CN109608038B - Modified is wave form glass fiber production facility for plastics - Google Patents

Abstract

The invention relates to the technical field of modified plastic equipment, in particular to a device for producing wavy glass fibers for modified plastics. The fiber rod is in a linear shape, the bonding force with the plastic is smaller than that of a bent fiber rod, the rigidity and the strength of the modified plastic are relatively small, and therefore equipment capable of producing the chopped and bent fiber rod is urgently needed. According to the invention, the pay-off assembly is arranged at the upper part of the mounting plate, the forming wheel assembly and the pressing wheel assembly are oppositely arranged below the pay-off assembly, and the material guide pipe, the cutter assembly and the material groove are arranged below the forming wheel assembly and the pressing wheel assembly from top to bottom, so that glass fibers are discharged through the pay-off assembly, enter between the forming wheel assembly and the pressing wheel assembly to be heated and extruded and formed, and then enter the cutter assembly through the guide pipe to be cut and then fall into the material groove to be stored, and the production efficiency of the bent fiber rod is effectively improved. The invention is mainly used for producing the chopped glass fiber.

Description

Modified is wave form glass fiber production facility for plastics

Technical Field

The invention relates to the technical field of modified plastic equipment, in particular to a device for producing wavy glass fibers for modified plastics.

Background

Glass fibers have a high modulus, are chemically stable, and are inexpensive, and thus are used as materials for increasing rigidity, strength, and heat resistance in modified plastics. The existing glass fiber reinforcement method comprises the following steps: firstly, cutting glass fiber into fiber rods with equal length, then uniformly mixing the fiber rods with auxiliary agents such as resin, a dispersing agent, a stabilizing agent and the like, heating and melting the mixture by a double screw, extruding a discharge hole of a machine head, cooling the mixture, and carrying out traction and grain cutting to obtain the modified plastic reinforced by the glass fiber. However, the fiber rod is linear, the bonding force with the plastic is smaller than that of the bent fiber rod, and the rigidity and the strength of the modified plastic are relatively small, so that the equipment capable of producing the chopped and bent fiber rod is urgently needed.

Disclosure of Invention

In order to solve the technical problems, the invention aims to provide the corrugated glass fiber production equipment for the modified plastics, which has the advantages of simple structure, low cost and high production efficiency.

The technical scheme of the invention is as follows:

a production device of wave-shaped glass fiber for modified plastics comprises a mounting plate 1, a base 2, a trough 3, a cutter assembly 4, a forming wheel assembly 5, a paying-off assembly 6, a pinch roller assembly 7 and a material guide pipe 8; the mounting plate 1 is vertically arranged at the upper end of the base 2, the trough 3, the cutter assembly 4, the forming wheel assembly 5, the pay-off assembly 6, the pinch roller assembly 7 and the material guide pipe 8 are arranged on the mounting plate 1, the pay-off assembly 6 is arranged at the upper part of the mounting plate 1, the forming wheel assembly 5 and the pinch roller assembly 7 are arranged below the pay-off assembly 6 in an oppositely arranged mode, and the material guide pipe 8, the cutter assembly 4 and the trough 3 are arranged below the forming wheel assembly 5 and the pinch roller assembly 7 from top to bottom; the glass fiber is discharged through the pay-off assembly 6, enters a space between the forming wheel assembly 5 and the pressing wheel assembly 7 for heating and extrusion forming, is guided by the material guide pipe 8, enters the cutter assembly 4 for cutting, and then falls into the material groove 3 for storage; the forming wheel assembly 5 comprises a heating assembly 51, a forming wheel 52, a forming wheel motor 53 and a forming wheel motor base 54; the forming wheel motor base 54 is arranged on the mounting plate 1, the forming wheel motor 53 is arranged on the forming wheel motor base 54 in a penetrating manner, the forming wheel 52 is arranged on an output shaft of the forming wheel motor 53, one end of the heating assembly 51 is arranged on the forming wheel motor base 54, and the other end of the heating assembly is arranged inside the forming wheel 52; the forming wheel 52 comprises a heat insulation sleeve 521, a heat insulation plate 522, a forming hub 524 and first wave-shaped teeth 525; the heat insulation sleeve 521 is arranged in an inner hole of the forming hub 524, one end of the forming hub 524 is provided with a heat insulation plate 522, the other end of the forming hub 524 is provided with an annular groove, and the first wavy teeth 525 are arranged on the outer diameter of the forming hub 524; the heating component 51 comprises a heating fixing seat 511, a fan 512, a fan cover 513, a hot air baffle 514 and a heating wire 515; the heating fixing seat 511 is arranged on the forming wheel motor seat 54, the hot air baffle 514 is arranged at one end of the heating fixing seat 511 and seals the annular groove on the forming wheel hub 524, the fan housing 513 is arranged on the heating fixing seat 511, one end of the fan housing 513 is communicated with the hot air baffle 514, the heating wire 515 is arranged in the inner cavity of the fan housing 513, and the fan 512 is arranged at one end of the inner cavity of the fan housing 513.

