阅读说明：本技术 一种塑料加工用塑料圆柱切割设备 (Plastics cylinder cutting equipment for plastics processing ) 是由 杨满文 于 2020-11-30 设计创作，主要内容包括：本发明涉及一种取样设备,更具体的说是一种塑料加工用塑料圆柱切割设备,包括传送旋转联动机构、间歇切割联动机构、球型切割机构,设备能够将塑料圆柱传送并将塑料圆柱旋转,设备能够在塑料圆柱传送旋转时将塑料圆柱切割成较短的圆柱,设备能够将较短的圆柱传送至收集箱里,设备能够将塑料圆柱切割成小球,传送旋转联动机构与间歇切割联动机构连接,间歇切割联动机构与球型切割机构连接,球型切割机构与传送旋转联动机构连接。(The invention relates to sampling equipment, in particular to plastic cylinder cutting equipment for plastic processing, which comprises a conveying rotary linkage mechanism, an intermittent cutting linkage mechanism and a spherical cutting mechanism, wherein the equipment can convey a plastic cylinder and rotate the plastic cylinder, can cut the plastic cylinder into shorter cylinders when the plastic cylinder is conveyed and rotated, can convey the shorter cylinders into a collecting box, can cut the plastic cylinder into small balls, and is connected with the conveying rotary linkage mechanism, the intermittent cutting linkage mechanism is connected with the spherical cutting mechanism, and the spherical cutting mechanism is connected with the conveying rotary linkage mechanism.)

1. The utility model provides a plastics cylinder cutting equipment for plastics processing, includes rotatory link gear of conveying (1), intermittent type cutting link gear (2), ball-type cutting mechanism (3), its characterized in that: the conveying rotary linkage mechanism (1) is connected with the intermittent cutting linkage mechanism (2), the intermittent cutting linkage mechanism (2) is connected with the spherical cutting mechanism (3), and the spherical cutting mechanism (3) is connected with the conveying rotary linkage mechanism (1).

2. The plastic cylinder cutting apparatus for plastic processing as set forth in claim 1, wherein: the transmission rotary linkage mechanism (1) comprises a reset column (1-1), a reset connecting block (1-2), a reset tension spring (1-3), a limit triangular block (1-4), a limit strip (1-5), a sliding plate (1-6), a handle (1-7), a motor sliding limit plate (1-8), a motor (1-9), a motor shaft (1-10), a friction wheel (1-11), a connecting plate a (1-12), a connecting shaft a (1-13), a friction wheel a (1-14), a connecting plate b (1-15), a friction wheel b (1-16), a connecting shaft b (1-17), a connecting plate c (1-18), a limit spring (1-19), a connecting plate d (1-20), a handle a (1-21), Connecting plates e (1-22), connecting plates f (1-23), small friction wheels (1-24), large friction wheels (1-25), connecting shafts c (1-26), belts (1-27), connecting shafts d (1-28), connecting plates g (1-29), bevel gears a (1-30), bevel gears b (1-31), transmission wheels (1-32), bearing rings (1-33), lower connecting blocks (1-34) of the bearing rings, tension springs (1-35), upper connecting blocks (1-36) of the bearing rings, connecting plates k (1-37), handles b (1-38), equipment mounting plates (1-39), processing cylinders (1-40), connecting shafts l (1-41) and connecting plates m (1-42), wherein the resetting cylinders (1-1) are in sliding connection with resetting connecting blocks (1-2), the reset connecting block (1-2) is connected with the equipment mounting plate (1-39), the reset tension spring (1-3) is sleeved on the reset column (1-1) and limited on the reset connecting block (1-2) and the limit triangular block (1-4), the limit triangular block (1-4) is in sliding connection with a groove on the bearing ring lower connecting block (1-34), the limit strip (1-5) is connected with the equipment mounting plate (1-39), the sliding plate (1-6) is in sliding connection with the limit triangular block (1-4), the sliding plate (1-6) is connected with the handle (1-7), the sliding plate (1-6) is in sliding connection with the motor sliding limit plate (1-8), the motor sliding limit plate (1-8) is connected with the equipment mounting plate (1-39), the motor (1-9) is connected with the sliding plate (1-6), the motor (1-9) is connected with the motor shaft (1-10), the motor shaft (1-10) is connected with the friction wheel (1-11), the motor shaft (1-10) is connected with the connecting plate a (1-12) in a sliding way, the friction wheel (1-11) is connected with the friction wheel a (1-14) in a friction way, the connecting plate a (1-12) is connected with the equipment mounting plate (1-39), the connecting shaft a (1-13) is connected with the friction wheel a (1-14), the connecting shaft a (1-13) is connected with the small friction wheel (1-24), the connecting shaft a (1-13) is connected with the connecting plate g (1-29) through a bearing, the friction wheel a (1-14) is connected with the friction wheel b (1-16) in a friction way, the connecting plate b (1-15) is connected with the connecting plate e (1-22), the connecting plates b (1-15) are in bearing connection with connecting shafts c (1-26), the connecting plates b (1-15) are connected with equipment mounting plates (1-39), the connecting plates b (1-15) are connected with connecting plates m (1-42), friction wheels b (1-16) are connected with connecting shafts b (1-17), the friction wheels b (1-16) are in sliding connection with connecting plates e (1-22), the connecting shafts b (1-17) are in bearing connection with connecting plates c (1-18), the connecting plates c (1-18) are connected with connecting plates d (1-20), the connecting plates c (1-18) are in sliding connection with connecting plates e (1-22), one ends of limiting springs (1-19) are connected with the connecting plates d (1-20) and the other ends are connected with connecting plates f (1-23), a connecting plate d (1-20) is connected with a handle a (1-21), a connecting plate e (1-22) is connected with a connecting block (1-36) on a bearing ring in a sliding manner, the connecting plate e (1-22) is connected with an equipment mounting plate (1-39), a groove on the connecting plate e (1-22) is connected with a connecting shaft l (1-41) in a sliding manner, a connecting plate f (1-23) is connected with the connecting plate e (1-22), a small friction wheel (1-24) is connected with a large friction wheel (1-25) in a friction manner, the large friction wheel (1-25) is connected with a connecting shaft c (1-26), the connecting shaft c (1-26) is connected with a bearing of the connecting plate g (1-29), one end of a belt (1-27) is connected with the connecting shaft c (1-26) in a friction manner, the other end of the belt is connected with the, a connecting shaft d (1-28) is in bearing connection with a connecting plate g (1-29), the connecting shaft d (1-28) is connected with a helical gear a (1-30), the connecting plate g (1-29) is connected with an equipment mounting plate (1-39), the helical gear a (1-30) is meshed with a helical gear b (1-31), the helical gear b (1-31) is connected with a connecting shaft l (1-41), a transmission wheel (1-32) is connected with the connecting shaft l (1-41), a bearing ring (1-33) is connected with a lower bearing ring connecting block (1-34), the bearing ring (1-33) is connected with an upper bearing ring connecting block (1-36), the bearing ring (1-33) is in bearing connection with the connecting shaft l (1-41), one end of a tension spring (1-35) is connected with the lower bearing ring connecting block (1-34), the other end of the device is connected with a device mounting plate (1-39), a connecting block (1-36) on the bearing ring is connected with a connecting plate k (1-37), the connecting plate k (1-37) is connected with a handle b (1-38), and the device mounting plate (1-39) is connected with a processing cylinder (1-40) in a sliding manner.

