CN111589799A - Cardboard vibrates dandruff removal device - Google Patents

Abstract

The invention relates to the technical field of packaging production equipment, in particular to a vibrating chip removing device for a paperboard, which comprises a rack, and a paper receiving mechanism, a chip conveying and removing device and a chip material sending mechanism which are sequentially arranged on the rack, wherein the chip conveying and removing device comprises a conveying mechanism and a vibrating chip removing mechanism, a blowing mechanism is also arranged on the rack, the blowing mechanism is positioned above the conveying mechanism, and the chip material sending mechanism is positioned below the chip conveying and removing device. This real novel structure, design benefit, the structure is reliable, and convenient to use can realize detaching remaining wastepaper on the cardboard fast, reduces intensity of labour, and effectively avoids causing the damage to the cardboard.

Description

Cardboard vibrates dandruff removal device

Technical Field

The invention relates to the technical field of packaging production equipment, in particular to a vibrating and scrap-removing device for a paperboard.

Background

In the packaging production process, a paperboard is a common packaging material, when the paperboard is folded to form packaging boxes of various shapes, a grooving process needs to be performed on the paperboard, paper scraps are usually adhered to the grooved paperboard and need to be removed at the time, and the conventional method is to manually remove the paper scraps, so that the labor intensity of workers is increased, and the paperboard is damaged.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides the paperboard oscillation scrap removing device which is novel in structure, ingenious in design, reliable in structure and convenient to use, can quickly remove residual paper scraps on a paperboard, reduces the labor intensity and effectively avoids damage to the paperboard.

In order to solve the technical problems, the invention adopts the following technical scheme:

the invention provides a paperboard vibration chip removal device which comprises a rack, and a paper receiving mechanism, a chip conveying and removal device and a chip material sending-out mechanism which are sequentially arranged on the rack, wherein the chip conveying and removal device comprises a conveying mechanism and a vibration chip removal mechanism, the rack is also provided with a blowing mechanism, the blowing mechanism is positioned above the conveying mechanism, and the chip material sending-out mechanism is positioned below the chip conveying and removal device.

The blowing mechanism comprises a plurality of first ventilation pipes arranged in a row, a plurality of ventilation holes are formed in the first ventilation pipes in a row at equal intervals, two ends of each first ventilation pipe are rotatably arranged on the rack, and each first ventilation pipe is connected with an air source.

The fixed cover in periphery of first ventilation pipe is equipped with first main blowing pipe, first main blowing pipe is provided with a plurality of exhaust vents along its length direction, the exhaust vent with the ventilation hole intercommunication, the exhaust vent is rectangular form setting.

Wherein, the one end of first ventilation pipe is provided with the connecting block, be provided with a plurality of connecting holes on the connecting block, one side of frame is provided with a plurality of fixed punch combination, and every fixed punch combination and the one end one-to-one of every first ventilation pipe, every fixed punch combination include a plurality of rings establish the fixed orifices in first ventilation pipe periphery, the fixed orifices corresponds the setting with the connecting hole.

The conveying mechanism comprises a bearing conveying assembly, the bearing conveying assembly comprises a bearing driving part, a first driving shaft roller and a first driven shaft roller, the first driving shaft roller is rotatably arranged at the feeding end of the rack, the first driven shaft roller is rotatably arranged at the discharging end of the rack, the bearing driving part is used for driving the first driving shaft roller to rotate, the first driving shaft roller is in transmission connection with the first driven shaft roller through a plurality of first circular belts, and the first circular belts are wound on the first driving shaft roller and the first driven shaft roller; be one row of formula interval setting between many first round belts.

The first driving shaft roller and the first driven shaft roller are provided with a plurality of first annular grooves matched with the first circular belt at equal intervals along the length direction of the first driving shaft roller and the first driven shaft roller.

