CN112869341B - Perforating device is used in production of industry brush - Google Patents

Abstract

The invention relates to the technical field of industrial machinery, in particular to a punching device for industrial brush production, which solves the problems that most of punching is performed by workers one by using bench drills in the existing industrial brush production, the hole pitch cannot be kept consistent, and the productivity is seriously influenced; a driving motor is arranged in the box body, a first driving gear is arranged on the driving motor and meshed with a second driving gear, the second driving gear can be meshed with a third driving gear, the third driving gear is arranged on a second driving shaft, and a first driving belt wheel is arranged on the second driving shaft; press from both sides the industry brush through clamping device and press from both sides tightly, then will brush the shallow hole of body processing through pore-forming device once, then rethread secondary pore-forming device is to brush body processing deep hole, prevents to process disposable processing deep hole and accelerates the part consume, and a counter bore device and secondary pore-forming device can be to the unanimous aperture of brush body processing pitch-row.

Description

Perforating device is used in production of industry brush

Technical Field

The invention relates to the technical field of industrial machinery, in particular to a punching device for industrial brush production.

Background

The industrial brush is a novel product which is upgraded and improved on the basis of a civil brush, and is mainly used for cleaning, dust removal, polishing and the like in the industrial production process.

In the existing industrial brush production, most of punching is performed by workers using bench drills one by one, so that the hole pitch cannot be kept consistent, the quality of finished products is influenced, the punching time is long one by one, and the productivity is seriously influenced.

Disclosure of Invention

The invention relates to the technical field of industrial machinery, in particular to a punching device for producing an industrial brush.

In order to solve the technical problems, the invention relates to the technical field of industrial machinery, in particular to a punching device for producing an industrial brush, which comprises a box body, a brush inlet door, a brush outlet door, a driving motor, a first driving gear, a second driving gear, a first driving shaft, a driving electric push rod, a third driving gear, a second driving shaft, a first driving belt wheel, a first driving connecting belt, a second driving belt wheel, a third driving shaft, a third driving belt wheel, a second driving connecting belt, a fourth driving belt wheel, a clamping device, a primary hole forming device and a secondary hole forming device; the method is characterized in that: the box body is provided with a brush inlet groove and a brush outlet groove, the brush inlet groove is hinged with a brush inlet door, the brush outlet groove is hinged with a brush outlet door, the box body is internally provided with a driving motor, the driving motor is provided with a first driving gear, the first driving gear is meshed with a second driving gear, the second driving gear is arranged on a first driving shaft, the first driving shaft is connected with a driving electric push rod through a bearing, the second driving gear can be meshed with a third driving gear, the third driving gear is arranged on a second driving shaft, the second driving shaft is provided with a first driving belt wheel, the first driving belt wheel is connected with a second driving belt wheel through a first driving connecting belt, the second driving belt wheel is arranged on a third driving shaft, the third driving shaft is provided with a third driving belt wheel, the third driving belt wheel is connected with a fourth driving belt wheel through a second driving connecting belt, and the second driving connecting belt is provided with a clamping device, the clamping device is connected with the primary pore-forming device, and the primary pore-forming device is connected with the secondary pore-forming device.

As a further optimization of the technical scheme, the punching device for industrial brush production comprises a first clamping plate, a first clamping rod, a second clamping plate, a clamping sleeve plate, a first clamping spring, a third clamping plate, a second clamping rod, a fourth clamping plate, a first clamping shaft, a first clamping belt wheel, a clamping connecting belt, a second clamping belt wheel, a second clamping shaft, a first clamping wheel, a third clamping belt wheel, a third clamping shaft, a second clamping wheel, a first clamping rack, a fifth clamping plate, a second clamping electric push rod, a second clamping rack, a third clamping wheel, a clamping screw rod, a clamping nut, a clamping connecting block, a second clamping spring and a clamping point; the first clamping plate is provided with two groups of inclined holes, each group of inclined holes is respectively meshed with a first clamping rod, one group of first clamping rods penetrates through the inclined holes to be hinged with a second clamping plate, the second clamping plate is inserted into a clamping sleeve plate and is connected with the other group of first clamping rods through a first clamping spring, the second clamping plate and the clamping sleeve plate are respectively connected with a third clamping plate, the third clamping plate is sleeved on the two groups of second clamping rods, one side of the first clamping plate is provided with a fourth clamping plate, the upper end of the fourth clamping plate is provided with a first clamping shaft, the first clamping shaft is provided with a first clamping belt wheel, the first clamping belt wheel is connected with the second clamping belt wheel through a clamping connecting belt, the second clamping belt wheel is arranged on the second clamping shaft, and the second clamping shaft is provided with a first clamping wheel, the first clamping wheel can mesh with the second drive gear, the clamping connecting band still meshes with the third clamping belt wheel, the third clamping belt wheel sets up on the third clamping shaft, be provided with the second clamping wheel on the third clamping shaft, the second clamping wheel meshes with the first tight rack phase of clamp, first tight rack and fifth clamping plate fixed connection of clamp, be provided with the tight electric putter of second clamp on the fifth clamping plate, the tight electric putter of second clamp links to each other with the tight rack of second clamp, the tight rack of second clamp meshes with the third clamping wheel phase of clamp, the tight wheel setting of third clamp is on pressing from both sides tight lead screw, press from both sides tight lead screw and pass through threaded connection with the clamp nut, press from both sides tight groove and press from both sides tight connecting block through the tight spring coupling of second on the tight lead screw passes through the fifth clamping plate, be provided with the tight point of clamp on the fifth clamping plate.

