic wires are uniform, the cutting gears are provided with the plurality of tooth edges, and the phenomenon that the cutting effect is reduced after long-time work is avoided.

Description

Excision equipment of plastic granules processing

Technical Field

The invention relates to the field of plastic processing, in particular to a cutting device for plastic particle processing.

Background

At present, the application range of plastics is wider and wider, the plastics are recyclable and reusable substances, and waste plastics are usually made into plastic regenerated particles which are convenient to be made into other plastic products, so that the regenerated resources are developed vigorously, and waste materials are changed into valuable materials. In the existing production process of plastic particles, the processes of extrusion molding, wire drawing, cooling and granulation are mostly needed. Therefore, the plastic granulator mainly comprises an extrusion system, a transmission system, a heating and cooling system and a cutting system.

The existing cutting system of the plastic granulator, particularly the working principle of a cutting part is to cut plastic wires which are drawn and cooled by a heating and cooling system through a blade. However, the cutting edge becomes dull gradually when the blade is used for cutting the plastic wires for a long time, so that the cutting effect is influenced, and the working efficiency is reduced; when the blade works for a long time and generates heat by friction with plastic particles, plastic wires which are not completely cooled are adhered to the blade, the continuous work of the blade is influenced, the running speed of the blade is reduced, and when the cutting speed of the blade is changed, the size and the shape of the manufactured plastic particles are uneven. The dull blade also breaks up the particle segments when cutting rapidly, which results in uneven particle size and waste due to particle crushing, and therefore, in view of the above-mentioned drawbacks, an excision equipment for plastic particle processing is designed.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the cutting system of the plastic granulator cuts the plastic wires by using the blades, and the blades can dull the cutting edges after long-time cutting operation, so that the cutting effect is influenced, and the working efficiency is reduced; the plastic particles are adhered to the blade, and the size and shape of the plastic particles are not uniform.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the cutting device comprises a mounting frame, a cutting box and a cutting gear, wherein the cutting box is mounted at the upper end of the mounting frame, the cutting gear is provided with a plurality of cutting gears which are circumferentially and fixedly sleeved on a first transmission shaft, two ends of the first transmission shaft are rotatably mounted inside the cutting box through bearings respectively, and a first transmission wheel is mounted at the outer end of the first transmission shaft extending to the cutting box;

the feeding device comprises a feeding plate and a material pushing plate, the material pushing plate is mounted on the feeding plate, a plurality of cutting grooves are formed in the surface of the feeding plate, rollers are respectively arranged at the positions, corresponding to the cutting grooves, of the bottom of the material pushing plate and abut against the cutting grooves, the rollers are rotatably mounted on the material pushing plate through rotating shafts, and a driving motor is arranged on one side of each rotating shaft;

the feeding device is arranged in the cutting box and is arranged below the cutting gear, the cutting groove in the feeding plate corresponds to the cutting gear, the cutting gear can be abutted against the cutting groove, and the cutting groove is matched with the cutting edge section of the cutting gear.

Preferably, a second transmission shaft is installed in the cutting box, one end of the second transmission shaft extends outwards to form a transmission wheel, the other end of the second transmission shaft extends outwards to form a second transmission wheel, the second transmission wheel and the first transmission wheel are installed in a rotating transmission mode and are arranged on one side of the cutting box, and the radius of the second transmission wheel is smaller than that of the first transmission wheel.

Preferably, the first transmission wheel and the second transmission wheel are in a gear structure, and the first transmission wheel and the second transmission wheel are meshed with each other.

Preferably, the material pushing plate comprises a first material pushing plate and a second material pushing plate, the first material pushing plate is fixedly installed on the material feeding plate, the second material pushing plate is movably installed between the material feeding plate and the first material pushing plate, and a rotating shaft connected with the roller is installed on the second material pushing plate;

the first material pushing plate is provided with an adjusting portion, the second material pushing plate is provided with a threaded rod, the adjusting portion is sleeved on the threaded rod, and the distance between the first material pushing plate and the second material pushing plate can be adjusted by rotating the adjusting portion.

Preferably, a first compression spring is arranged between the first material pushing plate and the second material pushing plate in a clamping mode.

Preferably, an arc-shaped groove is formed along the peripheral wall of the roller.

Preferably, a pressing part is installed on the mounting frame below the feeding plate, and a second pressure spring is clamped between the pressing part and the feeding plate;

the feed plate with the mounting bracket junction is provided with the slider, corresponds install the slide rail on the mounting bracket, the slider is installed in the slide rail, makes the feed plate can reciprocate.

