CN105479617A

CN105479617A - Plastic granulation machine

Info

Publication number: CN105479617A
Application number: CN201510791486.XA
Authority: CN
Inventors: 李创生
Original assignee: 李创生
Current assignee: Guangdong Hongsheng Industrial Co., Ltd.
Priority date: 2015-11-17
Filing date: 2015-11-17
Publication date: 2016-04-13
Anticipated expiration: 2035-11-17

Abstract

The invention provides a plastic granulation machine. The plastic granulation machine comprises a machine frame, a rotary knife mechanism, a feeding mechanism and a fixed knife mechanism, wherein the rotary knife mechanism, the feeding mechanism and the fixed knife mechanism are installed on the machine frame. The rotary knife mechanism is opposite to the feeding mechanism. The fixed knife mechanism is located between the rotary knife mechanism and the feeding mechanism and comprises a fixed knife and a fixed knife holder. The fixed knife is fixed to the machine frame through the fixed knife holder. The rotary knife mechanism comprises a rotary knife, a rotary knife shaft, two symmetrically-arranged rotary knife bearing pedestals, two symmetrically-arranged eccentric circles and two symmetrically-arranged eccentric circle adjusting structures. The rotary knife is rotationally connected with the rotary knife bearing pedestals in the manner that the rotary knife shaft penetrates through the eccentric circles. The eccentric circles are rotationally connected to the outer side of the machine frame around the center line of the eccentric circles. The rotary knife bearing pedestals are fixedly connected to the eccentric circles. The axial line of the knife shaft is parallel to the center line of the eccentric circles. The eccentric circles are driven by the eccentric circle adjusting structures to rotate, and the eccentric circle adjusting structures drive the rotary knife to be close to or away from the fixed knife mechanism. By implementing the plastic granulation machine, the defects of an existing granulation machine in the aspects of disassembly, knife adjustment, transmission and water resistance can be overcome.

Description

A kind of plastic grain cutting machine

Technical field

The present invention relates to plastic machinery equipment field, particularly relate to a kind of plastic grain cutting machine.

Background technology

After material strip extruded by plastic extruder, material strip need be cut into plastic grain shape.At present, known pelleter structure is formed, by chain or gear drive by two blocks of U-shaped machine plates, up and down roller structure, rotor structure, stationary knife textural association.This class formation also exists many defects, because bearing is directly installed on machine plate, and the consume that when effectively cannot prevent work, moisture causes bearing; Bolt toolsetting pattern causes inequality or the adhesion of material strip pelletizing when rotor uneven meeting of wearing and tearing; Chain and gear drive, when pressure roller weares and teares, engaged gears gap is strengthened, and there will be the asynchronous or gear life of skiddings, greatly decibel noise, pressure roller rotor and sharply shortens.When needs change granular size, gear model need be changed, dismantle numerous and diverse, waste a large amount of time.

Summary of the invention

Technical problem to be solved by this invention is, provides a kind of plastic grain cutting machine, can overcome the deficiency of existing pelleter in dismounting, toolsetting, transmission and waterproof.

In order to solve the problems of the technologies described above, the invention provides a kind of plastic grain cutting machine, it comprise frame, the rotor mechanism be installed in described frame, feed mechanism and stationary knife mechanism; Described rotor mechanism and described feed mechanism are in being oppositely arranged, and described stationary knife mechanism is between described rotating mechanism and feed mechanism, and described stationary knife mechanism comprises stationary knife and stationary knife seat, and described stationary knife is fixed in described frame by stationary knife seat; Described rotor mechanism comprises rotor, rotor axle and two groups of the rotor bearing blocks be symmetrical set, off-centre operation and off-centre operation adjustment structures; Described rotor is rotatably connected through described off-centre operation and described rotor bearing block by described rotor axle; Described off-centre operation is rotatably connected to outside described frame around its center line; Described turning cylinder bearing is fixedly connected on described off-centre operation; The axis of described rotor axle and the center line of described off-centre operation are parallel to each other; Described off-centre operation is driven by described off-centre operation adjustment structure and rotates, and by described off-centre operation adjustment structure drive described rotor near or away from described stationary knife mechanism.