As a further optimization of the technical scheme, the punching device for industrial brush production provided by the invention comprises a first hole forming gear, a second hole forming gear, a first hole forming shaft, a hole forming electric push rod, a third hole forming gear, a second hole forming shaft, a first hole forming belt wheel, a first hole forming connecting belt, a second hole forming belt wheel, a third hole forming shaft, a first hole forming connecting wheel, a fourth hole forming gear, a fourth hole forming shaft, a third hole forming belt wheel, a second hole forming connecting belt, a fourth hole forming belt wheel, a fifth hole forming shaft, a hole forming connecting frame, a sixth hole forming shaft, a hole forming connecting plate, a hole forming connecting rod, a hole forming connecting wheel, a seventh hole forming shaft, a fifth hole forming gear, a hole forming taper rod and a second hole forming connecting wheel; a first pore-forming gear is arranged on a main shaft of the driving motor and meshed with a second pore-forming gear, the second pore-forming gear is connected with a first pore-forming shaft, the first pore-forming shaft is connected with a pore-forming electric push rod through a bearing, the second pore-forming gear can be meshed with a third pore-forming gear, the third pore-forming gear is meshed with a second pore-forming shaft, a first pore-forming belt wheel is arranged on the second pore-forming shaft, the first pore-forming belt wheel is connected with a second pore-forming belt wheel through a first pore-forming connecting belt, the second pore-forming belt wheel is arranged on a third pore-forming shaft, a first pore-forming connecting wheel is arranged on the third pore-forming shaft, the second pore-forming gear can be further meshed with a fourth pore-forming gear, the fourth pore-forming gear is arranged on the fourth pore-forming shaft, a third pore-forming belt wheel is connected with a fourth pore-forming belt wheel through a second pore-forming connecting belt, the fourth pore-forming pulley sets up on the fifth pore-forming axle, the fifth pore-forming axle links to each other with the one end of pore-forming connection frame, the other end of pore-forming connection frame links to each other with the sixth pore-forming axle, the epaxial pore-forming connecting plate that is provided with of fifth pore-forming, be provided with a plurality of constitution hole connecting rods on the pore-forming connecting plate, every group the pore-forming connecting rod passes through the bearing with the pore-forming connecting wheel and links to each other, the pore-forming connecting wheel sets up on the seventh pore-forming axle, the epaxial fifth pore-forming gear that is provided with of seventh pore-forming, be provided with a plurality of constitution hole awl pore-forming rods on the fifth pore-forming gear, the epaxial second pore-forming connecting wheel that is provided with of seventh pore-forming, the second pore-forming connecting wheel meshes with first pore-forming connecting wheel mutually.

As further optimization of the technical scheme, the punching device for the industrial brush production comprises a first transmission wheel, a first transmission shaft, a transmission electric push rod, a transmission rod, a grooved wheel, a second transmission shaft, a first transmission belt wheel, a transmission connecting belt, a second transmission belt wheel, a third transmission shaft, a transmission connecting frame, a trapezoidal wheel, a spiral wheel, a fourth transmission shaft and a hole forming connecting needle rod; first drive gear can mesh with first drive wheel mutually, first drive wheel is provided with first transmission shaft, first transmission shaft passes through the bearing with transmission electric putter and is connected, be provided with a plurality of groups transfer line on the first drive wheel, every group the transfer line can mesh between two teeth with the sheave, the sheave sets up on the secondary drive axle, be provided with first driving pulley on the secondary drive axle, first driving pulley passes through the transmission connecting band and links to each other with the secondary drive pulley, the secondary drive pulley sets up on the third transmission shaft, the third transmission shaft sets up on the transmission link, be provided with trapezoidal wheel on the third transmission shaft, trapezoidal wheel meshes with the helical wheel mutually, the helical wheel sets up on the fourth transmission shaft, the fourth transmission shaft passes the transmission link and links to each other with the pore-forming connecting needle bar.

The perforating device for the industrial brush production has the beneficial effects that:

the invention relates to the technical field of industrial machinery, in particular to a punching device for industrial brush production;

the clamping device is arranged, so that the industrial brush can be fixed at three points and can be completely fixed, and the phenomenon that the punching distance of the punching device on the industrial brush is changed due to the displacement of the industrial brush in the punching process, so that the subsequent process of installing bristles is influenced, and the quality of the industrial brush is influenced is prevented;

through being provided with pore-forming device once, pore-forming device once presses shallow hole with the brush body, and can adjust pore-forming once according to the thickness of industry brush, can also adjust according to the degree of depth in hole, and twice process pore-forming prevents that pore-forming is too dark once, leads to the part wearing and tearing too fast.

Through being provided with secondary pore-forming device, secondary pore-forming device rotates the hole of industry brush, carries out further pore-forming with industry brush, and according to required regulation pore-forming degree of depth, carries out further pore-forming to the brush body.

Drawings

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

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a third schematic view of the overall structure of the present invention.

Fig. 4 is a fourth overall structural diagram of the present invention.

Fig. 5 is a first structural schematic diagram of the clamping device of the present invention.

Fig. 6 is a second structural schematic diagram of the clamping device of the present invention.

Fig. 7 is a third structural schematic diagram of the clamping device of the present invention.

Fig. 8 is a fourth schematic structural view of the clamping device of the present invention.

Fig. 9 is a schematic structural diagram of the clamping device of the present invention.

Fig. 10 is a sixth structural view of the clamping device of the present invention.

Fig. 11 is a seventh structural schematic diagram of the clamping device of the present invention.

FIG. 12 is a first schematic structural diagram of a primary hole forming apparatus according to the present invention.

FIG. 13 is a second schematic structural view of a primary hole forming device according to the present invention.

FIG. 14 is a third schematic structural diagram of a primary hole-forming device according to the present invention.

FIG. 15 is a fourth schematic structural view of the primary hole-forming device of the present invention.

FIG. 16 is a schematic structural diagram of a primary hole-forming device of the present invention.

FIG. 17 is a sixth schematic structural view of the primary pore-forming apparatus of the present invention.

FIG. 18 is a schematic view of a secondary hole forming apparatus according to the present invention