Preferably, the pinch roller assembly 7 comprises a pinch roller 71, a pinch roller fixing seat 72, an air cylinder 73, an electromagnetic valve 74 and an air pipe 75; the forming wheel motor base 54 is arranged on the mounting plate 1, the pressing wheel 71 is connected to an output shaft of the air cylinder 73 through a pressing wheel fixing base 72, one end of the electromagnetic valve 74 is communicated with the air cylinder 73, the other end of the electromagnetic valve is communicated with the air pipe 75, and the other end of the air pipe 75 is provided with an air pump; the outer diameter of the pinch roller 71 is provided with a second wave-shaped tooth 711, and the tooth profile of the second wave-shaped tooth 711 is the same as that of the first wave-shaped tooth 525.

Preferably, the paying-off assembly 6 comprises a balancing weight 61, a first wire passing wheel 62, a second wire passing wheel 63, a third wire passing wheel 64, a paying-off motor 65 and a paying-off wheel 66; the setting of unwrapping wire motor 65 is on mounting panel 1, actinobacillus wheel 66 sets up on the output shaft of unwrapping wire motor 65, first line wheel 62 and the third line wheel 64 of crossing sets up in actinobacillus wheel 66 one side, the second is crossed the line wheel 63 and is set up in the first line wheel 62 and the third and cross the below between the line wheel 64, and glass fiber crosses line wheel 62, second line wheel 63 and third line wheel 64 through first line wheel 62, the second is crossed line wheel 63 and is passed through glass fiber and first line wheel 62, the third and cross line wheel 64 swing joint, balancing weight 61 sets up in the second and crosses line wheel 63 below to cross line wheel 63 center department and second at the second and cross line wheel 63 and rotate and be connected.

Preferably, the cutter assembly 4 comprises a blade 41, a cutter holder 42, a cutter motor 43, a cutter motor holder 44 and a cutter setting block 45; the cutter motor seat 44 is arranged below the material guide pipe 8, the cutter motor 43 is arranged on the cutter motor seat 44, the cutter holder 42 is arranged on an output shaft of the cutter motor 43, the blades 41 are uniformly arranged on the outer diameter of the cutter holder 42, and the cutter setting block 45 is arranged on one side of the cutter motor 43.

The invention has the beneficial effects that:

through setting up the unwrapping wire subassembly on mounting panel upper portion, take shape wheel subassembly and pinch roller subassembly are to installing and are put in the unwrapping wire subassembly below, and the passage, cutter unit spare and silo top-down set up in taking shape wheel subassembly and pinch roller subassembly below for glass fiber gets into through the unwrapping wire subassembly blowing and heats and extrusion between taking shape wheel subassembly and the pinch roller subassembly, and the direction gets into the cutter unit spare through the passage and accomplishes and fall into the silo after the cutting and store, has improved the production efficiency of crooked fiber rod effectively.