As preferably, described off-centre operation adjustment structure comprises and is arranged at described off-centre operation arc rack circumferentially and the driving gear set be connected with a joggle with described arc rack.

As preferably, described feed mechanism comprises pressure roller, upper pressure roller shaft and two groups of upper pressure roller shaft bearings and elastic spacing structure be symmetrical set, described upper pressure roller is rotatably connected through described frame and described upper pressure roller shaft bearing by described upper pressure roller shaft, and described upper pressure roller shaft bearing is connected to outside described frame by described elastic spacing structure movement; Also comprise lower compression roller, press down roll shaft and two groups of lower compression roller bearing blocks be symmetrical set, press down roll shaft described in described lower compression roller passes through and be rotatably connected through described frame and described lower compression roller bearing block; Described lower compression roller bearing block is fixedly connected on outside described frame by bearing block correcting plate.

As preferably, described elastic spacing structure comprises and connecing and the swing arm can rotated around described upper pressure roller shaft bearing axis and the pressing plate be fixedly connected with described frame with described upper roller bearing cover for seat; One end and the described frame of described swing arm are hinged, and the other end is connected with described pressing plate by spring.

As preferably, described frame is provided with the perforate can passed for described upper pressure roller shaft, and the vertical direction of described perforate pressure roller shaft on described leaves adjustment surplus.

As preferably, described stationary knife is provided with the cambered surface coordinated with described lower compression roller periphery.

As preferably, described frame comprises two blocks of machine plates vertically arranged, and described rotor mechanism, feed mechanism and stationary knife mechanism are arranged between described two blocks of machine plates; Described machine plate is can opening-closing structure, and it comprises top board and base plate, described top board and base plate hinged.

As preferably, described top board and base plate are the two parts up and down described machine plate segmentation formed for cut surface with the center line place plane of described off-centre operation.

As preferably, described plastic grain cutting machine also comprises the first drive motors, the second drive motors and control unit; Described rotor axle is connected with the clutch end of described first drive motors by the first transmission mechanism, described upper pressure roller shaft with press down roll shaft and be connected by the clutch end of the second transmission mechanism with the second drive motors; Described first drive motors and the second drive motors are connected with described control unit respectively and are controlled by described control unit.

As preferably, described second transmission mechanism comprises feeding and drives synchronizing wheel, feeding drive coordination wheel, underdrive synchronizing wheel, underdrive helical gear, the first upper driving synchronizing wheel, the second upper driving synchronizing wheel, lower compression roller helical gear, upper pressure roller synchronizing wheel, uploads moving axis and lower drive shaft; Described feeding drives synchronizing wheel to be fixedly connected with the clutch end of the second drive motors; Described feeding driving synchronizing wheel is taken turns with feeding drive coordination and is connected by belt transmission; Described feeding drive coordination wheel is coaxially connected by lower drive shaft with underdrive synchronizing wheel, underdrive helical gear, and described first upper driving synchronizing wheel is coaxially connected by uploading moving axis with the second upper driving synchronizing wheel; Described underdrive helical gear and lower compression roller helical gear are connected with a joggle; Described underdrive synchronizing wheel is connected by belt transmission with the second upper driving synchronizing wheel; Described first upper driving synchronizing wheel is connected by belt transmission with upper pressure roller synchronizing wheel; Described lower compression roller helical gear with press down roll shaft and be fixedly connected with; Described upper pressure roller synchronizing wheel is fixedly connected with upper pressure roller shaft.

Implement a kind of plastic grain cutting machine of the present invention, compared with prior art, there is following beneficial effect:

In toolsetting, by the annexation of rotor bearing block, off-centre operation and off-centre operation adjustment structure, off-centre operation by off-centre operation adjustment structure drive rotate, and by off-centre operation adjustment structure drive rotor near or away from stationary knife mechanism, thus realize the adjustment of the spacing of rotor and stationary knife, simple to operate; Simultaneously, because rotor is carry out with certain rotary motion trace near stationary knife, make the not feed in same clipped position of rotor blade, thus realize the adjustment of rotor feed angle, make rotor even wearing, when overcoming conventional bolt toolsetting straight line near and cause blade single-point to wear and tear to concentrate, effectively prevent the uneven or adhesion of material strip pelletizing.