The conveying mechanism further comprises a pressing conveying assembly, the pressing conveying assembly comprises a pressing driving piece, a second driving shaft roller and a second driven shaft roller, the second driving shaft roller is rotatably arranged at the feeding end of the rack, the second driven shaft roller is rotatably arranged at the discharging end of the rack, the pressing driving piece is used for driving the second driving shaft roller to rotate, the second driving shaft roller is in transmission connection with the second driven shaft roller through a plurality of second circular belts, and the second circular belts are wound on the second driving shaft roller and the second driven shaft roller; the plurality of second round belts are arranged at intervals in a row;

and the second driving shaft roller and the second driven shaft roller are provided with a plurality of second annular grooves matched with the second circular belt at equal intervals along the length direction of the second driving shaft roller and the second driven shaft roller.

Wherein, it includes a plurality of shock beam barrels and a plurality of drive that are used for to vibrate beam barrel pivoted shock driving piece to vibrate the antidandruff mechanism, the both ends of vibrating the beam barrel rotate set up in the frame, the equidistant ring of periphery that vibrates the beam barrel is equipped with a plurality of shock butt axis bodies, a plurality of shock butt axis bodies parallel arrangement each other, vibrate the driving piece including vibrating driving motor, drive wheel and vibration and rotate the wheel, vibrate driving motor's output shaft with drive wheel coaxial coupling, the drive wheel pass through the hold-in range with it connects to vibrate the transmission of rotating the wheel.

Wherein, bits material feed mechanism is the slope and installs in the frame, bits material feed mechanism includes first support, second support, first ejection of compact beam barrel, second ejection of compact beam barrel and ejection of compact driving piece, first ejection of compact beam barrel through synchronous transmission band with second ejection of compact beam barrel transmission is connected, the output of ejection of compact driving piece with second ejection of compact beam barrel drive is connected, second ejection of compact beam barrel is higher than first ejection of compact beam barrel, the both ends of first ejection of compact beam barrel with first support rotates to be connected, first support can dismantle connect in the feed end of frame, the both ends of second ejection of compact beam barrel with the second support rotates to be connected, the second support can dismantle connect in the discharge end of frame.

The paper receiving mechanism comprises a paper receiving driving part, a paper receiving driving shaft roller, a plurality of cross beams and two vehicle walls which are arranged on two sides of the rack respectively, two ends of each cross beam are connected with the two vehicle walls respectively, two ends of the paper receiving driving shaft roller are rotatably connected with the rack, one end of each vehicle wall is rotatably connected with the rack, and the output end of the paper receiving driving part is in driving connection with one end of the paper receiving driving shaft roller;

a plurality of paper receiving assemblies are arranged between the two car walls and are arranged at equal intervals in a row, each paper receiving assembly comprises a fixing frame, a paper receiving synchronous belt and a paper receiving synchronous wheel, the paper receiving synchronous belts are wound on the paper receiving synchronous wheels and the paper receiving driving shaft roller, the paper receiving synchronous wheels are rotatably arranged at one ends of the fixing frames far away from the paper receiving driving shaft roller, and the fixing frames are detachably connected to the cross beam;

the frame is also provided with a lifting cylinder, and the output end of the lifting cylinder is connected to the middle part of the car wall;

the top of the vehicle wall is provided with a top frame, a plurality of paper pressing strips are arranged on the top frame in a row at equal intervals, and the paper pressing strips are arranged corresponding to the paper receiving synchronous belts;

the car wall is characterized in that a second vent pipe is further installed at the top of the car wall, a plurality of vent holes are formed in the second vent pipe in an evenly distributed mode, the two ends of the second vent pipe are rotatably arranged on the car wall, the second vent pipe is connected with an air source, a second main blowing pipe is fixedly sleeved on the periphery of the second vent pipe, a plurality of air outlet holes are formed in the second main blowing pipe along the length direction of the second main blowing pipe, the air outlet holes are communicated with the vent holes, and the air outlet holes are arranged in a long strip shape.

The invention has the beneficial effects that:

the paper receiving mechanism is novel in structure and ingenious in design, the paper receiving mechanism is used for receiving the paper boards fed from the outside, the paper boards are conveyed to the conveying mechanism of the conveying and scrap removing device by the paper receiving mechanism, the vibrating and scrap removing mechanism vibrates the paper boards on the conveying mechanism along with the progressive forward conveying of the paper boards, the air blowing mechanism is used for blowing the paper boards on the conveying mechanism, so that the scrap materials on the paper boards fall from the paper boards to the scrap material discharging mechanism, and then the scrap materials are intensively discharged and recovered through the scrap material discharging mechanism.