3. The plastic cylinder cutting apparatus for plastic processing as set forth in claim 1, wherein: the intermittent cutting linkage mechanism (2) comprises a linkage friction wheel a (2-1), a transmission shaft a (2-2), a linkage friction wheel b (2-3), a bearing connecting plate (2-4), a special-shaped friction wheel (2-5), a transmission shaft b (2-6), a torsion spring (2-7), a mounting plate a (2-8), a mounting plate b (2-9), a cutting knife (2-10), a mounting plate c (2-11), a cutting knife limiting strip (2-12), an output connecting wheel (2-13), an output toggle block (2-14), an output sliding block (2-15), an output reset shaft (2-16), a mounting plate d (2-17), a linkage tension spring (2-18), an output connecting box (2-19) and a mounting plate e (2-20), the linkage friction wheel a (2-1) is in friction connection with the belt (1-27), the linkage friction wheel a (2-1) is connected with the transmission shaft a (2-2), the transmission shaft a (2-2) is in bearing connection with the connecting plate m (1-42), the transmission shaft a (2-2) is connected with the linkage friction wheel b (2-3), the transmission shaft a (2-2) is in bearing connection with the bearing connecting plate (2-4), the linkage friction wheel b (2-3) is in friction connection with the special-shaped friction wheel (2-5), the bearing connecting plate (2-4) is in bearing connection with the transmission shaft b (2-6), the special-shaped friction wheel (2-5) is connected with the transmission shaft b (2-6), the transmission shaft b (2-6) is connected with the mounting plate a (2-8), the transmission shaft b (2-6) is in bearing connection with the mounting plate b (2-9), a transmission shaft b (2-6) is in threaded connection with a mounting plate c (2-11), a torsion spring (2-7) is sleeved on the transmission shaft b (2-6) and limited on a bearing connecting plate (2-4) and a mounting plate a (2-8), the mounting plate b (2-9) is connected with a cutting knife (2-10), the cutting knife (2-10) is connected with a cutting knife limit strip (2-12), the cutting knife (2-10) is in sliding connection with a connecting plate m (1-42), the mounting plate c (2-11) is connected with a connecting plate e (1-22), an output connecting wheel (2-13) is connected with a connecting shaft a (1-13), the output connecting wheel (2-13) is connected with an output shifting block (2-14), an output sliding block (2-15) is in sliding connection with the output shifting block (2-14), the output reset shaft (2-16) is connected with the mounting plate d (2-17) in a sliding mode, the mounting plate d (2-17) is connected with the equipment mounting plate (1-39), the linkage tension spring (2-18) is sleeved on the output reset shaft (2-16) and limited on the output sliding block (2-15) and the mounting plate d (2-17), the output connecting box (2-19) is connected with the equipment mounting plate (1-39), the mounting plate e (2-20) is connected with the equipment mounting plate (1-39), and the mounting plate e (2-20) is connected with the output sliding block (2-15) in a sliding mode.

4. The plastic cylinder cutting apparatus for plastic processing as set forth in claim 1, wherein: the spherical cutting mechanism (3) comprises a rubber column (3-1), a brake block (3-2), a pulling column (3-3), a brake connecting plate (3-4), a brake connecting spring (3-5), a connecting plate I (3-6), a connecting plate II (3-7), a bevel gear a (3-8), a connecting shaft I (3-9), a connecting plate III (3-10), a connecting plate IV (3-11), a semicircular cutter (3-12), a rotary friction wheel (3-13), a cutting friction wheel a (3-14), a bevel gear b (3-15), a connecting shaft II (3-16) and a connecting plate V (3-17), one end of the rubber column (3-1) is connected with the sliding plate (1-6), and the other end is connected with the brake block (3-2), a brake block (3-2) is connected with a pulling column (3-3), the pulling column (3-3) is connected with a brake connecting plate (3-4) in a sliding way, the brake connecting plate (3-4) is connected with an equipment mounting plate (1-39), a brake connecting spring (3-5) is sleeved on the pulling column (3-3) and limited on the brake block (3-2) and the brake connecting plate (3-4), a connecting plate I (3-6) is connected with a mounting plate e (2-20), a connecting plate I (3-6) is connected with a connecting plate II (3-7), a connecting plate II (3-7) is connected with a connecting shaft I (3-9) in a bearing way, a bevel gear a (3-8) is connected with the connecting shaft I (3-9), and the bevel gear a (3-8) is meshed with a bevel gear b (3-15), a first connecting shaft (3-9) is in threaded connection with a third connecting plate (3-10), the first connecting shaft (3-9) is connected with a fourth connecting plate (3-11), the third connecting plate (3-10) is connected with a mounting plate e (2-20), the fourth connecting plate (3-11) is connected with a semicircular cutter (3-12), the fourth connecting plate (3-11) is in sliding connection with the mounting plate e (2-20), the semicircular cutter (3-12) is in sliding connection with the mounting plate e (2-20), a rotary friction wheel (3-13) is connected with a motor shaft (1-10), a cutting friction wheel a (3-14) is connected with a connecting shaft a (1-13), the connecting shaft a (3-14) is in friction connection with a helical gear b (3-15), the helical gear b (3-15) is connected with a second connecting shaft (3-16), the second connecting shaft (3-16) is in bearing connection with the fifth connecting plate (3-17), the second connecting shaft (3-16) is in bearing connection with the g (1-29) connecting plate, and the fifth connecting plate (3-17) is connected with the equipment mounting plate (1-39).

5. The plastic cylinder cutting apparatus for plastic processing as set forth in claim 1, wherein: the rubber column (3-1) is made of high-elasticity rubber.

Technical Field

The invention relates to a plastic cylinder cutting device, in particular to a plastic cylinder cutting device for plastic processing.

Background

When the plastic cylinder is machined, the plastic cylinder is often required to be cut, most of equipment has single functions and needs a plurality of technological processes, but no better plastic cylinder cutting equipment exists in the market, so that the plastic cylinder cutting equipment for plastic machining is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing plastic cylinder cutting equipment for plastic processing, wherein the equipment can convey a plastic cylinder and rotate the plastic cylinder, the equipment can cut the plastic cylinder into shorter cylinders when the plastic cylinder is conveyed and rotated, the equipment can convey the shorter cylinders into a collecting box, and the equipment can cut the plastic cylinder into small balls.

In order to solve the technical problem, the invention relates to sampling equipment, in particular to plastic cylinder cutting equipment for plastic processing, which comprises a conveying and rotating linkage mechanism, an intermittent cutting linkage mechanism and a spherical cutting mechanism.