In waterproof, upper and lower pressure roller and rotor bearing block are arranged on outside frame, can effectively moisture be thrown away during work, effectively lengthen bearing service life.

In dismounting, being designed to by machine plate can opening-closing structure, and rotor and off-centre operation, rotor bearing block can directly directly be taken out by the machine plate of opening, convenient mounting or dismounting and maintenance.

In transmission, rotor transmission and pressure roller transmission are separated, use bi-motor pattern, realize, to the regulation and control of the control of finished particle size and speed, output, effectively reducing noise by control unit simultaneously.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme of the embodiment of the present invention, be briefly described to the accompanying drawing of embodiment below.

Fig. 1 is the three-dimensional structure diagram of a kind of plastic grain cutting machine of the present invention;

The structural representation of Tu2Shi rotor mechanism, wherein also illustrates the position relationship of rotor mechanism, feed mechanism and stationary knife mechanism;

Fig. 3 is the structural representation of feed mechanism;

Fig. 4 is the structural representation of frame.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

As shown in Figures 1 to 4, a preferred embodiment of the present invention, a kind of plastic grain cutting machine, it comprises frame 1, the rotor mechanism 2 be installed in described frame 1, feed mechanism 3 and stationary knife mechanism 4; Described rotor mechanism 2 is with described feed mechanism 3 in being oppositely arranged, and described stationary knife mechanism 4 is between described rotating mechanism and feed mechanism 3.

Described rotor mechanism 2 comprises rotor 21, rotor axle 22 and two groups of the rotor bearing blocks 23 be symmetrical set, off-centre operation 24 and off-centre operation adjustment structures 25; Described rotor 21 is rotatably connected with described rotor bearing block 23 through described off-centre operation 24 by described rotor axle 22; Described off-centre operation 24 is rotatably connected to outside described frame 1 around its center line; Described turning cylinder bearing is fixedly connected on described off-centre operation 24; The axis of described rotor axle 22 and the center line of described off-centre operation 24 are parallel to each other; Described off-centre operation 24 drives rotation by described off-centre operation adjustment structure 25, and by described off-centre operation adjustment structure 25 drive described rotor 21 near or away from described stationary knife mechanism 4.Wherein, described off-centre operation adjustment structure 25 comprises and is arranged at described off-centre operation 24 arc rack 251 circumferentially and the driving gear set 252 be connected with a joggle with described arc rack 251.During concrete enforcement, rotor 21 coordinates fixing with rotor axle 22, off-centre operation 24 coordinates with the circular dimple 13 in frame 1 and rotates, rotor axle 22 is passed off-centre operation 24 and is connected with rotor bearing block 23 by bearing, rotor bearing block 23 is fixedly connected with bearing correcting plate by bolt with off-centre operation 24, tooth bar 251 and off-centre operation 24 are bolted to connection, carry-over bar 251 is with by rotating driving gear set 252, and then rotate off-centre operation 24, because the center line of off-centre operation 24 and the axis of rotor axle 22 are parallel to each other, there is certain offset distance, when rotating off-centre operation 24, rotor 21 can by certain rotational angle toward leaning forward, and then the Distance geometry of shortening and stationary knife mechanism 4 changes rotor 21 feed angle, play toolsetting effect.Visible, the present invention is by the annexation of rotor bearing block 23, off-centre operation 24 and off-centre operation adjustment structure 25, off-centre operation 24 drives rotation by off-centre operation adjustment structure 25, and by off-centre operation adjustment structure 25 drive rotor 21 near or away from stationary knife mechanism 4, thus realize the adjustment of the spacing of rotor 21 and stationary knife, simple to operate; Simultaneously, because rotor 21 is carry out with certain rotary motion trace near stationary knife, make the not feed in same clipped position of rotor 21 blade, thus realize the adjustment of rotor 21 feed angle, make rotor 21 even wearing, when overcoming conventional bolt toolsetting straight line near and cause blade single-point to wear and tear to concentrate, effectively prevent the uneven or adhesion of material strip pelletizing.In addition, driving gear set 252 is Double-gear transmission, rotor 21 is regulated compacter, fine and smooth.