By arranging the forming wheel motor base 54 on the mounting plate 1, the forming wheel motor 53 is arranged on the forming wheel motor base 54 in a penetrating way, the forming wheel 52 is arranged on the output shaft of the forming wheel motor 53, one end of the heating assembly 51 is arranged on the forming wheel motor base 54, and the other end is arranged inside the forming wheel 52; the forming wheel 52 comprises a heat insulation sleeve 521, a heat insulation plate 522, a forming hub 524 and first wave-shaped teeth 525; the heat insulation sleeve 521 is arranged in an inner hole of the forming hub 524, one end of the forming hub 524 is provided with a heat insulation plate 522, the other end of the forming hub 524 is provided with an annular groove, and the first wavy teeth 525 are arranged on the outer diameter of the forming hub 524; the heating component 51 comprises a heating fixing seat 511, a fan 512, a fan cover 513, a hot air baffle 514 and a heating wire 515; heating fixing base 511 sets up on shaping wheel motor cabinet 54, hot-blast baffle 514 sets up in heating fixing base 511 one end to seal the annular groove on the wheel hub 524 that takes shape, fan housing 513 sets up on heating fixing base 511, fan housing 513 one end and hot-blast baffle 514 intercommunication, heating wire 515 sets up in fan housing 513 inner chamber, fan 512 sets up in fan housing 513 inner chamber one end for the air that the fan sent into becomes hot-blast through the heating wire heating and gets into the annular groove on the wheel hub that takes shape through hot-blast baffle in, generates heat through the first wave form tooth of heat transfer, heats glass fiber and softens, and heat insulating sheath and heat insulating board can prevent that the heat from transmitting to the wheel motor that takes shape simultaneously, have improved glass fiber's shaping efficiency effectively, and prevent that the motor from damaging.

One end of the electromagnetic valve is communicated with the air cylinder, the other end of the electromagnetic valve is communicated with the air pipe, and the other end of the air pipe is provided with an air pump; the compressing wheel is connected to the output shaft of the cylinder through the compressing wheel fixing seat, the outer diameter of the compressing wheel is provided with second waveform teeth, and the second waveform teeth are identical to the first waveform teeth in tooth form, so that the pressing force of the compressing wheel can be adjusted by pressure adjustment of the air pump, and the second waveform teeth are identical to the first waveform teeth in tooth form and are meshed, and the compressing flexibility and the forming efficiency of the compressing wheel are effectively improved.

The paying-off wheel 66 is arranged on an output shaft of a paying-off motor 65, the first wire passing wheel 62 and the third wire passing wheel 64 are arranged on one side of the paying-off wheel 66, the second wire passing wheel 63 is arranged below the space between the first wire passing wheel 62 and the third wire passing wheel 64, the glass fibers sequentially pass through the first wire passing wheel 62, the second wire passing wheel 63 and the third wire passing wheel 64, the second wire passing wheel 63 is movably connected with the first wire passing wheel 62 and the third wire passing wheel 64 through the glass fibers, the counterweight block 61 is arranged below the second wire passing wheel 63 and is rotatably connected with the second wire passing wheel 63 in the center of the second wire passing wheel 63, so that the glass fibers can be uniformly discharged by the paying-off wheel and can be subjected to tension adjustment by the second wire passing wheel and the counterweight block, and the paying-off and tension adjustment efficiencies are effectively improved.

Through the handle cutter motor cabinet 44 sets up in the passage 8 below, cutter motor 43 sets up on cutter motor cabinet 44, blade holder 42 sets up on the output shaft of cutter motor 43, blade 41 evenly sets up on blade holder 42 external diameter, to the setting of cutting block 45 in cutter motor 43 one side for the cutter motor drives the blade rotation, and the blade is less than glass fiber's diameter with the shortest distance to the cutting block, and adjusts glass fiber's cutting length through the rotational speed transform, has improved cutting efficiency effectively.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a cross-sectional view of a formed wheel assembly of the present invention;

FIG. 3 is a partial view A of the present invention;

FIG. 4 is a partial view B of the present invention;

in the figure: the device comprises a mounting plate 1, a base 2, a trough 3, a cutter assembly 4, a forming wheel assembly 5, a paying-off assembly 6, a pinch roller assembly 7, a material guide pipe 8, glass fibers 9, a blade 41, a cutter holder 42, a cutter motor 43, a cutter motor base 44, a cutter aligning block 45, a heating assembly 51, a forming wheel 52, a forming wheel motor 53, a forming wheel motor base 54, a heating fixing base 511, a fan 512, a fan cover 513, a hot air baffle 514, a heating wire 515, a heat insulation sleeve 521, a heat insulation plate 522, a forming wheel hub 524, first wavy teeth 525, a balancing weight 61, a first wire passing wheel 62, a second wire passing wheel 63, a third wire passing wheel 64, a paying-off motor 65, a paying-off wheel 66, a pinch roller 71, a pinch roller fixing base 72, a cylinder 73, an electromagnetic valve 74, an air pipe 75 and second wavy teeth 711.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