The conveying rotary linkage mechanism is connected with the intermittent cutting linkage mechanism, the intermittent cutting linkage mechanism is connected with the spherical cutting mechanism, and the spherical cutting mechanism is connected with the conveying rotary linkage mechanism.

As a further optimization of the technical scheme, the plastic cylinder cutting equipment for plastic processing comprises a transmission rotary linkage mechanism, a reset connecting block, a reset tension spring, a limit triangular block, a limit strip, a sliding plate, a handle, a motor sliding limit plate, a motor shaft, a friction wheel, a connecting plate a, a connecting shaft a, a friction wheel a, a connecting plate b, a friction wheel b, a connecting shaft b, a connecting plate c, a limit spring, a connecting plate d, a handle a, a connecting plate e, a connecting plate f, a small friction wheel, a large friction wheel, a connecting shaft c, a belt, a connecting shaft d, a connecting plate g, a bevel gear a, a bevel gear b, a transmission wheel, a bearing ring lower connecting block, a tension spring, a bearing ring upper connecting block, a connecting plate k, a handle b, an equipment mounting plate, a processing cylinder, a connecting shaft l and a connecting plate m, wherein the, the reset connecting block is connected with the equipment mounting plate, the reset tension spring is sleeved on the reset column and is limited on the reset connecting block and the limit triangular block, the limit triangular block is connected with a groove on the connecting block below the bearing ring in a sliding manner, the limit strip is connected with the equipment mounting plate, the sliding plate is connected with the limit triangular block in a sliding manner, the sliding plate is connected with the handle in a sliding manner, the sliding plate is connected with the motor sliding limit plate, the motor sliding limit plate is connected with the equipment mounting plate, the motor is connected with the sliding plate, the motor is connected with the motor shaft, the motor shaft is connected with the friction wheel, the motor shaft is connected with the connecting plate a in a sliding manner, the friction wheel is connected with the friction wheel a in a friction manner, the connecting plate a is connected with the equipment mounting plate, the connecting shaft a is connected with the friction wheel a, the connecting plate b is connected with a connecting shaft c in a bearing mode, the connecting plate b is connected with an equipment mounting plate, the connecting plate b is connected with a connecting plate m, the friction wheel b is connected with the connecting shaft b, the friction wheel b is connected with a connecting plate e in a sliding mode, the connecting shaft b is connected with a connecting plate c in a bearing mode, the connecting plate c is connected with a connecting plate d in a sliding mode, one end of a limiting spring is connected with the connecting plate d and the other end of the limiting spring is connected with a connecting plate f, the connecting plate d is connected with a handle a, the connecting plate e is connected with a connecting block on a bearing ring in a sliding mode, the connecting plate e is connected with the equipment mounting plate, a groove in the connecting plate e is connected with a connecting shaft l in a sliding mode, the connecting plate f is connected with the connecting plate e, a small friction wheel is connected, the connecting shaft d is connected with the connecting plate g through a bearing, the connecting shaft d is connected with the helical gear a, the connecting plate g is connected with the equipment mounting plate, the helical gear a is meshed with the helical gear b, the helical gear b is connected with the connecting shaft l, the conveying wheel is connected with the connecting shaft l, the bearing ring is connected with the lower connecting block of the bearing ring, the bearing ring is connected with the upper connecting block of the bearing ring, the bearing ring is connected with the bearing of the connecting shaft l, one end of the tension spring is connected with the lower connecting block of the bearing ring, the other end of the tension spring is connected with the equipment mounting plate, the upper connecting block of the bearing ring.

As a further optimization of the technical scheme, the invention relates to a plastic cylinder cutting device for plastic processing, wherein an intermittent cutting linkage mechanism comprises a linkage friction wheel a, a transmission shaft a, a linkage friction wheel b, a bearing connecting plate, a special-shaped friction wheel, a transmission shaft b, a torsion spring, a mounting plate a, a mounting plate b, a cutting knife, a mounting plate c, a cutting knife limit strip, an output connecting wheel, an output toggle block, an output sliding block, an output reset shaft, a mounting plate d, a linkage tension spring, an output connecting box and a mounting plate e, wherein the linkage friction wheel a is in friction connection with a belt, the linkage friction wheel a is connected with the transmission shaft a, the transmission shaft a is in bearing connection with the connecting plate m, the transmission shaft a is connected with the linkage friction wheel b, the transmission shaft a is in bearing connection with the bearing connecting plate, the linkage friction wheel b is in friction connection with the, the special-shaped friction wheel is connected with the transmission shaft b, the transmission shaft b is connected with the mounting plate a, the transmission shaft b is in bearing connection with the mounting plate b, the transmission shaft b is in threaded connection with the mounting plate c, the torsion spring is sleeved on the transmission shaft b and limited to the bearing connecting plate and the mounting plate a, the mounting plate b is connected with the cutting knife, the cutting knife is connected with the cutting knife limiting strip, the cutting knife is in sliding connection with the connecting plate m, the mounting plate c is connected with the connecting plate e, the output connecting wheel is connected with the connecting shaft a, the output connecting wheel is connected with the output stirring block, the output sliding block is in sliding connection with the output stirring block, the output resetting shaft is in sliding connection with the mounting plate d, the mounting plate d is connected with the equipment mounting plate, the linkage tension spring is sleeved on the output resetting shaft and limited to the output sliding block.

As a further optimization of the technical scheme, the invention relates to plastic cylinder cutting equipment for plastic processing, wherein a spherical cutting mechanism comprises a rubber cylinder, a brake block, a pulling cylinder, a brake connecting plate, a brake connecting spring, a connecting plate I, a connecting plate II, a bevel gear a, a connecting shaft I, a connecting plate III, a connecting plate IV, a semicircular cutter, a rotary friction wheel, a cutting friction wheel a, a bevel gear b, a connecting shaft II and a connecting plate V, one end of the rubber cylinder is connected with a sliding plate and the other end is connected with the brake block, the brake block is connected with the pulling cylinder, the pulling cylinder is connected with the brake connecting plate in a sliding way, the brake connecting plate is connected with an equipment mounting plate, the brake connecting spring is sleeved on the pulling cylinder and limited on the brake block and the brake connecting plate, the connecting plate I is connected with a mounting plate e, the connecting plate I is connected with the connecting plate, the bevel wheel a is meshed with the bevel wheel b, the first connecting shaft is in threaded connection with the third connecting plate, the first connecting shaft is connected with the fourth connecting plate, the third connecting plate is connected with the mounting plate e, the fourth connecting plate is connected with the semicircular cutter, the fourth connecting plate is in sliding connection with the mounting plate e, the semicircular cutter is in sliding connection with the mounting plate e, the rotary friction wheel is connected with the motor shaft, the cutting friction wheel a is connected with the connecting shaft a, the cutting friction wheel a is in friction connection with the bevel wheel b, the bevel wheel b is connected with the second connecting shaft, the second connecting shaft is connected with the five connecting plate bearing, the second connecting shaft is connected with the g.