In the figure: a box body 1; brushing the door 2; a brush outlet door 3; a drive motor 4; a first drive gear 5; a second drive gear 6; a first drive shaft 7; driving the electric push rod 8; a third drive gear 9; a second drive shaft 10; a first drive pulley 11; a first driving connecting belt 12; a second drive pulley 13; a third drive shaft 14; a third drive pulley 15; a second drive connection belt 16; a fourth driving pulley 17; a clamping device 18; a primary hole-forming device 19; a secondary pore-forming device 20; a first clamping plate 18-1; a first clamping bar 18-2; a second clamping plate 18-3; clamping the sleeve plate 18-4; a first clamping spring 18-5; a third clamping plate 18-6; a second clamping lever 18-7; a fourth clamping plate 18-8; a first clamping shaft 18-9; a first clamping pulley 18-10; clamping the connecting band 18-11; a second clamping pulley 18-12; a second clamping shaft 18-13; a first clamping wheel 18-14; a third clamping pulley 18-15; a third clamping shaft 18-16; a second clamping wheel 18-17; a first clamping rack 18-18; a fifth clamping plate 18-19; a second clamping electric push rod 18-20; second clamping racks 18-21; third pinch wheels 18-22; clamping lead screws 18-23; clamp nuts 18-24; clamping the connecting blocks 18-25; second clamping springs 18-26; the clamping points 18-27; a first hole-forming gear 19-1; a second hole-forming gear 19-2; a first tapping shaft 19-3; a hole-forming electric push rod 19-4; a third hole forming gear 19-5; a second bore forming shaft 19-6; a first hole-forming pulley 19-7; a first apertured web 19-8; a second hole-forming pulley 19-9; a third hole forming shaft 19-10; a first apertured fifth wheel 19-11; a fourth hole-forming gear 19-12; a fourth hole forming shaft 19-13; a third hole-forming pulley 19-14; second apertured bonding strips 19-15; a fourth hole-forming pulley 19-16; a fifth hole forming shaft 19-17; forming a hole connecting frame 19-18; a sixth drilling shaft 19-19; forming a hole connecting plate 19-20; a hole-forming connecting rod 19-21; a hole-forming connecting wheel 19-22; a seventh hole forming shaft 19-23; fifth hole forming gears 19-24; a pore-forming taper rod 19-25; second bore connecting wheels 19-26; a first drive pulley 20-1; a first transmission shaft 20-2; a transmission electric push rod 20-3; a transmission rod 20-4; 20-5 of grooved wheels; a second drive shaft 20-6; a first pulley 20-7; 20-8 parts of a transmission connecting belt; a second drive pulley 20-9; a third drive shaft 20-10; a transmission connecting frame 20-11; 20-12 parts of trapezoidal wheel; 20-13 parts of spiral wheel; a fourth drive shaft 20-14; the hole is connected with the needle rod 20-15.

Detailed Description

The first embodiment is as follows:

the invention relates to the technical field of industrial machinery, in particular to a punching device for producing an industrial brush, which comprises a box body 1, a brush inlet door 2, a brush outlet door 3, a driving motor 4, a first driving gear 5, a second driving gear 6, a first driving shaft 7, a driving electric push rod 8, a third driving gear 9, a second driving shaft 10, a first driving belt wheel 11, a first driving connecting belt 12, a second driving belt wheel 13, a third driving shaft 14, a third driving belt wheel 15, a second driving connecting belt 16, a fourth driving belt wheel 17, a clamping device 18, a primary hole forming device 19 and a secondary hole forming device 20, wherein the box body is provided with a hole forming hole, and the hole forming hole is arranged on the box body; a brush inlet groove and a brush outlet groove are processed on the box body 1, the brush inlet groove is hinged with a brush inlet door 2, the brush outlet groove is hinged with a brush outlet door 3, a driving motor 4 is arranged in the box body 1, the driving motor 4 is provided with a first driving gear 5, the first driving gear 5 is meshed with a second driving gear 6, the second driving gear 6 is arranged on a first driving shaft 7, the first driving shaft 7 is connected with a driving electric push rod 8 through a bearing, the second driving gear 6 can be meshed with a third driving gear 9, the third driving gear 9 is arranged on a second driving shaft 10, the second driving shaft 10 is provided with a first driving belt wheel 11, the first driving belt wheel 11 is connected with a second driving belt wheel 13 through a first driving connecting belt 12, the second driving belt wheel 13 is arranged on a third driving shaft 14, the third driving shaft 14 is provided with a third driving belt wheel 15, the third driving belt wheel 15 is connected with a fourth driving belt wheel 17 through a second driving connecting belt 16, a clamping device 18 is arranged on the second driving connecting belt 16, the clamping device 18 is connected with a primary hole forming device 19, and the primary hole forming device 19 is connected with a secondary hole forming device 20;

the brush inlet door 2 is opened, the brush body is placed in the box body 1, then the brush body is clamped through the clamping device 18, after the clamping, the main shaft of the driving motor 4 can drive the first driving gear 5 to rotate, and further drive the second driving gear 6 to rotate, when the electric push rod 8 is driven to drive the movement of the first driving shaft 7, the second driving gear 6 is meshed with the third driving gear 9, and the third driving gear 9 rotates along with the second driving gear 6, so as to drive the rotation of the second driving shaft 10, and the first driving belt wheel 11 rotates along with the rotation, the first driving connecting belt 12 can drive the rotation of the second driving belt wheel 13, so as to drive the rotation of the third driving belt wheel 14, and further drive the rotation of the third driving belt wheel 15, and the second driving connecting belt 16 can drive the rotation of the fourth driving belt wheel 17, and drive the clamping device 18 to move to the lower end of the primary pore-forming device 19, then pore-forming device 19 mutually supports with second drive connecting band 16 and becomes the short hole to the brush body, then drive electric putter 8 drives first drive gear 5's rotation after that, make industry brush move to below secondary pore-forming device 20, rethread secondary pore-forming device 20 is to the further pore-forming of brush body, through twice pore-forming, can carry out twice pore-forming with the brush body, prevent that once pore-forming can't carry out deep pore-forming to the brush body, the hair installation of industry brush is too shallow, thereby cause the influence to the quality of industry brush.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1 to 18, and the present embodiment further describes a first embodiment, wherein the clamping device 18 includes a first clamping plate 18-1, a first clamping rod 18-2, a second clamping plate 18-3, a clamping sleeve plate 18-4, a first clamping spring 18-5, a third clamping plate 18-6, a second clamping rod 18-7, a fourth clamping plate 18-8, a first clamping shaft 18-9, a first clamping pulley 18-10, a clamping connecting belt 18-11, a second clamping pulley 18-12, a second clamping shaft 18-13, a first clamping pulley 18-14, a third clamping pulley 18-15, a third clamping shaft 18-16, a second clamping pulley 18-17, a first clamping rack 18-18, a fifth clamping plate 18-19, a second clamping rack 18-19, a third clamping rod 18-1, a second clamping rod 18-3, a clamping sleeve plate 18-4, a first clamping spring 18-5, a third clamping spring 18-6, a second clamping rod 18-9, a second clamping pulley 18-10, a third clamping rod 18-9, a third clamping rod 18-15, a third clamping rod 18-17, a third clamping rod 18-18, a fifth clamping rod 18-19, a fourth clamping rod, a fourth rod, the clamping device comprises a second clamping electric push rod 18-20, a second clamping rack 18-21, a third clamping wheel 18-22, a clamping screw rod 18-23, a clamping nut 18-24, a clamping connecting block 18-25, a second clamping spring 18-26 and a clamping point 18-27; the first clamping plate 18-1 is provided with two groups of inclined holes, each group of inclined holes is respectively engaged with a first clamping rod 18-2, one group of first clamping rods 18-2 penetrates through the inclined holes to be hinged with a second clamping plate 18-3, the second clamping plate 18-3 is inserted into a clamping sleeve plate 18-4 and is connected with the clamping sleeve plate through a first clamping spring 18-5, the clamping sleeve plate 18-4 is connected with the other group of first clamping rods 18-2, the second clamping plate 18-3 and the clamping sleeve plate 18-4 are respectively connected with a third clamping plate 18-6, the third clamping plate 18-6 is sleeved on the two groups of second clamping rods 18-7, one side of the first clamping plate 18-1 is provided with a fourth clamping plate 18-8, the upper end of the fourth clamping plate 18-8 is provided with a first clamping shaft 18-9, the first clamping shaft 18-9 is provided with a first clamping belt wheel 18-10, the first clamping belt wheel 18-10 is connected with a second clamping belt wheel 18-12 through a clamping connecting belt 18-11, the second clamping belt wheel 18-12 is arranged on a second clamping shaft 18-13, the second clamping shaft 18-13 is provided with a first clamping wheel 18-14, the first clamping wheel 18-14 can be meshed with the second driving gear 6, the clamping connecting belt 18-11 is also meshed with a third clamping belt wheel 18-15, the third clamping belt wheel 18-15 is arranged on a third clamping shaft 18-16, the third clamping shaft 18-16 is provided with a second clamping wheel 18-17, the second clamping wheel 18-17 is meshed with a first clamping rack 18-18, the first clamping racks 18 to 18 are fixedly connected with fifth clamping plates 18 to 19, second clamping electric push rods 18 to 20 are arranged on the fifth clamping plates 18 to 19, the second clamping electric push rods 18 to 20 are connected with second clamping racks 18 to 21, the second clamping racks 18 to 21 are meshed with third clamping wheels 18 to 22, the third clamping wheels 18 to 22 are arranged on clamping screw rods 18 to 23, the clamping screw rods 18 to 23 are in threaded connection with clamping nuts 18 to 24, the clamping screw rods 18 to 23 penetrate through clamping grooves in the fifth clamping plates 18 to 19 and are connected with clamping connecting blocks 18 to 25 through second clamping springs 18 to 26, and clamping points 18 to 27 are arranged on the fifth clamping plates 18 to 19;