Described feed mechanism 3 comprises pressure roller 31, upper pressure roller shaft 32 and two groups of upper pressure roller shaft bearings 33 and elastic spacing structure 34 be symmetrical set, described upper pressure roller 31 is rotatably connected with described upper pressure roller shaft bearing 33 through described frame 1 by described upper pressure roller shaft 32, and described upper pressure roller shaft bearing 33 is movably connected in outside described frame 1 by described elastic spacing structure 34; Also comprise lower compression roller 35, press down roll shaft 36 and two groups of lower compression roller bearing blocks 37 be symmetrical set, press down roll shaft 36 described in described lower compression roller 35 passes through and be rotatably connected with described lower compression roller bearing block 37 through described frame 1; Described lower compression roller bearing block 37 is fixedly connected on outside described frame 1 by bearing block correcting plate 38.When feed mechanism 3 works, upper pressure roller 31 is identical with the linear velocity size of lower compression roller 35, and direction is contrary, to reach the object of feeding.Described elastic spacing structure 34 comprises and being socketed and the swing arm 341 can rotated around described upper pressure roller shaft bearing 33 axis and the pressing plate 342 be fixedly connected with described frame 1 with described upper pressure roller shaft bearing 33; One end and the described frame 1 of described swing arm 341 are hinged, and the other end is connected with described pressing plate 342 by spring 343.Thus, by pressing plate 342, spring 343 is compressed, thus the difficulty that increasing swing arm 341 upwards swings, pressure roller 31 and lower compression roller 35 are more adjacent to, play better conveying effect.It should be noted that, owing to considering that upper pressure roller 31 entirety is adjustable structure, its adjustable range should be designed to the wear extent scope being more than or equal to pressure roller 31 and lower compression roller 35 permission.Therefore, described frame 1 is provided with the perforate 14 can passed for described upper pressure roller shaft 32, and the vertical direction of described perforate 14 pressure roller shaft 32 on described leaves adjustment surplus.

Also it should be noted that, described upper pressure roller shaft bearing 33, lower compression roller bearing block 37 and rotor bearing block 23 are all arranged on outside frame 1, can effectively be thrown away by moisture during work, effectively lengthen bearing service life.

Described stationary knife mechanism 4 comprises stationary knife 41 and stationary knife seat 42, and described stationary knife 41 is fixed in described frame 1 by stationary knife seat 42.Concrete, stationary knife 41 and stationary knife seat 42 are bolted, and stationary knife seat 42 and machine plate are bolted, to facilitate mounting or dismounting, to change and maintenance.

Described stationary knife 41 is provided with the cambered surface 43 coordinated with described lower compression roller 35 periphery, when stationary knife 41 coordinates with lower compression roller 35, stationary knife 41 upper surface is engaged on the feeding exit of pressure roller 31 and lower compression roller 35, form splicing guide support, billot is entered between rotor 21 blade and stationary knife 41 blade smoothly and carries out pelletizing.

Described frame 1 comprises two blocks of machine plates vertically arranged, and described rotor mechanism 2, feed mechanism 3 and stationary knife mechanism 4 are arranged between described two blocks of machine plates; Described machine plate is can opening-closing structure, and it comprises top board 11 and base plate 12, and described top board 11 is hinged with base plate 12.Concrete, described top board 11 and base plate 12 are the two parts up and down described machine plate segmentation formed for cut surface with the center line place plane of described off-centre operation 24.Together with described top board 11 is bolted to connection with base plate 12.Such design, when bolt unclamps, top board 11 can around the hinge axes folding of itself and base plate 12, and then can directly rotor 21 and off-centre operation 24, rotor bearing block 23 directly be taken out, because of the blocking of waste materials produced that works between cleaning rotor 21 and stationary knife 41, convenient mounting or dismounting and maintenance.