As a further optimization of the technical scheme, the plastic cylinder cutting equipment for plastic processing is characterized in that the rubber cylinder is made of high-elasticity rubber.

The plastic cylinder cutting equipment for plastic processing has the beneficial effects that:

the invention relates to a plastic cylinder cutting device for plastic processing, which is provided with a device capable of conveying a plastic cylinder and rotating the plastic cylinder, wherein the device is capable of cutting the plastic cylinder into shorter cylinders when the plastic cylinder is conveyed and rotated, the device is capable of conveying the shorter cylinders into a collecting box, and the device is capable of cutting the plastic cylinder into small balls.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural diagram of a plastic cylinder cutting device for plastic processing according to the present invention.

Fig. 2 is a schematic structural diagram of a plastic cylinder cutting device for plastic processing according to the present invention.

Fig. 3 is a schematic structural diagram of a plastic cylinder cutting device for plastic processing according to the present invention.

Fig. 4 is a schematic structural diagram of a plastic cylinder cutting device for plastic processing according to the present invention.

Fig. 5 is a schematic structural diagram of a plastic cylinder cutting device for plastic processing according to the present invention.

Fig. 6 is a schematic structural diagram of a plastic cylinder cutting device for plastic processing according to the present invention.

Fig. 7 is a schematic structural diagram of a plastic cylinder cutting device for plastic processing according to the present invention.

Fig. 8 is a schematic structural view of a plastic cylinder cutting apparatus for plastic processing according to the present invention.

Fig. 9 is a schematic structural diagram of a plastic cylinder cutting apparatus for plastic processing according to the present invention.

Fig. 10 is a schematic structural view of a plastic cylinder cutting apparatus for plastic processing according to the present invention.

Fig. 11 is a schematic structural view of a plastic cylinder cutting apparatus for plastic processing according to the present invention.

Fig. 12 is a schematic structural view of a plastic cylinder cutting apparatus for plastic processing according to the present invention.

Fig. 13 is a schematic structural view of a plastic cylinder cutting apparatus for plastic processing according to the present invention.

Fig. 14 is a schematic structural view of a plastic cylinder cutting apparatus for plastic processing according to the present invention.

Fig. 15 is a schematic structural view of a plastic cylinder cutting apparatus for plastic processing according to the present invention.

In the figure: a transmission rotary link mechanism 1; a reset column 1-1; resetting the connecting block 1-2; a reset tension spring 1-3; 1-4 of a limiting triangular block; 1-5 of a limiting strip; a slide plate 1-6; 1-7 of a handle; a motor sliding limiting plate 1-8; 1-9 of a motor; 1-10 parts of a motor shaft; 1-11 parts of friction wheel; connection board a 1-12; connecting shaft a 1-13; friction wheel a 1-14; connecting plate b 1-15; friction wheel b 1-16; connecting shaft b 1-17; connecting plate c 1-18; 1-19 of a limiting spring; connecting plate d 1-20; handle a 1-21; connecting plate e 1-22; connecting plates f 1-23; 1-24 parts of small friction wheel; 1-25 parts of a large friction wheel; connecting shafts c 1-26; belts 1-27; connecting shafts d 1-28; connecting plates g 1-29; bevel gears a 1-30; bevel gears b 1-31; transfer wheels 1-32; 1-33 parts of bearing ring; 1-34 parts of a lower connecting block of the bearing ring; 1-35 of a tension spring; connecting blocks 1-36 on the bearing ring; connecting plates k 1-37; handles b 1-38; equipment mounting plates 1-39; processing a cylinder 1-40; connecting shafts l 1-41; connecting plates m 1-42; an intermittent cutting linkage mechanism 2; a linkage friction wheel a 2-1; a transmission shaft a 2-2; a linkage friction wheel b 2-3; bearing connecting plates 2-4; 2-5 of a special-shaped friction wheel; a transmission shaft b 2-6; 2-7 parts of a torsion spring; mounting plate a 2-8; mounting plate b 2-9; 2-10 parts of a cutting knife; mounting plate c 2-11; 2-12 parts of a cutter limiting strip; output connecting wheels 2-13; outputting the toggle blocks 2-14; output sliders 2-15; output reset shafts 2-16; mounting plate d 2-17; 2-18 of a linkage tension spring; output connecting boxes 2-19; mounting plate e 2-20; a spherical cutting mechanism 3; 3-1 parts of a rubber column; 3-2 of brake blocks; pulling the column 3-3; 3-4 of a brake connecting plate; 3-5 parts of brake connecting spring; 3-6 of a first connecting plate; 3-7 of a second connecting plate; bevel gear a 3-8; connecting shafts I3-9; 3-10 parts of a connecting plate III; connecting plates IV 3-11; 3-12 parts of a semicircular cutter; 3-13 parts of a rotary friction wheel; cutting friction wheel a 3-14; bevel gears b 3-15; connecting shafts II 3-16; and connecting plates five 3-17.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, the invention relates to a sampling device, and more particularly to a plastic cylinder cutting device for plastic processing, which comprises a conveying rotary linkage mechanism 1, an intermittent cutting linkage mechanism 2, and a ball-type cutting mechanism 3, and is capable of conveying and rotating a plastic cylinder, cutting the plastic cylinder into shorter cylinders when the plastic cylinder is conveyed and rotated, conveying the shorter cylinders into a collection box, and cutting the plastic cylinder into small balls.