As shown in fig. 1 to 4, the apparatus for producing a wave glass fiber for modified plastics according to a preferred embodiment of the present invention comprises a mounting plate 1, a base 2, a trough 3, a cutter assembly 4, a forming wheel assembly 5, a wire releasing assembly 6, a pinch roller assembly 7 and a material guiding pipe 8; the mounting plate 1 is vertically arranged at the upper end of the base 2, the trough 3, the cutter assembly 4, the forming wheel assembly 5, the pay-off assembly 6, the pinch roller assembly 7 and the material guide pipe 8 are arranged on the mounting plate 1, the pay-off assembly 6 is arranged at the upper part of the mounting plate 1, the forming wheel assembly 5 and the pinch roller assembly 7 are arranged below the pay-off assembly 6 in an oppositely-arranged mode, and the material guide pipe 8, the cutter assembly 4 and the trough 3 are arranged below the forming wheel assembly 5 and the pinch roller assembly 7 from top to bottom; the glass fiber is discharged through the pay-off assembly 6, enters the space between the forming wheel assembly 5 and the pressing wheel assembly 7 to be heated and extruded and is guided by the material guide pipe 8 to enter the cutter assembly 4 to be cut and then fall into the material groove 3 to be stored, and therefore the production efficiency of the bent fiber rod is effectively improved. The forming wheel assembly 5 comprises a heating assembly 51, a forming wheel 52, a forming wheel motor 53 and a forming wheel motor base 54; a forming wheel motor base 54 is arranged on the mounting plate 1, a forming wheel motor 53 is arranged on the forming wheel motor base 54 in a penetrating manner, a forming wheel 52 is arranged on an output shaft of the forming wheel motor 53, one end of a heating assembly 51 is arranged on the forming wheel motor base 54, and the other end of the heating assembly is arranged inside the forming wheel 52; the forming wheel 52 includes an insulating sleeve 521, an insulating plate 522, a forming hub 524, and first wave teeth 525; the heat insulation sleeve 521 is arranged in an inner hole of the forming hub 524, one end of the forming hub 524 is provided with a heat insulation plate 522, the other end of the forming hub 524 is provided with an annular groove, and the first wavy teeth 525 are arranged on the outer diameter of the forming hub 524; the heating component 51 comprises a heating fixing seat 511, a fan 512, a fan cover 513, a hot air baffle 514 and a heating wire 515; heating fixing base 511 sets up on shaping wheel motor cabinet 54, hot-blast baffle 514 sets up in heating fixing base 511 one end, and seal the annular groove on shaping wheel hub 524, fan housing 513 sets up on heating fixing base 511, fan housing 513 one end and hot-blast baffle 514 intercommunication, heating wire 515 sets up in fan housing 513 inner chamber, fan 512 sets up in fan housing 513 inner chamber one end, make the air that the fan sent into become hot-blast through the heating wire heating and get into the annular groove on shaping wheel hub through hot-blast baffle, generate heat through the first wave form tooth of heat transfer, heat the glass fiber and soften, insulating sheath and heat insulating board can prevent heat transfer to shaping wheel motor simultaneously, glass fiber's shaping efficiency has been improved effectively, and prevent the motor damage.

The pinch roller assembly 7 comprises a pinch roller 71, a pinch roller fixing seat 72, an air cylinder 73, an electromagnetic valve 74 and an air pipe 75; the forming wheel motor base 54 is arranged on the mounting plate 1, the pressing wheel 71 is connected to an output shaft of the air cylinder 73 through a pressing wheel fixing base 72, one end of the electromagnetic valve 74 is communicated with the air cylinder 73, the other end of the electromagnetic valve is communicated with the air pipe 75, and the other end of the air pipe 75 is provided with an air pump; the second wave-shaped teeth 711 are arranged on the outer diameter of the pressing wheel 71, the tooth profiles of the second wave-shaped teeth 711 and the first wave-shaped teeth 525 are the same, so that the pressing force of the pressing wheel can be adjusted by adjusting the pressure of the air pump, the tooth profiles of the second wave-shaped teeth and the first wave-shaped teeth are the same and meshed, and the pressing flexibility and the forming efficiency of the pressing wheel are effectively improved.