manually pulling the two groups of first clamping rods 18-2, wherein the first clamping rods 18-2 move in the inclined holes to further drive the second clamping plate 18-3 to slide in the clamping sleeve plate 18-4, so that the third clamping plate 18-6 moves in the second clamping rod 18-7, the second clamping plate 18-3 can stretch the first clamping spring 18-5, and the two sides of the brush body are fixedly clamped through the two groups of first clamping rods 18-2 under the action of the elastic force of the first clamping spring 18-5; the first clamping wheels 18-14 can be meshed with the second driving gear 6, when the electric push rod 8 is driven to drive the second driving gear 6 to be meshed with the first clamping wheels 18-14, the second clamping shafts 18-13 rotate along with the second driving gear, so that the second clamping belt wheels 18-12 are driven to rotate, the first clamping belt wheels 18-10 can be driven to rotate through the clamping connecting belts 18-11, the third clamping belt wheels 18-15 can also be driven by the clamping connecting belts 18-11, the clamping device 18 can be ensured to be adjusted no matter at which position, the third clamping belt wheels 18-15 can also drive the third clamping shafts 18-16 to rotate, so that the second clamping wheels 18-17 are driven to rotate, the fifth clamping plates 18-19 are driven to move through the first clamping racks 18-18, and the driving motor 4 is a servo motor, the clamping grooves on the fifth clamping plates 18-19 move back and forth on the clamping screw rods 18-23 to adjust the clamping positions of the clamping points 18-27 and the industrial brushes, after the adjustment is finished, the electric push rod 8 is driven to drive the second driving gear 6 not to be meshed with the first clamping wheels 18-14, then the electric clamping push rod can drive the second clamping racks 18-21 to move back and forth to drive the third clamping wheels 18-22 to move back and forth, the clamping screw rods 18-23 rotate forwards and backwards to enable the clamping nuts 18-24 to ascend and descend, the clamping connection blocks are buffered through the second clamping springs to ensure that the clamping nuts can normally operate, then one ends of the fifth clamping plates 18-19 are driven to ascend and descend to enable the first clamping racks 18-18 at the other ends of the fifth clamping plates 18-19 to rotate around the second clamping wheels 18-17, the ascending and descending of one end of the fifth clamping plate 18-19 can drive the ascending and descending of the clamping points 18-27, and the positions of the clamping points 18-27 are adjusted according to the thickness of the industrial brush, so that different thicknesses of the industrial brush can be used for clamping.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1 to 18, and the present embodiment further describes the first embodiment, wherein the primary hole forming device 19 includes a first hole forming gear 19-1, a second hole forming gear 19-2, a first hole forming shaft 19-3, a hole forming electric push rod 19-4, a third hole forming gear 19-5, a second hole forming shaft 19-6, a first hole forming pulley 19-7, a first hole forming connecting belt 19-8, a second hole forming pulley 19-9, a third hole forming shaft 19-10, a first hole forming connecting wheel 19-11, a fourth hole forming gear 19-12, a fourth hole forming shaft 19-13, a third hole forming pulley 19-14, a second hole forming connecting belt 19-15, a fourth hole forming pulley 19-16, a fifth hole forming shaft 19-17, and a hole forming connecting frame 19-18, A sixth hole forming shaft 19-19, a hole forming connecting plate 19-20, a hole forming connecting rod 19-21, a hole forming connecting wheel 19-22, a seventh hole forming shaft 19-23, a fifth hole forming gear 19-24, a hole forming taper rod 19-25 and a second hole forming connecting wheel 19-26; a first hole forming gear 19-1 is arranged on a main shaft of the driving motor 4, the first hole forming gear 19-1 is meshed with a second hole forming gear 19-2, the second hole forming gear 19-2 is connected with a first hole forming shaft 19-3, the first hole forming shaft 19-3 is connected with a hole forming electric push rod 19-4 through a bearing, the second hole forming gear 19-2 can be meshed with a third hole forming gear 19-5, the third hole forming gear 19-5 is meshed with a second hole forming shaft 19-6, a first hole forming belt wheel 19-7 is arranged on the second hole forming shaft 19-6, the first hole forming belt wheel 19-7 is connected with a second belt wheel 19-9 through a first connecting belt hole forming 19-8, the second hole forming belt wheel 19-9 is arranged on a third hole forming shaft 19-10, the third hole forming shaft 19-10 is provided with a first hole forming connecting wheel 19-11, the second hole forming gear 19-2 can be further meshed with a fourth hole forming gear 19-12, the fourth hole forming gear 19-12 is arranged on a fourth hole forming shaft 19-13, the fourth hole forming shaft 19-13 is provided with a third hole forming belt wheel 19-14, the third hole forming belt wheel 19-14 is connected with a fourth hole forming belt wheel 19-16 through a second hole forming connecting belt 19-15, the fourth hole forming belt wheel 19-16 is arranged on a fifth hole forming shaft 19-17, the fifth hole forming shaft 19-17 is connected with one end of a hole forming connecting frame 19-18, the other end of the hole forming connecting frame 19-18 is connected with a sixth hole forming shaft 19-19, the fifth hole forming shaft 19-17 is provided with a hole forming connecting plate 19-20, a plurality of component hole-forming connecting rods 19-21 are arranged on the hole-forming connecting plates 19-20, each component hole-forming connecting rod 19-21 is connected with a hole-forming connecting wheel 19-22 through a bearing, the hole-forming connecting wheels 19-22 are arranged on a seventh hole-forming shaft 19-23, a fifth hole-forming gear 19-24 is arranged on the seventh hole-forming shaft 19-23, a plurality of component hole-forming conical rods 19-25 are arranged on the fifth hole-forming gear 19-24, a second hole-forming connecting wheel 19-26 is arranged on the seventh hole-forming shaft 19-23, and the second hole-forming connecting wheel 19-26 is meshed with the first hole-forming connecting wheel 19-11;