Drawings

Fig. 1 is a schematic structural view of a vibrating chip-removing device for cardboard of the present invention.

FIG. 2 is a schematic view of another embodiment of the oscillating device for removing chips from cardboard sheets according to the present invention.

Fig. 3 is a partial structural schematic diagram of the present invention.

Fig. 4 is a schematic structural diagram of the blowing mechanism of the present invention.

Fig. 5 is a schematic view of the structure of the first vent tube of the present invention.

Fig. 6 is a schematic structural view of the oscillating roller and the oscillating abutting shaft according to the present invention.

Fig. 7 is a schematic structural view of the first driving shaft roller of the present invention.

The reference numerals in fig. 1 to 7 include:

1-frame 2-paper receiving mechanism 3-scrap material delivering mechanism

4-conveying mechanism 5-oscillating anti-dandruff mechanism 6-blowing mechanism

7-first ventilation pipe 8-ventilation hole 9-first main blowing pipe

10-air outlet 11-connecting block 12-connecting hole

13-fixed hole group 14-first driving roller 15-first driven roller

16-first circular belt 17-first annular groove 18-second driving shaft roller

19-second driven shaft roller 20-second round belt 21-second annular groove

22-vibrate beam barrel 23-vibrate driving motor 24-vibrate butt axis body

25-oscillating rotating wheel 26-first bracket 27-second bracket

28-first discharging shaft roller 29-second discharging shaft roller 30-synchronous transmission belt

31-paper receiving driving shaft roller 32-beam 33-vehicle wall

34-paper receiving component 35-fixed frame 36-paper receiving synchronous belt

37-paper receiving synchronizing wheel 38-lifting cylinder 39-top frame

40-paper pressing strip 41-second ventilation pipe 42-second main blowing pipe.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention. The present invention is described in detail below with reference to the attached drawings.

The utility model provides a cardboard vibrates dandruff device, as shown in fig. 1 to 7, includes frame 1 and sets gradually paper receiving mechanism 2, the clear device of transport and the bits material off-line mechanism 3 in frame 1, carry clear device and include conveying mechanism 4 and vibrate dandruff mechanism 5, still be provided with blast mechanism 6 in frame 1, blast mechanism 6 is located conveying mechanism 4's top, bits material off-line mechanism 3 is located carry the below of clear device. Specifically, the embodiment of the invention has a novel structure and an ingenious design, the paper receiving mechanism 2 is used for receiving the paper boards fed from the outside, the paper receiving mechanism 2 is used for conveying the paper boards to the conveying mechanism 4 of the chip conveying and cleaning device, the vibration chip removing mechanism 5 is used for vibrating the paper boards on the conveying mechanism 4 along with the forward conveying of the paper boards, and the air blowing mechanism 6 is used for blowing the paper boards on the conveying mechanism 4, so that the chip materials on the paper boards fall from the paper boards to the chip material discharging mechanism 3, and then the chip materials are intensively discharged and recovered through the chip material discharging mechanism 3.

This embodiment a cardboard vibrate antidandruff device, blow mechanism 6 and include a plurality of rows of first ventilation pipes 7 that set up, a row of equal intervals of first ventilation pipes 7 are provided with a plurality of ventilation holes 8, the both ends of first ventilation pipes 7 all rotate set up in frame 1, first ventilation pipes 7 are connected with the wind regime. Specifically, the first ventilation pipe 7 is connected with a wind source, wind power is discharged through the ventilation holes 8 to achieve blowing, and the structure is reliable.

This embodiment a cardboard vibrate antidandruff device, the fixed cover in periphery of first ventilation pipe 7 is equipped with first main blowing pipe 9, first main blowing pipe 9 is provided with a plurality of exhaust vents 10 along its length direction, exhaust vent 10 with ventilation hole 8 intercommunication, exhaust vent 10 is rectangular form setting.