Described plastic grain cutting machine also comprises the first drive motors, the second drive motors 6 and control unit; Described rotor axle 22 is connected with the clutch end of described first drive motors by the first transmission mechanism, described upper pressure roller shaft 32 with press down roll shaft 36 and be connected by the clutch end of the second transmission mechanism with the second drive motors 6; Described first drive motors and the second drive motors 6 are connected with described control unit respectively and are controlled by described control unit.Wherein, the first transmission mechanism is preferably belt transmission; Second transmission mechanism is preferably gear drive and bel-drivenn combines, and described first drive motors and the second drive motors 6 are preferably variable-frequency motor, and described control unit is preferably PLC.Thus, rotor transmission and pressure roller transmission are separated, use bi-motor pattern, realize, to the regulation and control of the control of finished particle size and speed, output, effectively reducing noise by control unit simultaneously.

Also it should be noted that, described second transmission mechanism comprises feeding and drives synchronizing wheel 71, feeding drive coordination wheel 72, underdrive synchronizing wheel 73, underdrive helical gear 74, first upper driving synchronizing wheel 75, second upper driving synchronizing wheel 76, lower compression roller helical gear (not indicating in figure), upper pressure roller synchronizing wheel 77, uploads moving axis 78 and lower drive shaft 79; Described feeding drives synchronizing wheel 71 to be fixedly connected with the clutch end of the second drive motors 6; Described feeding driving synchronizing wheel 71 is taken turns 72 with feeding drive coordination and is connected by belt transmission; Described feeding drive coordination wheel 72 is coaxially connected by lower drive shaft 79 with underdrive synchronizing wheel 73, underdrive helical gear 74, and described first upper driving synchronizing wheel 75 is coaxially connected by uploading moving axis 78 with the second upper driving synchronizing wheel 76; Described underdrive helical gear 74 is connected with a joggle with lower compression roller helical gear; Described underdrive synchronizing wheel 73 is connected by belt transmission with the second upper driving synchronizing wheel 76; Described first upper driving synchronizing wheel 75 is connected by belt transmission with upper pressure roller synchronizing wheel 77; Described lower compression roller helical gear with press down roll shaft 36 and be fixedly connected with; Described upper pressure roller synchronizing wheel 77 is fixedly connected with upper pressure roller shaft 32.When second drive motors 6 works, feeding drives synchronizing wheel 71 to rotate, by belt drive feeding drive coordination wheel 72, feeding drive coordination wheel 72 and underdrive synchronizing wheel 73, underdrive helical gear 74 is linked together by lower drive shaft 79, feeding drive coordination wheel 72 rotates, drive underdrive helical gear 74, and then drive lower compression roller helical gear, lower compression roller 35 is rotated, the underdrive synchronizing wheel 73 of lower drive shaft 79 of coexisting rotates, drive the second upper driving synchronizing wheel 76, second upper driving synchronizing wheel 76 and the first upper driving synchronizing wheel 75 are locked in together, therefore the first upper driving synchronizing wheel 75 rotates, first upper driving synchronizing wheel 75 is by pressure roller synchronizing wheel 77 on belt drive, pressure roller 31 is rotated.In addition, because underdrive helical gear 74 and lower compression roller 35 helical gear gear ratio catch up with pressure roller 31 with lower compression roller 35 external diameter than identical, so when the second drive motors 6 works, upper pressure roller 31 is identical with lower compression roller 35 linear velocity, direction contrary, the object of feeding is reached.

Above disclosedly be only preferred embodiment of the present invention, certainly can not limit the interest field of the present invention with this, therefore according to the equivalent variations that the present patent application the scope of the claims is done, still belong to the scope that the present invention is contained.

Claims

1. a plastic grain cutting machine, is characterized in that, comprise frame, the rotor mechanism be installed in described frame, feed mechanism and stationary knife mechanism; Described rotor mechanism and described feed mechanism are in being oppositely arranged, and described stationary knife mechanism is between described rotating mechanism and feed mechanism, and described stationary knife mechanism comprises stationary knife and stationary knife seat, and described stationary knife is fixed in described frame by stationary knife seat; Described rotor mechanism comprises rotor, rotor axle and two groups of the rotor bearing blocks be symmetrical set, off-centre operation and off-centre operation adjustment structures; Described rotor is rotatably connected through described off-centre operation and described rotor bearing block by described rotor axle; Described off-centre operation is rotatably connected to outside described frame around its center line; Described turning cylinder bearing is fixedly connected on described off-centre operation; The axis of described rotor axle and the center line of described off-centre operation are parallel to each other; Described off-centre operation is driven by described off-centre operation adjustment structure and rotates, and by described off-centre operation adjustment structure drive described rotor near or away from described stationary knife mechanism.