the driving motor 4 is a double-shaft motor, a main shaft of the driving motor 4 can drive the first hole forming gear 19-1 to rotate so as to drive the second hole forming gear 19-2 to rotate, the first hole forming shaft 19-3 rotates along with the first hole forming gear, when the hole forming electric push rod 19-4 drives the second hole forming gear 19-2 on the first hole forming shaft 19-3 to be meshed with the third hole forming gear 19-5, the third hole forming gear 19-5 rotates along with the second hole forming gear 19-2 so as to drive the second hole forming shaft 19-6 to rotate, the first hole forming belt wheel 19-7 rotates, the second hole forming belt wheel 19-9 can be driven to rotate through the first hole forming connecting belt 19-8, the third hole forming shaft 19-10 rotates along with the second hole forming gear, and the first hole forming connecting wheel 19-11 is driven, the second hole forming connecting wheels 19-26 rotate along with the first hole forming connecting wheels, so that the seventh hole forming shafts 19-23 are driven to move, the fifth hole forming gears 19-24 rotate along with the fifth hole forming connecting wheels, each group of hole forming conical rods 19-25 rotate around the seventh hole forming shafts 19-23, the second driving connecting belt 16 drives the industrial brush to move, and the hole forming conical rods 19-25 perform primary hole pressing on the industrial brush;

when the hole forming electric push rod 19-4 drives the second hole forming gear 19-2 to be meshed with the fourth hole forming gear 19-12, the fourth hole forming gear 19-12 can drive the fourth hole forming shaft 19-13 to rotate, the fourth hole forming shaft 19-13 can drive the third hole forming belt wheel 19-14 to rotate, the fourth hole forming belt wheel 19-16 can be driven to rotate through the second hole forming connecting belt 19-15, the fifth hole forming shaft 19-17 can rotate along with the fourth hole forming shaft, so that the hole forming connecting plate 19-20 is driven to rotate positively and negatively, the sixth hole forming shaft 19-19 can be driven to rotate positively and negatively under the action of the hole forming connecting frame 19-18, the hole forming connecting rod 19-22 can be driven to rotate through the hole forming connecting rod 19-21, the rotation of the seventh hole forming shaft 19-23 is prevented through bearing connection to clamp the hole forming connecting rod 19-21, the seventh hole forming shaft 19-23 is rotated around the fourth hole forming shaft 19-13, so that the distance between the hole forming taper rod 19-25 and the industrial brush is adjusted to adapt to industrial brushes with different thicknesses.

The fourth concrete implementation mode:

the second pore-forming device 20 comprises a first driving wheel 20-1, a first driving shaft 20-2, a driving electric push rod 20-3, a driving rod 20-4, a grooved wheel 20-5, a second driving shaft 20-6, a first driving belt wheel 20-7, a driving connecting belt 20-8, a second driving belt wheel 20-9, a third driving shaft 20-10, a driving connecting frame 20-11, a trapezoidal wheel 20-12, a spiral wheel 20-13, a fourth driving shaft 20-14 and a pore-forming connecting needle rod 20-15; the first driving gear 5 can be meshed with a first driving wheel 20-1, the first driving wheel 20-1 is provided with a first transmission shaft 20-2, the first transmission shaft 20-2 is connected with a transmission electric push rod 20-3 through a bearing, the first driving wheel 20-1 is provided with a plurality of groups of transmission rods 20-4, each group of transmission rods 20-4 can be meshed with two teeth of a grooved wheel 20-5, the grooved wheel 20-5 is arranged on a second transmission shaft 20-6, the second transmission shaft 20-6 is provided with a first transmission belt wheel 20-7, the first transmission belt wheel 20-7 is connected with a second transmission belt wheel 20-9 through a transmission connecting belt 20-8, and the second transmission belt wheel 20-9 is arranged on a third transmission shaft 20-10, the third transmission shaft 20-10 is arranged on the transmission connecting frame 20-11, the trapezoidal wheel 20-12 is arranged on the third transmission shaft 20-10, the trapezoidal wheel 20-12 is meshed with the spiral wheel 20-13, the spiral wheel 20-13 is arranged on the fourth transmission shaft 20-14, and the fourth transmission shaft 20-14 penetrates through the transmission connecting frame 20-11 to be connected with the pore-forming connecting needle rod 20-15;