Specifically, the wind of first ventilation pipe 7 output is discharged from the logical minute hole that a plurality of rows of distributions were arranged, then passes through the space between first main blowing pipe 9 and the first ventilation pipe 7 again, through exhaust vent 10 discharges, exhaust vent 10 is rectangular form setting, conveniently concentrates wind-force and discharges, guarantees to blow the bits material on the cardboard to enough wind-force and drops, and the structure is reliable, convenient to use.

This embodiment a cardboard vibrate antidandruff device, the one end of first ventilation pipe 7 is provided with connecting block 11, be provided with a plurality of connecting holes 12 on the connecting block 11, one side of frame 1 is provided with a plurality of fixed punch combination 13, every fixed punch combination 13 and the one end one-to-one of every first ventilation pipe 7, every fixed punch combination 13 includes that a plurality of rings establish the fixed orifices in first ventilation pipe 7 periphery, the fixed orifices corresponds the setting with connecting hole 12. Specifically, can lock connecting hole 12 of connecting block 11 and the fixed orifices of frame 1 through the screw, and then lock the position of first ventilation pipe 7, the structure is reliable, in addition, the aforesaid sets up and also makes things convenient for connecting block 11 to dismantle, can be in order to rotate first ventilation pipe 7, can adjust the position of exhaust vent 10 according to actual need's the direction of blowing, then couple together connecting hole 12 of connecting block 11 and fixed orifices, convenient adjustment.

The paperboard oscillation and scrap removal device comprises a conveying mechanism 4, wherein the conveying mechanism 4 comprises a bearing and conveying assembly, the bearing and conveying assembly comprises a bearing driving part, a first driving shaft roller 14 and a first driven shaft roller 15, the first driving shaft roller 14 is rotatably arranged at the feeding end of a rack 1, the first driven shaft roller 15 is rotatably arranged at the discharging end of the rack 1, the bearing driving part is used for driving the first driving shaft roller 14 to rotate, the first driving shaft roller 14 is in transmission connection with the first driven shaft roller 15 through a plurality of first circular belts 16, and the first circular belts 16 are wound on the first driving shaft roller 14 and the first driven shaft roller 15; the first circular belts 16 are arranged at intervals in a row.

In the oscillating and scrap-removing device for cardboard of this embodiment, the first driving roller 14 and the first driven roller 15 are provided with a plurality of first annular grooves 17 matched with the first circular belt 16 at equal intervals along the length direction.

Specifically, the paper boards can be moved forward by the bearing and conveying assembly, and the first circular belt 16 is provided with a plurality of belts; wherein, be provided with a plurality of first annular grooves 17, can set up according to the size of cardboard first circular belt 16's quantity, first annular groove 17 is used for holding and establishes first circular belt 16 makes things convenient for the installation and the counterpoint of first circular belt 16, also makes things convenient for first circular belt 16's position control, convenient to use.

In the oscillating and chip-removing device for paperboards in this embodiment, the conveying mechanism 4 further includes a pressing and conveying assembly, the pressing and conveying assembly includes a pressing and driving member, a second driving roller 18 rotatably disposed at the feeding end of the frame 1, and a second driven roller 19 rotatably disposed at the discharging end of the frame 1, the pressing and driving member is configured to drive the second driving roller 18 to rotate, the second driving roller 18 is in transmission connection with the second driven roller 19 through a plurality of second circular belts 20, and the second circular belts 20 are wound around the second driving roller 18 and the second driven roller 19; a plurality of second circular belts 20 are arranged at intervals in a row;

the second driving shaft roller 18 and the second driven shaft roller 19 are provided with a plurality of second annular grooves 21 along the length direction thereof at equal intervals, which are matched with a second circular belt 20.

Specifically, the paper boards can be pressed and conveyed forwards through the pressing conveying assembly, so that the paper boards can be conveniently conveyed in cooperation with the bearing conveying assembly, and a plurality of second circular belts 20 are arranged; wherein, be provided with a plurality of second annular grooves 21, can set up according to the size of cardboard the quantity of second circular belt 20, second annular groove 21 is used for holding and establishes second circular belt 20 makes things convenient for the installation and the counterpoint of first circular belt 16, also makes things convenient for the position control of second circular belt 20, convenient to use.