Preferably, the upper end and the lower end of the slide rail are provided with limit parts, and the slide block can only move in a limited range; and the slide rail can be adjusted the position on the mounting bracket, and then drive feed arrangement reciprocates.

Preferably, a box cover is mounted on the cutting box, and the box cover is made of transparent materials.

Preferably, the second transmission shaft is sleeved with a rubber blade at a position corresponding to the cutting gear.

The plastic wire cutting machine has the advantages that the plurality of cutting gears are arranged on the first transmission shaft in a penetrating mode, the first transmission wheel is arranged at the end portion of the first transmission shaft, the cutting gears are driven to rotate by driving the first transmission wheel, tooth edges on the cutting gears are matched with cutting grooves formed in the feeding plate, plastic wires in the cutting grooves are cut, the tooth pitches among the cutting gear tooth edges are equal, the sizes and the shapes of the manufactured plastic wires are uniform, the cutting gears are provided with the plurality of tooth edges, the phenomenon that the cutting effect is reduced after long-time work is avoided, the cutting gears can play a role in pulling the plastic wires, high-speed continuous cutting is achieved, and too little or too much feeding is avoided; the material pushing plate of the feeding device comprises a first material pushing plate and a second material pushing plate, a first pressure spring is clamped between the first material pushing plate and the second material pushing plate, an adjusting portion is arranged on the first material pushing plate, the distance between the first material pushing plate and the second material pushing plate can be adjusted, plastic wires of different sizes can be adapted, the plastic wires are pushed to the position of the cutting gear through the roller to be cut, and the cutting gear can be guaranteed to be completely cut off through the floating arrangement of the spring.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic diagram of an overall combined three-dimensional structure provided by an embodiment of the present invention;

FIG. 2 is a schematic perspective view of FIG. 1 with the cover removed;

FIG. 3 is a rear perspective view of FIG. 1;

FIG. 4 is a schematic view of the front view of FIG. 1;

FIG. 5 is a schematic diagram of an overall exploded perspective structure provided by an embodiment of the present invention;

FIG. 6 is a schematic view of the front view of FIG. 5;

FIG. 7 is a schematic perspective view of a feeding device provided in an embodiment of the present invention;

FIG. 8 is a schematic view of the front view of FIG. 7;

FIG. 9 is an enlarged partial schematic view of FIG. 8;

in the figure: 1-cutting device, 1.1-mounting frame, 1.2-cutting box, 1.3-box cover, 1.4-cutting gear, 1.5-driving wheel, 1.6-second driving shaft, 1.7-second driving wheel, 1.8-first driving shaft, 1.9-first driving wheel, 1.10-sliding rail, 2-feeding device, 2.1-feeding plate, 2.2-cutting groove, 2.3-pushing plate, 2.31-first pushing plate, 2.32-second pushing plate, 2.4-roller, 2.5-adjusting part, 2.6-pressing part, 2.7-driving motor, 2.8-first pressure spring, 2.9-second pressure spring and 2.10-sliding block.

Detailed Description

The above-described scheme is further illustrated below with reference to specific examples. It is to be understood that these examples are for the purpose of illustrating the invention and are not to be construed as limiting the scope of the invention. The conditions used in the examples may be further adjusted according to the conditions of the particular manufacturer, and the conditions not specified are generally the conditions in routine experiments.

In a concrete embodiment, provide a excision equipment of plastic granules processing, including resection device 1 and feed arrangement 2, resection device 1 includes mounting bracket 1.1, excision case 1.2 and excision gear 1.4, and mounting bracket 1.1 upper end is provided with excision case 1.2, and excision gear 1.4 is a plurality of and fixed cover of circumference is established on first transmission shaft 1.8, and its specifically can change the quantity of excision gear 1.4 according to actual production needs. When the cutting box is installed, bearings are arranged at two ends of the first transmission shaft 1.8, the cutting gear 1.4 is installed inside the cutting box 1.2 through the first transmission shaft 1.8, and a first transmission wheel 1.9 for driving the cutting gear 1.4 to rotate is installed at the outer side end of the first transmission shaft 1.8 extending to the cutting box 1.2. When the cutting device is used, the first transmission wheel 1.9 can be directly rotated to drive the cutting gear 1.4 to rotate, so that a main cutting motion is realized, namely, the first transmission wheel 1.9 and a power end directly carry out torque transmission. In order to realize the function of rotary cutting of the cutting gear 1.4, the device also comprises: a feeding device 2, which comprises in particular:

many excision groove 2.2 that can hold plastics wire drawing and direction are seted up at feed plate 2.1 to feed plate 2.1, feed arrangement 2 installs on mounting bracket 1.1 or behind excision case 1.2, excision groove 2.2 on its feed plate 2.1 sets up with every excision gear 1.4 is corresponding, adjust feed plate 2.1 position back from top to bottom, excision gear 1.4 can with excision groove 2.2 butt, and excision groove 2.2 sets up the form of fitting mutually with excision gear 1.4's tooth sword cross-section, so that can form complete shearing position. When the plastic wire moves to a cutting position during cutting, the tooth edge of the cutting gear 1.4 is matched with the cutting groove 2.2 to cut off the plastic wire. Because the intervals between the tooth edges of the cutting gears 1.4 are equal, the manufactured plastic wires have uniform particle sizes and shapes, and the particle crushing caused by the traditional single-blade impact force cutting is avoided. And because excision gear 1.4 has a plurality of tooth edges, after long-time work, can not take place the too high bonding material silk phenomenon of cutting part temperature, consequently, can effectively improve cutting efficiency and cutting stability. In addition, because the mechanism is circumferential rotation cutting, after the cutting gear 1.4 rotates, the cutting gear 1.4 can play a role in drawing and pulling the plastic wires, high-speed continuous cutting is realized, and the generation of too little or too much feeding and wire breaking is avoided.

In addition, the device is for planning accurate direction and the abundant feeding of material silk, and avoid taking place the skew when the material silk is cut, the device is provided with scraping wings 2.3, scraping wings 2.3 are installed on feed plate 2.1, be used for pushing the material silk after heating cooling system shaping into the resection device, specifically at scraping wings 2.3 bottom and resection groove 2.2 corresponding position be provided with gyro wheel 2.4, gyro wheel 2.4 corresponds the setting with every resection groove 2.2, and during operation can with resection groove 2.2 butt, wherein a plurality of gyro wheels 2.4 are through the cover establish in a pivot, and for making gyro wheel 2.4 produce the power of rolling and be provided with driving motor 2.7 in one side of pivot, drive gyro wheel 2.4 rotatory through driving motor 2.7 during the feeding, and can clip the material silk through gyro wheel 2.4 and resection groove 2.2, the material silk tip can push to resection gear 1.4 department and feed the cutting once more.

Therefore, synthesize above-mentioned scheme, this device can play high-efficient and steady operation in granule processing cuts off the process, makes granule cutting specification more unified, reduces the waste of stock silk to a certain extent. However, in order to further improve the service performance and the operation convenience of the device, the specific structure of each part of the device is further improved and optimized:

firstly, the main cutting power transmission part of the cutting gear 1.4 of the device is improved:

in this case, a second transmission shaft 1.6 is installed in the cut-off box 1.2, one end of the second transmission shaft extends out of the cut-off box 1.2 and is provided with a transmission wheel 1.5, and the other end of the second transmission shaft extends out of the cut-off box 1.7 and is provided with a second transmission wheel 1.7, wherein the second transmission wheel 1.7 and the first transmission wheel 1.9 are arranged on the same side of the cut-off box 1.2, and torque can be transmitted between the second transmission wheel 1.7 and the first transmission wheel 1.9, such as transmission belt wheels or gears, and in order to obtain a reasonable transmission speed, the radius of the second transmission wheel 1.7 is set to be smaller than that of the first transmission wheel 1.9. Because the driving wheel 1.5 and the second driving wheel 1.7 coaxially rotate, a power source can be electrically connected with the driving wheel 1.5 to indirectly drive the first driving wheel 1.9 to drive the cutting gear 1.4 to rotate, so that the cutting main motion is realized, and the structure mainly realizes an effect of reducing speed and increasing torque or an effect of increasing speed when cutting fine material wires.

The gear transmission mode can ensure constant instantaneous transmission ratio, higher stability and accurate and reliable transmission motion; the range of transmitted power and speed is large; compact structure, reliable operation, high transmission ratio, high transmission efficiency and long service life. Therefore, in this case, the preferred embodiment is a way of matching the second transmission wheel 1.7 with the first transmission wheel 1.9.