The conveying rotary linkage mechanism 1 is connected with the intermittent cutting linkage mechanism 2, the intermittent cutting linkage mechanism 2 is connected with the spherical cutting mechanism 3, and the spherical cutting mechanism 3 is connected with the conveying rotary linkage mechanism 1.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, and the embodiment further describes the embodiment, where the transmission rotary linkage mechanism 1 includes a reset column 1-1, a reset connection block 1-2, a reset tension spring 1-3, a limit triangular block 1-4, a limit bar 1-5, a sliding plate 1-6, a handle 1-7, a motor sliding limit plate 1-8, a motor 1-9, a motor shaft 1-10, a friction wheel 1-11, a connection plate a1-12, a connection shaft a1-13, a friction wheel a connection shaft 1-14, a connection plate b1-15, a friction wheel b1-16, a b1-17, a connection plate c1-18, a, 1-19 parts of limiting springs, 1-20 parts of connecting plates d1, 1-25 parts of handles a1-21 parts of connecting plates e1-22 parts of connecting plates f1-23 parts of small friction wheels, 1-24 parts of large friction wheels, 1-25 parts of connecting shafts c1-26 parts of belts 1-27 parts of connecting shafts d1-28 parts of connecting plates g1-29 parts of bevel gears a1-30 parts of bevel gears b1-31 parts of transmission wheels, 1-32 parts of bearing rings, 1-33 parts of lower connecting blocks of the bearing rings, 1-35 parts of tension springs, 1-36 parts of upper connecting blocks of the bearing rings, k1-37 parts of connecting plates, b1-38 parts of handles, 1-39 parts of equipment mounting plates, 1-40 parts of processing cylinders, l1-41 parts of connecting shafts and m1-42 parts of connecting plates, 1-1 parts of reset cylinders are in sliding connection with 1-2 parts of reset connecting blocks, a reset tension spring 1-3 is sleeved on a reset column 1-1 and limited on a reset connecting block 1-2 and a limit triangular block 1-4, the limit triangular block 1-4 is slidably connected with a groove on a bearing ring lower connecting block 1-34, a limit strip 1-5 is connected with an equipment mounting plate 1-39, a sliding plate 1-6 is slidably connected with the limit triangular block 1-4, the sliding plate 1-6 is connected with a handle 1-7, the sliding plate 1-6 is slidably connected with a motor sliding limit plate 1-8, a motor sliding limit plate 1-8 is connected with the equipment mounting plate 1-39, a motor 1-9 is connected with the sliding plate 1-6, a motor 1-9 is connected with a motor shaft 1-10, the motor shaft 1-10 is connected with a friction wheel 1-11, the motor shaft 1-10 is slidably connected with a connecting plate 1-12, friction wheels 1-11 are in friction connection with friction wheels a1-14, connecting plates a1-12 are connected with equipment mounting plates 1-39, connecting shafts a1-13 are connected with friction wheels a1-14, connecting shafts a1-13 are connected with small friction wheels 1-24, connecting shafts a1-13 are in bearing connection with connecting plates g1-29, friction wheels a1-14 are in friction connection with friction wheels b1-16, connecting plates b1-15 are connected with connecting plates e1-22, connecting plates b1-15 are in bearing connection with connecting shafts c1-26, connecting plates b1-15 are connected with equipment mounting plates 1-39, connecting plates b1-15 are connected with connecting plates m1-42, friction wheels b1-16 are connected with connecting shafts b1-17, friction wheels b1-16 are in sliding connection with connecting plates e1-22, connecting shafts b1-17 are in bearing connection with connecting plates c1-18, connecting plates c1-18 are connected with connecting plates d1-20, connecting plates c1-18 are connected with connecting plates e1-22 in a sliding mode, one ends of limiting springs 1-19 are connected with connecting plates d1-20, the other ends of limiting springs are connected with connecting plates f1-23, connecting plates d1-20 are connected with handles a1-21, connecting plates e1-22 are connected with bearing rings through connecting blocks 1-36 in a sliding mode, connecting plates e1-22 are connected with equipment mounting plates 1-39, grooves in connecting plates e1-22 are connected with connecting shafts l1-41 in a sliding mode, connecting plates f1-23 are connected with connecting plates e1-22, small friction wheels 1-24 are connected with large friction wheels 1-25 in a friction mode, large friction wheels 1-25 are connected with connecting shafts c1-26, connecting shafts c1-26 are connected with connecting plates g1-29 in a bearing, one end of a belt 1-27 is in frictional connection with a connecting shaft c1-26, the other end of the belt is in frictional connection with a connecting shaft d1-28, the connecting shaft d1-28 is in bearing connection with a connecting plate g1-29, the connecting shaft d1-28 is in bearing connection with a helical gear a1-30, the connecting plate g1-29 is in connection with an equipment mounting plate 1-39, the helical gear a1-30 is meshed with the helical gear b1-31, the helical gear b1-31 is in connection with a connecting shaft l1-41, a transmission wheel 1-32 is in connection with a connecting shaft l1-41, a bearing ring 1-33 is in connection with a bearing ring lower connecting block 1-34, the bearing ring 1-33 is in connection with a bearing ring upper connecting block 1-36, the bearing ring 1-33 is in bearing connection with the connecting shaft l1-41, the other end of the device is connected with a device mounting plate 1-39, a bearing ring connecting block 1-36 is connected with a connecting plate k1-37, a connecting plate k1-37 is connected with a handle b1-38, the device mounting plate 1-39 is connected with a processing cylinder 1-40 in a sliding manner, the device can transmit a plastic cylinder and rotate the plastic cylinder, the processing cylinder 1-40 of the plastic cylinder is placed between two connecting plates e1-22, the handle b1-38 is pulled, the handle b1-38 drives the connecting block 1-36 on the bearing ring to move through the connecting plate k1-37, the connecting block 1-36 on the bearing ring drives a connecting shaft 35l 1-41 to move through the bearing ring 1-33, the connecting shaft l1-41 moves under the limitation of a groove on the connecting plate e1-22 to drive a transmission wheel 1-32 to move, and then the processing cylinder 1-40 is pushed, the processing cylinders 1-40 are pressed by the transmission wheels 1-32, the transmission wheels 1-32 always apply downward pressure under the action of the bearing rings 1-33, the lower connecting blocks 1-34 of the bearing rings and the tension springs 1-35, the pull handles a1-21 are pulled, the pull handles a1-21 move through the connecting plates d1-20 to drive the connecting plates c1-18 to move, the connecting plates c1-18 move through the connecting shafts b1-17 to drive the friction wheels b1-16 to move, the