the transmission electric push rod 20-3 drives the first transmission shaft 20-2 to move, so that the first transmission wheel 20-1 on the first transmission shaft 20-2 is meshed with the first driving gear 5, the first transmission wheel 20-1 is driven along with the first driving gear 5 to further drive the transmission rod 20-4 to rotate, the transmission electric push rod 20-3 drives the first transmission shaft 20-2 to rotate and also can drive each group of transmission rods 20-4 to move between two teeth of the grooved pulley 20-5, the grooved pulley 20-5 is formed by processing a plurality of groups of grooves on the gear, the rotation of the grooved pulley 20-5 can drive the second transmission shaft 20-6 to rotate so as to drive the first transmission belt pulley 20-7 to rotate, the second transmission belt pulley 20-9 rotates along with the transmission connecting belt 20-8, and the third transmission shaft 20-10 rotates along with the transmission belt pulley, thereby driving the trapezoidal wheels 20-12 to rotate, driving the spiral wheels 20-13 to rotate due to the engagement of the trapezoidal wheels 20-12 and the spiral wheels 20-13, driving the fourth transmission shaft 20-14 to rotate and move up and down due to the servo motor 4, connecting the transmission connecting frame 20-11 with the box body 1, limiting the movement of the fourth transmission shaft 20-14 by the transmission connecting frame 20-11, when the fourth transmission shaft is downward, rotating the hole-forming connecting needle rod 20-15 downward to further form holes on the brush body, wherein the number of the third transmission shaft 20-10 and the number of the hole-forming taper rod 19-25 are the same, each group of the third transmission shaft 20-10 is provided with 20-8 wheels of transmission connecting band, each group of the transmission connecting bands 20-8 is connected through the transmission connecting band 20-8, ensuring that all the third transmission shafts 20-10 can synchronously run, when the fourth transmission shaft 20-14 moves upwards, the hole forming taper rod 19-25 is separated from the brush body, and the hole forming of the next brush body is carried out.

The control mode of the invention is automatically controlled by the controller, the control circuit of the controller can be realized by simple programming of a person skilled in the art, the invention belongs to the common knowledge in the field, and the invention is mainly used for protecting mechanical devices, so the control mode and the circuit connection are not explained in detail in the invention.

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.

Claims (1)

1. A punching device for industrial brush production comprises a box body (1), a brush inlet door (2), a brush outlet door (3), a driving motor (4), a first driving gear (5), a second driving gear (6), a first driving shaft (7), a driving electric push rod (8), a third driving gear (9), a second driving shaft (10), a first driving belt wheel (11), a first driving connecting belt (12), a second driving belt wheel (13), a third driving shaft (14), a third driving belt wheel (15), a second driving connecting belt (16), a fourth driving belt wheel (17), a clamping device (18), a primary hole forming device (19) and a secondary hole forming device (20); the method is characterized in that: the brush box is characterized in that a brush inlet groove and a brush outlet groove are processed on the box body (1), the brush inlet groove is hinged with a brush inlet door (2), the brush outlet groove is hinged with a brush outlet door (3), a driving motor (4) is arranged in the box body (1), a first driving gear (5) is arranged on the driving motor (4), the first driving gear (5) is meshed with a second driving gear (6), the second driving gear (6) is arranged on a first driving shaft (7), the first driving shaft (7) is connected with a driving electric push rod (8) through a bearing, the second driving gear (6) can be meshed with a third driving gear (9), the third driving gear (9) is arranged on a second driving shaft (10), a first driving belt wheel (11) is arranged on the second driving shaft (10), the first driving belt wheel (11) is connected with a second driving belt wheel (13) through a first driving connecting belt (12), the second driving belt wheel (13) is arranged on a third driving shaft (14), a third driving belt wheel (15) is arranged on the third driving shaft (14), the third driving belt wheel (15) is connected with a fourth driving belt wheel (17) through a second driving connecting belt (16), a clamping device (18) is arranged on the second driving connecting belt (16), the clamping device (18) is connected with a primary hole forming device (19), and the primary hole forming device (19) is connected with a secondary hole forming device (20);

the clamping device (18) comprises a first clamping plate (18-1), a first clamping rod (18-2), a second clamping plate (18-3), a clamping sleeve plate (18-4), a first clamping spring (18-5), a third clamping plate (18-6), a second clamping rod (18-7), a fourth clamping plate (18-8), a first clamping shaft (18-9), a first clamping belt wheel (18-10), a clamping connecting belt (18-11), a second clamping belt wheel (18-12), a second clamping shaft (18-13), a first clamping wheel (18-14), a third clamping belt wheel (18-15), a third clamping shaft (18-16), a second clamping wheel (18-17), a first clamping rack (18-18), a fifth clamping plate (18-19), A second clamping electric push rod (18-20), a second clamping rack (18-21), a third clamping wheel (18-22), a clamping screw rod (18-23), a clamping nut (18-24), a clamping connecting block (18-25), a second clamping spring (18-26) and a clamping point (18-27); two groups of inclined holes are processed on the first clamping plate (18-1), each group of inclined holes is respectively engaged with the first clamping rod (18-2), one group of first clamping rods (18-2) penetrates through the inclined holes to be hinged with the second clamping plate (18-3), the second clamping plate (18-3) is inserted into the clamping sleeve plate (18-4) and is connected with the other group of first clamping rods (18-2) through a first clamping spring (18-5), the second clamping plate (18-3) and the clamping sleeve plate (18-4) are respectively connected with a third clamping plate (18-6), the third clamping plate (18-6) is sleeved on the two groups of second clamping rods (18-7), a fourth clamping plate (18-8) is arranged on one side of the first clamping plate (18-1), a first clamping shaft (18-9) is arranged at the upper end of the fourth clamping plate (18-8), a first clamping belt wheel (18-10) is arranged on the first clamping shaft (18-9), the first clamping belt wheel (18-10) is connected with a second clamping belt wheel (18-12) through a clamping connecting belt (18-11), the second clamping belt wheel (18-12) is arranged on a second clamping shaft (18-13), a first clamping wheel (18-14) is arranged on the second clamping shaft (18-13), the first clamping wheel (18-14) can be meshed with a second driving gear (6), the clamping connecting belt (18-11) is further meshed with a third clamping belt wheel (18-15), and the third clamping belt wheel (18-15) is arranged on a third clamping shaft (18-16), the third clamping shaft (18-16) is provided with a second clamping wheel (18-17), the second clamping wheel (18-17) is meshed with a first clamping rack (18-18), the first clamping rack (18-18) is fixedly connected with a fifth clamping plate (18-19), the fifth clamping plate (18-19) is provided with a second clamping electric push rod (18-20), the second clamping electric push rod (18-20) is connected with a second clamping rack (18-21), the second clamping rack (18-21) is meshed with a third clamping wheel (18-22), the third clamping wheel (18-22) is arranged on a clamping screw rod (18-23), and the clamping screw rod (18-23) is in threaded connection with a clamping nut (18-24), the clamping screw rod (18-23) penetrates through a clamping groove on a fifth clamping plate (18-19) and is connected with a clamping connecting block (18-25) through a second clamping spring (18-26), and a clamping point (18-27) is arranged on the fifth clamping plate (18-19);