This embodiment a cardboard vibrate antidandruff device, vibrate antidandruff mechanism 5 and include a plurality of vibrations beam barrel 22 and a plurality of be used for the drive vibrate beam barrel 22 pivoted and vibrate the driving piece, vibrate beam barrel 22's both ends rotate set up in frame 1, vibrate the equidistant ring in periphery of beam barrel 22 and be equipped with a plurality of vibrations butt axis body 24, a plurality of vibrations butt axis body 24 parallel arrangement each other, vibrate the driving piece including vibrating driving motor 23, drive wheel and vibrate and rotate wheel 25, vibrate driving motor 23's output shaft with drive wheel coaxial coupling, the drive wheel pass through the hold-in range with vibrate and rotate wheel 25 transmission and connect.

Specifically, when the oscillation scrap removing mechanism 5 works, the oscillation driving motor 23 drives the driving wheel to rotate, so as to drive the oscillation rotating wheel 25 to rotate, so as to drive the oscillation axis roller 22 to rotate, and when the oscillation axis roller 22 rotates, due to the protrusion of the oscillation abutting axis body 24, the oscillation abutting axis body 24 abuts against the paper board on the conveying mechanism 4, so that the paper board on the conveying mechanism 4 is oscillated, so as to realize the dropping of scrap materials on the paper board, preferably, three oscillation axis rollers 22 are provided, three oscillation driving pieces are provided, the oscillation driving pieces correspond to the oscillation axis rollers 22 one by one, and four oscillation abutting axis rollers are provided on each oscillation axis roller 22; wherein, the oscillating roller 22 is positioned between two sides in the first round belt 16.

In the vibrating and scrap-removing device for cardboard of this embodiment, the scrap-material-sending mechanism 3 is obliquely installed on the frame 1, the chip material sending mechanism 3 comprises a first bracket 26, a second bracket 27, a first discharging shaft roller 28, a second discharging shaft roller 29 and a discharging driving piece, the first discharging shaft roller 28 is in transmission connection with the second discharging shaft roller 29 through a synchronous transmission belt 30, the output end of the discharging driving piece is in driving connection with the second discharging shaft roller 29, the second discharging shaft roller 29 is higher than the first discharging shaft roller 28, the two ends of the first discharging shaft roller 28 are rotatably connected with the first bracket 26, the first bracket 26 is detachably connected with the feeding end of the machine frame 1, the two ends of the second discharging shaft roller 29 are rotatably connected with the second support 27, and the second support 27 is detachably connected with the discharging end of the rack 1.

Specifically, vibrate chip removal mechanism 5 and vibrate the bits material of conveying mechanism 4 cardboard and drop to the synchronous transmission band 30 of bits material discharge mechanism 3 on, through the removal of synchronous transmission band 30, drive the bits material and concentrate and retrieve the feed end to frame 1, be convenient for unify the recovery with the bits material that connects paper mechanism 2 to drop, the structure is reliable, convenient to use.

This embodiment a cardboard vibrate antidandruff device, paper receiving mechanism 2 sets up the car wall 33 in 1 both sides of frame respectively including paper receiving driving piece, paper receiving driving beam barrel 31, a plurality of crossbeam 32 and two, the both ends of crossbeam 32 are connected with two car walls 33 respectively, and the both ends of paper receiving driving beam barrel 31 rotate with frame 1 to be connected, the one end and the frame 1 of car wall 33 rotate to be connected, the output of paper receiving driving piece with the one end drive of paper receiving driving beam barrel 31 is connected.