processing cylinders 1-40 are pushed, the processing cylinders 1-40 are pressed by the friction wheels b1-16, the processing cylinders 1-40 are pressed by the friction wheels b1-16 under the action of the limiting springs 1-19, the pull handles 1-7 are pulled, the pull handles 1-7 move to drive the sliding plates 1-6 to move towards the direction of the connecting plates a1-12, the sliding plate 1-6 moves to drive the motor 1-9 to move, the motor 1-9 moves to drive the motor shaft 1-10 to move, the motor shaft 1-10 moves to drive the friction wheel 1-11 to move, when the friction wheel 1-11 moves to contact with the friction wheel a1-14, the sliding plate 1-6 contacts with the limit strip 1-5 near one side of the connecting plate a1-12, the sliding plate 1-6 is limited by the triangle block 1-4 on the same side, the triangle block 1-4 ensures the relative position of the sliding plate 1-6 to be stable under the action of the reset tension spring 1-3, the motor sliding limit plate 1-8 further helps the relative position of the sliding plate 1-6 to be stable, the motor 1-9 works to drive the motor shaft 1-10 to rotate, 1-10 rotation of a motor shaft drives a friction wheel 1-11 to rotate, 1-11 rotation of the friction wheel drives a friction wheel a1-14 to rotate, a friction wheel a1-14 rotates to drive a connecting shaft a1-13 to rotate, a friction wheel a1-14 rotation also drives a friction wheel b1-16 to rotate, a friction wheel b1-16 rotates to drive a plastic cylinder processing cylinder 1-40 to rotate, a small friction wheel 1-24 drives a large friction wheel 1-25 to decelerate to rotate when the connecting shaft a1-13 rotates, a large friction wheel 1-25 rotation drives a connecting shaft c1-26 to rotate, a connecting shaft c1-26 rotation drives a connecting shaft d1-28 to rotate through a belt 1-27, a connecting shaft d1-28 rotation drives a bevel gear a1-30 to rotate, a bevel gear a1-30 rotation drives a connecting shaft l1-41 to rotate through a bevel gear b1-31, the connecting shafts l1-41 rotate to drive the conveying wheels 1-32 to rotate, and when the conveying wheels 1-32 rotate, the plastic cylinders are conveyed towards the connecting plates g 1-29.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15. the embodiment further describes the embodiment, and the embodiment includes an intermittent cutting linkage mechanism 2 including a linkage friction wheel a2-1, a transmission shaft a2-2, a linkage friction wheel b2-3, a bearing connection plate 2-4, a shaped friction wheel 2-5, a transmission shaft b2-6, a torsion spring 2-7, a mounting plate a2-8, a mounting plate b2-9, a cutting knife 2-10, a mounting plate c2-11, a cutting knife limit bar 2-12, an output connection wheel 2-13, an output dial block 2-14, an output slide block 2-15, an output reset shaft 2-16, a mounting plate d2-17, a reset shaft 2-16, a reset shaft d 3517, a reset shaft b, A linkage tension spring 2-18, an output connecting box 2-19 and a mounting plate e2-20, a linkage friction wheel a2-1 is in friction connection with a belt 1-27, a linkage friction wheel a2-1 is in bearing connection with a transmission shaft a2-2, a transmission shaft a2-2 is in bearing connection with a connecting plate m1-42, a transmission shaft a2-2 is in bearing connection with a linkage friction wheel b2-3, a transmission shaft a2-2 is in bearing connection with a bearing connecting plate 2-4, a linkage friction wheel b2-3 is in friction connection with a special-shaped friction wheel 2-5, a bearing connecting plate 2-4 is in bearing connection with a transmission shaft b2-6, a special-shaped friction wheel 2-5 is in bearing connection with a transmission shaft b2-6, a transmission shaft b2-6 is in bearing connection with a mounting plate a2-8, a transmission shaft b2-6, a transmission shaft b2-6 is in threaded connection with a mounting plate c2-11, a torsion spring 2-7 is sleeved on the transmission shaft b2-6 and limited on a bearing connecting plate 2-4 and a mounting plate a2-8, a mounting plate b2-9 is connected with a cutting knife 2-10, the cutting knife 2-10 is connected with a cutting knife limiting strip 2-12, the cutting knife 2-10 is in sliding connection with a connecting plate m1-42, a mounting plate c2-11 is connected with a connecting plate e1-22, an output connecting wheel 2-13 is connected with a connecting shaft a1-13, an output connecting wheel 2-13 is connected with an output toggle block 2-14, an output sliding block 2-15 is in sliding connection with an output toggle block 2-14, an output reset shaft 2-16 is in sliding connection with a mounting plate d2-17, a mounting plate d2-17 is connected with an equipment mounting plate, the linkage tension spring 2-18 is sleeved on the output reset shaft 2-16 and limited on the output sliding block 2-15 and the mounting plate d2-17, the output connecting box 2-19 is connected with the equipment mounting plate 1-39, the mounting plate e2-20 is connected with the equipment mounting plate 1-39, the mounting plate e2-20 is connected with the output sliding block 2-15 in a sliding manner, the equipment can cut the plastic cylinder into shorter cylinders when the plastic cylinder is transmitted and rotated, the belt 1-27 is in a motion state when the plastic cylinder is transmitted and rotated, the belt 1-27 moves to drive the linkage friction wheel a2-1 to rotate, the linkage friction wheel a2-1 rotates to drive the transmission shaft a2-2 to rotate, the transmission shaft a2-2 rotates to drive the linkage friction wheel b2-3 to rotate, the linkage friction wheel b2-3 rotates to drive the special-shaped friction wheel 2-5 to rotate, the special-shaped friction wheel 2-5 rotates to drive the transmission shaft b2-6 to rotate, the transmission shaft b2-6 rotates to drive the mounting plate a2-8 to rotate, when the special-shaped friction wheel 2-5 rotates anticlockwise through self physical characteristics, and rotates until a slot on the special-shaped friction wheel 2-5 is contacted with the linkage friction wheel b2-3, the special-shaped friction wheel 2-5 continues to rotate for a small distance under the action of the inertia of the linkage friction force transmitted by the linkage friction wheel b2-3, and stores torsion when the torsion spring 2-7 rotates along with the mounting plate a2-8, the torsion is released instantly when the slot on the special-shaped friction wheel 2-5 is contacted with the linkage friction wheel b2-3, the special-shaped friction wheel 2-5 resets instantly, and moves downwards under the action of the mounting plate c2-11 when the transmission shaft b2-6 rotates, the torsion spring 2-7 accumulates elastic force when the transmission shaft b2-6 moves downwards, further assisting the reset of the special-shaped friction wheel 2-5, the transmission shaft b2-6 moves downwards and drives the cutting knife 2-10 through the mounting plate b2-9, when the cutting knife 2-10 