The paying-off assembly 6 comprises a balancing weight 61, a first wire passing wheel 62, a second wire passing wheel 63, a third wire passing wheel 64, a paying-off motor 65 and a paying-off wheel 66; the paying-off motor 65 is arranged on the mounting plate 1, the paying-off wheel 66 is arranged on an output shaft of the paying-off motor 65, the first wire passing wheel 62 and the third wire passing wheel 64 are arranged on one side of the paying-off wheel 66, the second wire passing wheel 63 is arranged below the space between the first wire passing wheel 62 and the third wire passing wheel 64, the glass fibers sequentially pass through the first wire passing wheel 62, the second wire passing wheel 63 and the third wire passing wheel 64, the second wire passing wheel 63 is movably connected with the first wire passing wheel 62 and the third wire passing wheel 64 through the glass fibers, the counterweight block 61 is arranged below the second wire passing wheel 63 and is rotatably connected with the second wire passing wheel 63 in the center of the second wire passing wheel 63, so that the glass fibers can be paid off at a constant speed by the paying-off wheel and can be subjected to tension adjustment by the second wire passing wheel and the counterweight block, and the paying-off and tension adjustment efficiencies are effectively improved.

The cutter component 4 comprises a blade 41, a cutter holder 42, a cutter motor 43, a cutter motor seat 44 and a cutter aligning block 45; cutter motor cabinet 44 sets up in the passage 8 below, cutter motor 43 sets up on cutter motor cabinet 44, blade holder 42 sets up on the output shaft of cutter motor 43, blade 41 evenly sets up on blade holder 42 external diameter, to the setting of cutting block 45 in cutter motor 43 one side, make the cutter motor drive blade rotatory, the blade is less than glass fiber's diameter with the shortest distance to the cutter block, and adjust glass fiber's cutting length through the rotational speed transform, the cutting efficiency has been improved effectively.

The working principle is as follows:

glass fiber 9 can be paid off at the uniform velocity by the actinobacillus wheel to can be crossed line wheel and balancing weight by the second and carry out tension adjustment, glass fiber 9 gets into between forming wheel subassembly and the pinch-off pulley subassembly through the pay-off subassembly blowing. Air sent by a fan is heated by an electric heating wire to become hot air, the hot air enters an annular groove on a forming hub through a hot air baffle plate, the first wave-shaped teeth are heated through heat transfer to heat and soften the glass fiber 9, meanwhile, a heat insulation sleeve and a heat insulation plate can prevent heat from being transferred to a forming wheel motor, an air pump adjusts pressing force of a pressing wheel, the second wave-shaped teeth are meshed with the first wave-shaped teeth in the same tooth form to extrude the wave-shaped glass fiber 9, the wave-shaped glass fiber 9 enters a cutter assembly through guide pipe guiding, the cutter motor drives the cutter blade to rotate, the shortest distance between the cutter blade and the feeler block is smaller than the diameter of the glass fiber 9, the cutting length of the glass fiber 9 is adjusted through rotating speed changing, and then the glass fiber 9 falls into a trough for storage.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, it should be noted that, for those skilled in the art, many modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (4)

1. The utility model provides a modified is wave form glass fiber production facility for plastics which characterized in that: comprises a mounting plate (1), a base (2), a trough (3), a cutter component (4), a forming wheel component (5), a paying-off component (6), a pressing wheel component (7) and a material guide pipe (8); the device comprises a base (2), a mounting plate (1), a trough (3), a cutter assembly (4), a forming wheel assembly (5), a paying-off assembly (6), a pressing wheel assembly (7) and a material guide pipe (8), wherein the mounting plate (1) is vertically arranged at the upper end of the base (2), the paying-off assembly (6) is arranged at the upper part of the mounting plate (1), the forming wheel assembly (5) and the pressing wheel assembly (7) are oppositely arranged below the paying-off assembly (6), and the material guide pipe (8), the cutter assembly (4) and the trough (3) are arranged below the forming wheel assembly (5) and the pressing wheel assembly (7) from top to bottom; the glass fiber is discharged through the pay-off assembly (6), enters a space between the forming wheel assembly (5) and the pressing wheel assembly (7) for heating and extrusion forming, is guided by the material guide pipe (8), enters the cutter assembly (4), is cut, and then falls into the material groove (3) for storage;