2. plastic grain cutting machine as claimed in claim 1, is characterized in that, described off-centre operation adjustment structure comprises and is arranged at described off-centre operation arc rack circumferentially and the driving gear set be connected with a joggle with described arc rack.

3. plastic grain cutting machine as claimed in claim 1, it is characterized in that, described feed mechanism comprises pressure roller, upper pressure roller shaft and two groups of upper pressure roller shaft bearings and elastic spacing structure be symmetrical set, described upper pressure roller is rotatably connected through described frame and described upper pressure roller shaft bearing by described upper pressure roller shaft, and described upper pressure roller shaft bearing is connected to outside described frame by described elastic spacing structure movement; Also comprise lower compression roller, press down roll shaft and two groups of lower compression roller bearing blocks be symmetrical set, press down roll shaft described in described lower compression roller passes through and be rotatably connected through described frame and described lower compression roller bearing block; Described lower compression roller bearing block is fixedly connected on outside described frame by bearing block correcting plate.

4. plastic grain cutting machine as claimed in claim 3, is characterized in that, described elastic spacing structure comprises and connecing and the swing arm can rotated around described upper pressure roller shaft bearing axis and the pressing plate be fixedly connected with described frame with described upper roller bearing cover for seat; One end and the described frame of described swing arm are hinged, and the other end is connected with described pressing plate by spring.

5. plastic grain cutting machine as claimed in claim 3, is characterized in that, described frame is provided with the perforate can passed for described upper pressure roller shaft, and the vertical direction of described perforate pressure roller shaft on described leaves adjustment surplus.

6. plastic grain cutting machine as claimed in claim 3, it is characterized in that, described stationary knife is provided with the cambered surface coordinated with described lower compression roller periphery.

7. the plastic grain cutting machine as described in any one of claim 1 to 6, is characterized in that, described frame comprises two blocks of machine plates vertically arranged, and described rotor mechanism, feed mechanism and stationary knife mechanism are arranged between described two blocks of machine plates; Described machine plate is can opening-closing structure, and it comprises top board and base plate, described top board and base plate hinged.

8. plastic grain cutting machine as claimed in claim 7, is characterized in that, described top board and base plate are the two parts up and down described machine plate segmentation formed for cut surface with the center line place plane of described off-centre operation.

9. plastic grain cutting machine as claimed in claim 3, is characterized in that, also comprise the first drive motors, the second drive motors and control unit; Described rotor axle is connected with the clutch end of described first drive motors by the first transmission mechanism, described upper pressure roller shaft with press down roll shaft and be connected by the clutch end of the second transmission mechanism with the second drive motors; Described first drive motors and the second drive motors are connected with described control unit respectively and are controlled by described control unit.

10. plastic grain cutting machine as claimed in claim 9, it is characterized in that, described second transmission mechanism comprises feeding and drives synchronizing wheel, feeding drive coordination wheel, underdrive synchronizing wheel, underdrive helical gear, the first upper driving synchronizing wheel, the second upper driving synchronizing wheel, lower compression roller helical gear, upper pressure roller synchronizing wheel, uploads moving axis and lower drive shaft; Described feeding drives synchronizing wheel to be fixedly connected with the clutch end of the second drive motors; Described feeding driving synchronizing wheel is taken turns with feeding drive coordination and is connected by belt transmission; Described feeding drive coordination wheel is coaxially connected by lower drive shaft with underdrive synchronizing wheel, underdrive helical gear, and described first upper driving synchronizing wheel is coaxially connected by uploading moving axis with the second upper driving synchronizing wheel; Described underdrive helical gear and lower compression roller helical gear are connected with a joggle; Described underdrive synchronizing wheel is connected by belt transmission with the second upper driving synchronizing wheel; Described first upper driving synchronizing wheel is connected by belt transmission with upper pressure roller synchronizing wheel; Described lower compression roller helical gear with press down roll shaft and be fixedly connected with; Described upper pressure roller synchronizing wheel is fixedly connected with upper pressure roller shaft.