the primary pore-forming device (19) comprises a first pore-forming gear (19-1), a second pore-forming gear (19-2), a first pore-forming shaft (19-3), a pore-forming electric push rod (19-4), a third pore-forming gear (19-5), a second pore-forming shaft (19-6), a first pore-forming belt wheel (19-7), a first pore-forming connecting belt (19-8), a second pore-forming belt wheel (19-9), a third pore-forming shaft (19-10), a first pore-forming connecting wheel (19-11), a fourth pore-forming gear (19-12), a fourth pore-forming shaft (19-13), a third pore-forming belt wheel (19-14), a second pore-forming connecting belt (19-15), a fourth pore-forming belt wheel (19-16), a fifth pore-forming shaft (19-17), a pore-forming connecting frame (19-18), A sixth hole forming shaft (19-19), a hole forming connecting plate (19-20), a hole forming connecting rod (19-21), a hole forming connecting wheel (19-22), a seventh hole forming shaft (19-23), a fifth hole forming gear (19-24), a hole forming conical rod (19-25) and a second hole forming connecting wheel (19-26); a first hole forming gear (19-1) is arranged on a main shaft of the driving motor (4), the first hole forming gear (19-1) is meshed with a second hole forming gear (19-2), the second hole forming gear (19-2) is connected with a first hole forming shaft (19-3), the first hole forming shaft (19-3) is connected with a hole forming electric push rod (19-4) through a bearing, the second hole forming gear (19-2) can be meshed with a third hole forming gear (19-5), the third hole forming gear (19-5) is meshed with a second hole forming shaft (19-6), a first hole forming belt wheel (19-7) is arranged on the second hole forming shaft (19-6), and the first hole forming belt wheel (19-7) is connected with a second hole forming belt wheel (19-9) through a first hole forming connecting belt (19-8), the second pore-forming belt wheel (19-9) is arranged on a third pore-forming shaft (19-10), a first pore-forming connecting wheel (19-11) is arranged on the third pore-forming shaft (19-10), the second pore-forming gear (19-2) can also be meshed with a fourth pore-forming gear (19-12), the fourth pore-forming gear (19-12) is arranged on a fourth pore-forming shaft (19-13), the fourth pore-forming shaft (19-13) is provided with a third pore-forming belt wheel (19-14), the third pore-forming belt wheel (19-14) is connected with the fourth pore-forming belt wheel (19-16) through a second connecting belt pore-forming (19-15), the fourth pore-forming belt wheel (19-16) is arranged on a fifth pore-forming shaft (19-17), and the fifth pore-forming shaft (19-17) is connected with one end of a pore-forming connecting frame (19-18), the other end of the pore-forming connecting frame (19-18) is connected with a sixth pore-forming shaft (19-19), a pore-forming connecting plate (19-20) is arranged on the fifth pore-forming shaft (19-17), a plurality of component pore connecting rods (19-21) are arranged on the pore-forming connecting plate (19-20), each group of pore-forming connecting rods (19-21) is connected with a pore-forming connecting wheel (19-22) through a bearing, the pore-forming connecting wheel (19-22) is arranged on a seventh pore-forming shaft (19-23), a fifth pore-forming gear (19-24) is arranged on the seventh pore-forming shaft (19-23), a plurality of component pore conical rods (19-25) are arranged on the fifth pore-forming gear (19-24), and a second pore-forming connecting wheel (19-26) is arranged on the seventh pore-forming shaft (19-23), the second holed connecting wheel (19-26) is engaged with the first holed connecting wheel (19-11);

the secondary pore-forming device (20) comprises a first transmission wheel (20-1), a first transmission shaft (20-2), a transmission electric push rod (20-3), a transmission rod (20-4), a grooved wheel (20-5), a second transmission shaft (20-6), a first transmission belt wheel (20-7), a transmission connecting belt (20-8), a second transmission belt wheel (20-9), a third transmission shaft (20-10), a transmission connecting frame (20-11), a trapezoidal wheel (20-12), a spiral wheel (20-13), a fourth transmission shaft (20-14) and a pore-forming connecting needle rod (20-15); the first driving gear (5) can be meshed with a first driving wheel (20-1), the first driving wheel (20-1) is provided with a first transmission shaft (20-2), the first transmission shaft (20-2) is connected with a transmission electric push rod (20-3) through a bearing, a plurality of groups of transmission rods (20-4) are arranged on the first driving wheel (20-1), each group of transmission rods (20-4) can be meshed with two teeth of a grooved pulley (20-5), the grooved pulley (20-5) is arranged on a second transmission shaft (20-6), a first transmission belt pulley (20-7) is arranged on the second transmission shaft (20-6), and the first transmission belt pulley (20-7) is connected with a second transmission belt pulley (20-9) through a transmission connecting belt (20-8), the second transmission belt wheel (20-9) is arranged on a third transmission shaft (20-10), the third transmission shaft (20-10) is arranged on a transmission connecting frame (20-11), a trapezoidal wheel (20-12) is arranged on the third transmission shaft (20-10), the trapezoidal wheel (20-12) is meshed with a spiral wheel (20-13), the spiral wheel (20-13) is arranged on a fourth transmission shaft (20-14), and the fourth transmission shaft (20-14) penetrates through the transmission connecting frame (20-11) to be connected with a hole forming connecting needle rod (20-15);