the forming wheel assembly (5) comprises a heating assembly (51), a forming wheel (52), a forming wheel motor (53) and a forming wheel motor base (54); the forming wheel motor base (54) is arranged on the mounting plate (1), the forming wheel motor (53) is arranged on the forming wheel motor base (54) in a penetrating mode, the forming wheel (52) is arranged on an output shaft of the forming wheel motor (53), one end of the heating assembly (51) is arranged on the forming wheel motor base (54), and the other end of the heating assembly is arranged inside the forming wheel (52);

the forming wheel (52) comprises a heat insulation sleeve (521), a heat insulation plate (522), a forming hub (524) and first wave-shaped teeth (525); the heat insulation sleeve (521) is arranged in an inner hole of the forming hub (524), one end of the forming hub (524) is provided with a heat insulation plate (522), the other end of the forming hub is provided with an annular groove, and the first wavy teeth (525) are arranged on the outer diameter of the forming hub (524);

the heating component (51) comprises a heating fixed seat (511), a fan (512), a fan cover (513), a hot air baffle (514) and an electric heating wire (515); heating fixing base (511) set up on shaping wheel motor cabinet (54), hot-blast baffle (514) set up in heating fixing base (511) one end to seal the annular groove on shaping wheel hub (524), fan housing (513) sets up on heating fixing base (511), fan housing (513) one end and hot-blast baffle (514) intercommunication set up in fan housing (513) inner chamber, fan (512) set up in fan housing (513) inner chamber one end.

2. The apparatus for producing a modified plastic corrugated glass fiber as claimed in claim 1, wherein: the pressing wheel assembly (7) comprises a pressing wheel (71), a pressing wheel fixing seat (72), an air cylinder (73), an electromagnetic valve (74) and an air pipe (75); the pressing wheel (71) is connected to an output shaft of the air cylinder (73) through a pressing wheel fixing seat (72), one end of the electromagnetic valve (74) is communicated with the air cylinder (73), the other end of the electromagnetic valve is communicated with the air pipe (75), and the other end of the air pipe (75) is provided with an air pump; and a second wave-shaped tooth (711) is arranged on the outer diameter of the pressing wheel (71), and the tooth form of the second wave-shaped tooth (711) is the same as that of the first wave-shaped tooth (525).

3. The apparatus for producing a modified plastic corrugated glass fiber as claimed in claim 1, wherein: the paying-off assembly (6) comprises a balancing weight (61), a first wire passing wheel (62), a second wire passing wheel (63), a third wire passing wheel (64), a paying-off motor (65) and a paying-off wheel (66); paying-off motor (65) sets up on mounting panel (1), actinobacillus wheel (66) set up on the output shaft of actinobacillus motor (65), first cross line wheel (62) and third and cross line wheel (64) and set up in actinobacillus wheel (66) one side, second cross line wheel (63) and set up in first cross the line wheel (62) and third and cross the below between line wheel (64), and glass fiber crosses line wheel (62), second in proper order and crosses line wheel (63) and third and cross line wheel (64), second cross line wheel (63) and pass line wheel (62) through glass fiber and first, third and cross line wheel (64) swing joint, balancing weight (61) set up in the second and cross line wheel (63) below to cross line wheel (63) center department at the second and rotate with second and be connected with second cross line wheel (63).

4. The apparatus for producing a modified plastic corrugated glass fiber as claimed in claim 1, wherein: the cutter component (4) comprises a blade (41), a cutter holder (42), a cutter motor (43), a cutter motor holder (44) and a cutter setting block (45); the utility model discloses a cutter, including cutter motor seat (44), cutter motor seat (43), blade (41), cutter motor seat (44), blade holder (42), cutter motor seat (43), blade (45) and cutter motor (43), cutter motor seat (44) sets up in passage (8) below, cutter motor (43) sets up on cutter motor seat (44), blade holder (42) set up on the output shaft of cutter motor (43), blade (41) evenly set up on blade holder (42) external diameter, cutter setting block (45) set up in cutter motor (43) one side.

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