contacts the equipment mounting plate 1-39, the special-shaped friction wheel 2-5 starts to reset, when the special-shaped friction wheel 2-5 resets, the cutting knife 2-10 synchronously resets, the process cuts the transmitted and rotated processing cylinder 1-40 into short cylinders, and the transmission and rotation of the plastic cylinder processing cylinder 1-40 are matched, the residual plastic cylinder processing cylinder 1-40 is cut into a plurality of short cylinders with the same length, the equipment can transmit the short cylinders into the collection box, when the plastic cylinder processing cylinder 1-40 is transmitted and rotated, the connecting shaft a1-13 is in a rotating state, the connecting shaft a1-13 rotates to drive the output connecting wheels 2-13 to rotate clockwise, the output connecting wheels 2-13 rotate to drive the output shifting blocks 2-14 to rotate, the output shifting blocks 2-14 rotate to drive the output sliding blocks 2-15 to shift the output sliding blocks 2-15 to the mounting plate e2-20, the output sliding blocks 2-15 can be reset under the action of the output reset shafts 2-16, the mounting plate d2-17 and the linkage tension springs 2-18, the output sliding blocks 2-15 move to the mounting plate e2-20 to reset, and the output sliding blocks reciprocate to shift to the output connecting box 2-19 through the transmitted shorter cylinder.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, and the present embodiment further describes the present embodiment, where the spherical cutting mechanism 3 includes a rubber column 3-1, a brake block 3-2, a pull column 3-3, a brake connecting plate 3-4, a brake connecting spring 3-5, a connecting plate one 3-6, a connecting plate two 3-7, a bevel gear a3-8, a connecting shaft one 3-9, a connecting plate three 3-10, a connecting plate four 3-11, a semicircular knife 3-12, a rotary friction wheel 3-13, a cutting friction wheel a3-14, a bevel gear b3-15, a connecting shaft two 3-16, and a connecting plate five 3-17, one end of the rubber column 3-1 is connected with the sliding plate 1-6, and the other end is connected Then, a brake block 3-2 is connected with a pulling column 3-3, the pulling column 3-3 is connected with a brake connecting plate 3-4 in a sliding manner, the brake connecting plate 3-4 is connected with an equipment mounting plate 1-39, a brake connecting spring 3-5 is sleeved on the pulling column 3-3 and limited on the brake block 3-2 and the brake connecting plate 3-4, a connecting plate one 3-6 is connected with a mounting plate e2-20, a connecting plate one 3-6 is connected with a connecting plate two 3-7, a connecting plate two 3-7 is connected with a connecting shaft one 3-9 through a bearing, a bevel gear a3-8 is connected with a connecting shaft one 3-9, a bevel gear a3-8 is meshed with a bevel gear b3-15, a connecting shaft one 3-9 is in threaded connection with a connecting plate three 3-10, a connecting shaft one 3-9 is connected with a, connecting plate three 3-10 is connected with mounting plate e2-20, connecting plate four 3-11 is connected with semicircular cutter 3-12, connecting plate four 3-11 is connected with mounting plate e2-20 in a sliding manner, semicircular cutter 3-12 is connected with mounting plate e2-20 in a sliding manner, rotary friction wheel 3-13 is connected with motor shaft 1-10, cutting friction wheel a3-14 is connected with connecting shaft a1-13, cutting friction wheel a3-14 is connected with helical gear b3-15 in a friction manner, helical gear b3-15 is connected with connecting shaft two 3-16, connecting shaft two 3-16 is connected with connecting plate five 3-17 bearing, connecting shaft two 3-16 is connected with connecting plate g1-29 bearing, connecting plate five 3-17 is connected with equipment mounting plate 1-39, the equipment can cut the plastic cylinder into small balls, pulling the handle 1-7, the handle 1-7 moves to drive the sliding plate 1-6 to move in the direction far away from the connecting plate a1-12, the sliding plate 1-6 moves to drive the motor 1-9 to move, the motor 1-9 moves to drive the motor shaft 1-10 to move, the motor shaft 1-10 moves to drive the friction wheel 1-11, when the friction wheel 1-11 moves to contact with the cutting friction wheel a3-14, the friction wheel 3-13 moves to contact with the friction wheel b1-16, the sliding plate 1-6 contacts with the limit strip 1-5 on the side far away from the connecting plate a1-12, the sliding plate 1-6 is limited by the triangle block 1-4 on the same side, the triangle block 1-4 ensures the relative position stability of the sliding plate 1-6 under the action of the reset tension spring 1-3, the motor sliding limiting plate 1-8 further helps to stabilize the relative position of the sliding plate 1-6, when the sliding plate 1-6 moves, the sliding plate 1-6 moves to pull the rubber column 3-1, the rubber column 3-1 pulls the brake block 3-2 to move in the direction away from the brake connecting plate 3-4, and the brake block 3-2 can automatically reset under the action of the pulling column 3-3, the brake connecting plate 3-4 and the brake connecting spring 3-5, at the moment, the brake block 3-2 is pulled to be in contact with the connecting shaft c1-26 and the connecting shaft l1-41, pressure is applied to the connecting shaft c1-26 and the connecting shaft l1-41, so that the connecting shaft c1-26 and the connecting shaft l1-41 are not transmitted to rotate, and at the moment, the small friction wheel 1-24 and the large friction wheel 1-25 are in friction connection failure, the motor 1-9 works, the motor 1-9 works to drive the motor shaft 1-10 to rotate, the motor shaft 1-10 rotates to drive the friction wheel 3-13 to rotate, the friction wheel 3-13 rotates to drive the cutting friction wheel a3-14 to rotate, the friction wheel b1-16 is transmitted and in a rotating state when the cutting friction wheel a3-14 rotates, at the moment, the plastic cylinder processing cylinder 1-40 is in a rotating state, the motor 1-9 moves to drive the motor shaft 1-10 to move, the motor shaft 1-10 moves to drive the friction wheel 1-11 to rotate, the friction wheel 1-11 rotates to drive the cutting friction wheel a3-14 to rotate, the cutting friction wheel a3-14 rotates to drive the helical gear b3-15 to rotate, the helical gear b3-15 rotates to drive the connecting shaft two 3-16 to rotate, and the helical gear a3-8 also rotates when the helical gear b3-15 rotates, the bevel gear a3-8 rotates to drive the connecting shaft I3-9 to rotate, the connecting shaft I3-9 rotates to move downwards under the action of the connecting plate III 3-10, the connecting shaft I3-9 drives the semicircular cutter 3-12 to move downwards through the connecting plate IV 3-11 when moving downwards, and the semicircular cutter 3-12 and the rotating plastic cylinder processing cylinder 1-40 are cut into a sphere when moving downwards.