Secondly, the feeding auxiliary transmission part of the feeding device 2 of the device is improved:

in the present case, the material pushing plate 2.3 further includes a first material pushing plate 2.31 and a second material pushing plate 2.32, the first material pushing plate 2.31 is fixedly installed on the feeding plate 2.1, the second material pushing plate 2.32 is movably installed between the feeding plate 2.1 and the first material pushing plate 2.31, a rotating shaft connected with the roller 2.4 is installed on the second material pushing plate 2.32, the first material pushing plate 2.31 is provided with an adjusting portion 2.5, the second material pushing plate 2.32 is provided with a threaded rod, the adjusting portion 2.5 is sleeved on the threaded rod, and the distance between the first material pushing plate 2.31 and the second material pushing plate 2.32 can be adjusted by rotating the adjusting portion 2.5. When the sizes of the plastic wires to be cut are different, the distance between the first material pushing plate 2.31 and the second material pushing plate 2.32 is adjusted through the adjusting portion 2.5, and then the distance between the roller 2.4 and the cutting groove 2.2 is adjusted, so that the plastic wires with different sizes can pass through, and the crimping degree of the material wires of the roller 2.4 can be adjusted. Further, a first pressure spring 2.8 may be interposed between the first material pushing plate 2.31 and the second material pushing plate 2.32, and when the distance between the first material pushing plate 2.31 and the second material pushing plate 2.32 is adjusted, the roller 2.4 is tightly attached to the cutting groove 2.2, at this time, because the first pressure spring 2.8 is interposed between the first material pushing plate 2.31 and the second material pushing plate 2.32, the plastic wire may push the roller 2.4 to move upward when passing through the roller 2.4, and under the action of the first pressure spring 2.8, the roller 2.4 may push the plastic wire with a large force to prevent a slipping phenomenon when pushing the plastic wire. On the contrary, the arrangement of the first pressure spring 2.8 also avoids the problem that the plastic wire cannot pass through due to the fact that the distance between the first material pushing plate 2.31 and the second material pushing plate 2.32 is adjusted to be too close, and when the distance is too far, the roller 2.4 is not in contact with the plastic wire, so that the plastic wire cannot be pushed to move forwards to the position of the cutting gear 1.4. In the present case, will further locate to have seted up arc recess in gyro wheel 2.4 center circumference, can direct plastic filament straight forward and remove, make the plastic granules of making more even.

In addition, the connecting part of the feeding plate 2.1 is also improved: install on mounting bracket 1.1 below feed plate 2.1 and compress tightly portion 2.6, press from both sides and be equipped with pressure spring two 2.9 between portion 2.6 and feed plate 2.1, be provided with slider 2.10 at feed plate 2.1 and mounting bracket 1.1 junction, install slide rail 1.10 on the corresponding mounting bracket 1.1, slider 2.10 is installed in slide rail 1.10, makes feed plate 2.1 can reciprocate. The same principle is the same, when the most lower tooth sword of excision gear 1.4 and excision groove 2.2 butt, the possibility that part plastics silk can't be cut off also can appear, consequently be provided with pressure spring two 2.9, and install feed plate 2.1 through slider 2.10 and remove in slide rail 1.10, make feed plate 2.1 up-movement under the effect of pressure spring two 2.9 paste the tooth sword of excision gear 1.4 tightly, and the size difference when the plastics silk makes, because feed plate 2.1 can fluctuate, consequently the not unidimensional plastics silk of adaptation that can be fine. Preferably, the upper end and the lower end of the slide rail 1.10 are provided with limiting parts, and the slide block 2.10 can only move within a limited range, so that the risk that the slide block 2.10 falls off from the slide rail 1.10 when the feed plate 2.1 moves up and down is avoided. And slide rail 1.10 can adjust the position on mounting bracket 1.1, and then drives feed arrangement 2 and reciprocates, when changing the excision gear 1.4 of different sizes, can directly adjust the position of feed plate 2.1, makes it and excision gear 1.4 contact.

In the present case, still install case lid 1.3 on excision case 1.2 to case lid 1.3 is made for transparent material, can clearly observe the operating condition of excision case 1.2 inside excision gear 1.4, makes things convenient for personnel in time to react.