manually pulling the two groups of first clamping rods (18-2), enabling the first clamping rods (18-2) to move in the inclined holes and further driving the second clamping plate (18-3) to slide in the clamping sleeve plate (18-4), enabling the third clamping plate (18-6) to move in the second clamping rods (18-7), enabling the second clamping plate (18-3) to enable the first clamping springs (18-5) to stretch, and fixedly clamping two sides of the brush body through the two groups of first clamping rods (18-2) under the action of elastic force of the first clamping springs (18-5); the first clamping wheels (18-14) can be meshed with the second driving gear (6), when the electric push rod (8) is driven to drive the second driving gear (6) to be meshed with the first clamping wheels (18-14), the second clamping shafts (18-13) can rotate along with the second driving gear, so that the second clamping belt wheels (18-12) are driven to rotate, the first clamping belt wheels (18-10) can be driven to rotate through the clamping connecting belts (18-11), the third clamping belt wheels (18-15) can also be driven by the clamping connecting belts (18-11), the clamping device (18) can be adjusted no matter at which position, the third clamping belt wheels (18-15) can also drive the third clamping shafts (18-16) to rotate, so that the second clamping wheels (18-17) are driven to rotate, and the fifth clamping plates (18-19) are driven to move through the first clamping racks (18-18), as the driving motor (4) is a servo motor, the clamping grooves on the fifth clamping plates (18-19) move back and forth on the clamping screw rods (18-23) so as to adjust the clamping positions of the clamping points (18-27) and the industrial brush, after the adjustment is finished, the electric push rod (8) is driven to drive the second driving gear (6) not to be meshed with the first clamping wheels (18-14), then the electric push rod can drive the second clamping racks (18-21) to move back and forth so as to drive the third clamping wheels (18-22) to move back and forth, the clamping screw rods (18-23) rotate forwards and backwards so as to lift and lower the clamping nuts (18-24), the clamping connecting blocks are buffered by the second clamping springs so as to ensure that the clamping nuts can normally operate, and then one ends of the fifth clamping plates (18-19) are driven to lift and lower, enabling the first clamping racks (18-18) at the other ends of the fifth clamping plates (18-19) to rotate around the second clamping wheels (18-17), enabling the ascending and descending of one ends of the fifth clamping plates (18-19) to drive the ascending and descending of the clamping points (18-27), adjusting the positions of the clamping points (18-27) according to the thickness of the industrial brush, and ensuring that different thicknesses of the industrial brush are used for clamping;

the driving motor (4) is a double-shaft motor, a main shaft of the driving motor (4) can drive the first pore-forming gear (19-1) to rotate so as to drive the second pore-forming gear (19-2) to rotate, the first pore-forming shaft (19-3) rotates along with the driving motor, when the pore-forming electric push rod (19-4) drives the second pore-forming gear (19-2) on the first pore-forming shaft (19-3) to be meshed with the third pore-forming gear (19-5), the third pore-forming gear (19-5) rotates along with the second pore-forming gear (19-2) so as to drive the second pore-forming shaft (19-6) to rotate, the first pore-forming belt wheel (19-7) rotates, the second pore-forming belt wheel (19-9) can be driven to rotate through the first connecting belt (19-8), and the third pore-forming shaft (19-10) rotates along with the driving motor, thereby driving the first hole-forming connecting wheel (19-11), enabling the second hole-forming connecting wheel (19-26) to rotate along with the first hole-forming connecting wheel, thereby driving the seventh hole-forming shaft (19-23) to move, enabling the fifth hole-forming gear (19-24) to rotate along with the fifth hole-forming gear, enabling each group of hole-forming conical rods (19-25) to rotate around the seventh hole-forming shaft (19-23), and driving the industrial brush to move through the second driving connecting belt (16), so that the hole-forming conical rods (19-25) perform primary hole pressing on the industrial brush;

when the hole forming electric push rod (19-4) drives the second hole forming gear (19-2) to be meshed with the fourth hole forming gear (19-12), the fourth hole forming gear (19-12) can drive the fourth hole forming shaft (19-13) to rotate, the fourth hole forming shaft (19-13) can drive the third hole forming belt wheel (19-14) to rotate, the fourth hole forming belt wheel (19-16) can be driven to rotate through the second hole forming connecting belt (19-15), the fifth hole forming shaft (19-17) can rotate along with the fifth hole forming shaft, so that the hole forming connecting plate (19-20) is driven to rotate positively and negatively, the sixth hole forming shaft (19-19) can be driven to rotate positively and negatively under the action of the hole forming connecting frame (19-18), and the hole forming connecting wheel (19-22) can be driven to rotate through the connecting rod (19-21), the seventh hole forming shaft (19-23) is prevented from rotating through bearing connection to enable the hole forming connecting rod (19-21) to be clamped, the seventh hole forming shaft (19-23) rotates around the fourth hole forming shaft (19-13), and then the distance between the hole forming conical rod (19-25) and the industrial brush is adjusted to adapt to industrial brushes with different thicknesses;

the transmission electric push rod (20-3) drives the first transmission shaft (20-2) to move, so that the first transmission wheel (20-1) on the first transmission shaft (20-2) is meshed with the first driving gear (5), the first transmission wheel (20-1) is driven along with the first driving gear (5) to further drive the transmission rod (20-4) to rotate, the transmission electric push rod (20-3) drives the first transmission shaft (20-2) to rotate, each group of transmission rod (20-4) can also be driven to move between two teeth of the grooved pulley (20-5), the grooved pulley (20-5) is formed by processing a plurality of groups of grooves on a gear, the rotation of the grooved pulley (20-5) can drive the second transmission shaft (20-6) to rotate, and further drive the first transmission belt pulley (20-7) to rotate, the second transmission belt wheel (20-9) rotates along with the second transmission belt wheel through the transmission connecting belt (20-8), the third transmission shaft (20-10) rotates along with the third transmission belt wheel, so that the trapezoidal wheel (20-12) is driven to rotate, the trapezoidal wheel (20-12) is meshed with the spiral wheel (20-13) to drive the spiral wheel (20-13) to rotate, the fourth transmission shaft (20-14) can rotate and move up and down because the driving motor (4) is a servo motor, the transmission connecting frame (20-11) is connected with the box body (1), the transmission connecting frame (20-11) limits the movement of the fourth transmission shaft (20-14), when the hole forming connecting needle rod (20-15) rotates downwards to further form holes on the brush body, and the group number of the third transmission shaft (20-10) and the hole forming conical rods (19-25) is the same, each group of third transmission shafts (20-10) is provided with transmission connecting belt (20-8) wheels, each group of transmission connecting belt (20-8) wheels is connected through the transmission connecting belt (20-8) to ensure that all the third transmission shafts (20-10) can run synchronously, and when the fourth transmission shaft (20-14) moves upwards, the hole forming taper rod (19-25) is separated from the brush body to form a hole of the next brush body.

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