The fifth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, and the present embodiment further describes the first embodiment, in which the rubber column 3-1 is made of high-elastic rubber.

The working principle of the device is as follows: the equipment can convey the plastic cylinder and rotate the plastic cylinder, the plastic cylinder processing cylinder 1-40 is placed between two connecting plates e1-22, a handle b1-38 is pulled, the handle b1-38 drives the connecting blocks 1-36 on the bearing ring to move through the connecting plates k1-37, the connecting blocks 1-36 on the bearing ring move through the bearing rings 1-33 to drive a connecting shaft l1-41 to move, the connecting shaft l1-41 moves under the limitation of the upper grooves of the connecting plates e1-22 to drive the transmission wheels 1-32 to move, at the moment, the processing cylinder 1-40 is pushed, the processing cylinder 1-40 is pressed by the transmission wheels 1-32, the transmission wheels 1-32 are always pressed downwards under the action of the bearing rings 1-33, the connecting blocks 1-34 under the bearing rings and the tension springs 1-35, pulling a handle a1-21, enabling the handle a1-21 to move through a connecting plate d1-20 to drive a connecting plate c1-18 to move, enabling the connecting plate c1-18 to move through a connecting shaft b1-17 to drive a friction wheel b1-16 to move, pushing a processing cylinder 1-40, enabling the processing cylinder 1-40 to be pressed by the friction wheel b1-16, enabling the processing cylinder 1-40 to be pressed by the friction wheel b1-16 under the action of a limiting spring 1-19, pulling a handle 1-7, enabling the handle 1-7 to move to drive a sliding plate 1-6 to move towards a connecting plate a1-12 direction, enabling the sliding plate 1-6 to move to drive a motor 1-9 to move, enabling the motor 1-9 to move to drive a motor shaft 1-10 to move, enabling the motor shaft 1-10 to move to drive the friction wheel 1-, when the friction wheel 1-11 moves to be in contact with the friction wheel a1-14, the sliding plate 1-6 is in contact with the limit strip 1-5 close to one side of the connecting plate a1-12, the sliding plate 1-6 is limited by the triangle block 1-4 on the same side, the triangle block 1-4 ensures the relative position of the sliding plate 1-6 to be stable under the action of the reset tension spring 1-3, the motor sliding limit plate 1-8 further helps the relative position of the sliding plate 1-6 to be stable, the motor 1-9 works to drive the motor shaft 1-10 to rotate, the motor shaft 1-10 rotates to drive the friction wheel 1-11 to rotate, the friction wheel 1-11 rotates to drive the friction wheel a1-14 to rotate, the friction wheel a1-14 rotates to drive the connecting shaft a1-13 to rotate, the friction wheel a1-14 rotates to drive the friction wheel b1-16 to rotate, the friction wheel b1-16 rotates to drive the plastic cylinder processing cylinder 1-40 to rotate, the small friction wheel 1-24 drives the large friction wheel 1-25 to decelerate when the connecting shaft a1-13 rotates, the large friction wheel 1-25 rotates to drive the connecting shaft c1-26 to rotate, the connecting shaft c1-26 rotates to drive the connecting shaft d1-28 to rotate through the belt 1-27, the connecting shaft d1-28 rotates to drive the bevel gear 1-30 to rotate, the bevel gear a1-30 rotates to drive the connecting shaft l1-41 to rotate through the bevel gear b1-31, the connecting shaft l1-41 rotates to drive the transmission wheel 1-32 to rotate, the plastic cylinder is transmitted to the connecting plate g1-29 direction when the transmission wheel 1-32 rotates, the equipment can cut a plastic cylinder into shorter cylinders when the plastic cylinder is conveyed and rotated, a belt 1-27 is in a motion state, the belt 1-27 moves to drive a linkage friction wheel a2-1 to rotate, the linkage friction wheel a2-1 rotates to drive a transmission shaft a2-2 to rotate, the transmission shaft a2-2 rotates to drive a linkage friction wheel b2-3 to rotate, the linkage friction wheel b2-3 rotates to drive a special-shaped friction wheel 2-5 to rotate, the special-shaped friction wheel 2-5 rotates to drive a transmission shaft b2-6 to rotate, the transmission shaft b2-6 rotates to drive a mounting plate a2-8 to rotate, when the special-shaped friction wheel 2-5 rotates anticlockwise through self physical characteristics, when a slot on the special-shaped friction wheel 2-5 is rotated to be in contact with the linkage friction wheel b2-3, the special-shaped friction wheel 2-5 continues to rotate for a small distance under the action of the inertia of the friction force transmitted by the linkage friction wheel b2-3, torsion is accumulated when the torsion spring 2-7 rotates along with the mounting plate a2-8, the torsion is released instantly when a groove on the special-shaped friction wheel 2-5 is contacted with the linkage friction wheel b2-3, the special-shaped friction wheel 2-5 resets instantly, the transmission shaft b2-6 moves downwards under the action of the mounting plate c2-11 when rotating, the torsion spring 2-7 accumulates elastic force when the transmission shaft b2-6 moves downwards, further the resetting of the special-shaped friction wheel 2-5 is facilitated, the downward movement of the transmission shaft b2-6 also drives the cutting knife 2-10 through the mounting plate b2-9, when the equipment mounting plate 1-39 is contacted by the torsion spring 2-10, the special-shaped friction wheel 2-5 is reset, when the special-shaped friction wheel 2-5 is reset, the cutting knife 2-10 is reset synchronously, the process cuts the transmitted and rotated processing cylinder 1-40 into short cylinders, and the transmission and rotation of the plastic cylinder processing cylinder 1-40 are matched, the remaining plastic cylinder processing cylinder 1-40 is cut into a plurality of short cylinders with the same length, the equipment can transmit the shorter cylinders into the collection box, when the plastic cylinder processing cylinder 1-40 is transmitted and rotated, the connecting shaft a1-13 is in a rotating state, the connecting shaft a1-13 rotates to drive the output connecting wheel 2-13 to rotate clockwise, the output connecting wheel 2-13 rotates to drive the output stirring block 2-14 to rotate, the output stirring block 2-14 rotates to drive the output sliding block 2-15 to stir the output sliding block 2-15 to the mounting plate e2-20, under the action of the output reset shaft 2-16, the mounting plate d2-17 and the linkage tension spring 2-18, the output sliding block 2-15 can be reset, the output sliding block 2-15 moves to the mounting plate e2-20 to be reset at first, and reciprocates in such a way, and is stirred to the output connecting box 2-19 through the transmitted shorter cylinder, the equipment can cut the plastic cylinder into small balls, the handle 1-7 is pulled, the handle 1-7 moves to drive the sliding plate 1-6 to move in the direction far away from the connecting plate a1-12, the sliding plate 1-6 moves to drive the motor 1-9 to move, the motor 1-9 moves to drive the motor shaft 1-10 to move, the motor shaft 1-10 moves to drive the friction wheel 1-11, when the friction wheel 1-11 moves to be contacted with the cutting friction wheel a3-14, the friction wheel 3-13 moves to be in contact with the friction wheel b1-16, the sliding plate 1-6 is in contact with the limiting strip 1-5 far away from one side of the connecting plate a1-12, the sliding plate 1-6 is limited by the triangular block 1-4 on the same side, the triangular block 1-4 ensures the relative position of the sliding plate 1-6 to be stable under the action of the reset tension spring 1-3, the motor sliding limiting plate 1-8 further helps the relative position of the sliding plate 1-6 to be stable, when the sliding plate 1-6 moves, the sliding plate 1-6 moves to pull the rubber column 3-1, the rubber column 3-1 pulls the brake block 3-2 to move in the direction far away from the brake connecting plate 3-4, and the brake block 3-2 can automatically reset under the action of the pulling column 3-3, the brake connecting plate 3-4 and the brake connecting spring 3-5, at the moment, the brake block 3-2 is pulled to be in contact with the connecting shaft c1-26 and the connecting shaft l1-41, pressure is applied to the connecting shaft c1-26 and the connecting shaft l1-41, the connecting shaft c1-26 and the connecting shaft l1-41 are not transmitted to rotate, at the moment, the friction connection between the small friction wheel 1-24 and the large friction wheel 1-25 fails, the motor 1-9 works to drive the motor shaft 1-10 to rotate, the motor shaft 1-10 rotates to drive the friction wheel 3-13 to rotate, the friction wheel 3-13 rotates to drive the cutting friction wheel a3-14 to rotate, the friction wheel b1-16 is transmitted and in a rotating state when the cutting friction wheel a3-14 rotates, at the moment, the plastic cylinder processing cylinder 1-40 is in a rotating state, the motor 1-9 moves to drive the motor shaft 1-10 to move, 1-10 of a motor shaft drives a friction wheel 1-11 to rotate, 1-11 of the friction wheel drives a cutting friction wheel a3-14 to rotate, a cutting friction wheel a3-14 rotates to drive a bevel gear b3-15 to rotate, a bevel gear b3-15 rotates to drive a connecting shaft two 3-16 to rotate, a bevel gear b3-15 also drives a bevel gear a3-8 to rotate when rotating, a bevel gear a3-8 rotates to drive a connecting shaft one 3-9 to rotate, the connecting shaft one 3-9 rotates to move downwards under the action of a connecting plate three 3-10, the connecting shaft one 3-9 drives a semicircular cutter 3-12 to move downwards through the connecting plate four 3-11 when moving downwards, and the semicircular cutter 3-12 moves downwards and cuts the plastic cylinder processing cylinder 1-40 which rotates into a sphere.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.