Finally, in order to improve smooth discharge of the cut particles, a rubber blade is sleeved at a position, corresponding to the cutting gear 1.4, of the second transmission shaft 1.6. When discharging, the second transmission shaft 1.6 drives the rubber blades to rotate, so that particles can be thrown forwards or downwards into the collecting bag, and the rubber blades are adopted to prevent the particles from being smashed.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. The cutting equipment for processing the plastic particles is characterized by comprising a cutting device (1) and a feeding device (2), wherein the cutting device (1) comprises a mounting frame (1.1), a cutting box (1.2) and a cutting gear (1.4), the cutting box (1.2) is mounted at the upper end part of the mounting frame (1.1), the cutting gear (1.4) is provided with a plurality of cutting gears and is circumferentially and fixedly sleeved on a first transmission shaft (1.8), two end parts of the first transmission shaft (1.8) are respectively rotatably mounted inside the cutting box (1.2) through bearings, and a first transmission wheel (1.9) is mounted at the outer end of the first transmission shaft (1.8) extending to the cutting box (1.2);

the feeding device (2) comprises a feeding plate (2.1) and a pushing plate (2.3), the pushing plate (2.3) is installed on the feeding plate (2.1), a plurality of cutting grooves (2.2) are formed in the surface of the feeding plate (2.1), rollers (2.4) are respectively arranged at the positions, corresponding to the cutting grooves (2.2), of the bottom of the pushing plate (2.3), the rollers (2.4) are abutted to the cutting grooves (2.2), the rollers (2.4) are rotatably installed on the pushing plate (2.3) through rotating shafts, and a driving motor (2.7) is arranged on one side of each rotating shaft;

the feeding device (2) is installed on the cutting box (1.2) and is arranged below the cutting gear (1.4), the cutting groove (2.2) on the feeding plate (2.1) corresponds to the cutting gear (1.4), the cutting gear (1.4) can be abutted against the cutting groove (2.2), and the cutting groove (2.2) is matched with the tooth blade section of the cutting gear (1.4).

2. A cutting device for plastic granules processing according to claim 1, wherein a second transmission shaft (1.6) is mounted in the cutting box (1.2), with one end extending outwards provided with a transmission wheel (1.5) and the other end extending outwards provided with a second transmission wheel (1.7), said second transmission wheel (1.7) being rotatably transmission mounted with said first transmission wheel (1.9) and arranged at one side of the cutting box (1.2), wherein the radius of said second transmission wheel (1.7) is smaller than the radius of said first transmission wheel (1.9).

3. A cutting device for plastic granules processing, as claimed in claim 2, characterized in that said first transmission wheel (1.9) and said second transmission wheel (1.7) are of a gear structure and said first transmission wheel (1.9) and said second transmission wheel (1.7) are mutually engaged.

4. An excision apparatus for plastic particle processing as claimed in claim 1, wherein said material pushing plate (2.3) comprises a first material pushing plate (2.31) and a second material pushing plate (2.32), said first material pushing plate (2.31) is fixedly installed on said feeding plate (2.1), said second material pushing plate (2.32) is movably installed between said feeding plate (2.1) and said first material pushing plate (2.31), and a rotating shaft connecting said roller (2.4) is installed on said second material pushing plate (2.32);

the first material pushing plate (2.31) is provided with an adjusting portion (2.5), the second material pushing plate (2.32) is provided with a threaded rod, the adjusting portion (2.5) is sleeved on the threaded rod, and the distance between the first material pushing plate (2.31) and the second material pushing plate (2.32) can be adjusted by rotating the adjusting portion (2.5).

5. The cutting-off equipment for plastic particle processing according to claim 4, characterized in that a compression spring (2.8) is clamped between the first ejector plate (2.31) and the second ejector plate (2.32).

6. A cutting device for plastic granules processing according to claim 1, characterized in that an arc-shaped groove is provided along the peripheral wall of the roller (2.4).

7. The cutting equipment for processing the plastic particles as claimed in claim 1, characterized in that a pressing part (2.6) is arranged on the mounting frame (1.1) below the feeding plate (2.1), and a second pressing spring (2.9) is clamped between the pressing part (2.6) and the feeding plate (2.1);

the feed plate (2.1) with mounting bracket (1.1) junction is provided with slider (2.10), corresponds install slide rail (1.10) on mounting bracket (1.1), slider (2.10) are installed in slide rail (1.10), make feed plate (2.1) can reciprocate.

8. The cutting equipment for processing the plastic particles as claimed in claim 7, characterized in that the upper and lower end parts of the slide rail (1.10) are provided with limit parts, and the slide block (2.10) can only move within a limited range; and the slide rail (1.10) can be adjusted in position on the mounting rack (1.1), so as to drive the feeding device (2) to move up and down.

9. A cutting device for plastic granules processing according to claim 1, characterized in that a cover (1.3) is mounted on the cutting box (1.2) and that the cover (1.3) is made of transparent material.

10. The cutting device for plastic particle processing according to claim 2, characterized in that the second transmission shaft (1.6) is provided with rubber blades at the position corresponding to the cutting gear (1.4).

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