A plurality of paper receiving assemblies 34 are arranged between the two car walls 33, the paper receiving assemblies 34 are arranged in a row at equal intervals, each paper receiving assembly 34 comprises a fixed frame 35, a paper receiving synchronous belt 36 and a paper receiving synchronous wheel 37, the paper receiving synchronous belt 36 is wound on the paper receiving synchronous wheel 37 and the paper receiving driving shaft roller 31, the paper receiving synchronous wheel 37 is rotatably arranged at one end, far away from the paper receiving driving shaft roller 31, of the fixed frame 35, and the fixed frame 35 is detachably connected to the cross beam 32;

when the paper receiving and conveying device works, the paper boards are firstly received and conveyed from the paper receiving mechanism 2, and are conveyed forwards by the paper receiving synchronous belt 36, so that the use is convenient.

The frame 1 is also provided with a lifting cylinder 38, and the output end of the lifting cylinder 38 is connected to the middle part of the vehicle wall 33. Specifically, the lifting cylinder 38 may drive the car wall 33 to move up and down, and may be controlled to leave a space in the embodiment of the present invention, so as to facilitate the dismounting of the template or the device.

The paper receiving driving member, the abutting driving member and the bearing driving member can be motor transmission structures in the prior art, but are not limited thereto, and are not described herein again.

The chip material feeding mechanism 3 is obliquely arranged on the frame 1, and the second discharging shaft roller 29 is higher than the first discharging shaft roller 28, so that the chip materials falling on the chip material feeding mechanism 3 are discharged to the lower part of the paper receiving mechanism 2, the chip materials falling on the paper receiving mechanism 2 and the chip materials falling on the chip material feeding mechanism 3 can be uniformly collected, the chip material collecting efficiency is improved, the integral structure of the paper receiving mechanism is simplified, and the paper receiving mechanism is convenient to use.

The top of the vehicle wall 33 is provided with a top frame 39, a plurality of paper pressing strips 40 are arranged on the top frame 39 at equal intervals in a row, and the paper pressing strips 40 are arranged corresponding to the paper receiving synchronous belt 36; specifically, the arrangement of the paper pressing strip 40 enables the paper receiving mechanism 2 to perform certain limiting on the template or the paperboard when receiving paper, so as to prevent the paperboard from shifting, and the structure is reliable and convenient to use, in addition, a second ventilation pipe 41 is further installed at the top of the car wall 33, a plurality of ventilation holes 8 are uniformly distributed in the second ventilation pipe 41, two ends of the second ventilation pipe 41 are both rotatably arranged on the car wall 33, the second ventilation pipe 41 is connected with an air source, a second main blowing pipe 42 is fixedly sleeved on the periphery of the second ventilation pipe 41, a plurality of air outlet holes 10 are formed in the second main blowing pipe 42 along the length direction of the second main blowing pipe, the air outlet holes 10 are communicated with the strip-shaped ventilation holes 8, and the air outlet holes 10 are arranged in a strip shape; the first ventilation pipe 7 and the second ventilation pipe 41 have the same structure, the second main blowing pipe 42 and the first main blowing pipe 9 have the same structure, one end of the second ventilation pipe 41 is connected with an air source, one end of the second ventilation pipe 41 is provided with a connecting block 11 which is the same as the connecting block 11 at one end of the first ventilation pipe 7, the vehicle wall 33 is also provided with a fixed hole group 13, and the position of the second ventilation pipe 41 is convenient to adjust; when the paper board is subjected to the paper receiving mechanism 2, the paper board can slightly float when the second main blowing pipe 42 blows air, the paper pressing strip 40 can press the paper board to prevent the paper board from floating or seriously displacing, and can blow off the scraps on the paper board; wherein, the car wall 33 is "J" type setting, and the car wall 33 structural integration who so sets up directly installs roof-rack 39 and second vent pipe 41 at the top of the portion that colludes of "J" type, simple to operate simplifies the complexity of structure, saves accessory material.

Although the present invention has been described with reference to the above preferred embodiments, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a antidandruff device is vibrate to cardboard which characterized in that: the paper receiving mechanism, the conveying and chip cleaning device and the chip material discharging mechanism are sequentially arranged on the rack, the conveying and chip cleaning device comprises a conveying mechanism and a vibration chip removing mechanism, a blowing mechanism is further arranged on the rack and located above the conveying mechanism, and the chip material discharging mechanism is located below the conveying and chip cleaning device.

2. A cardboard oscillating de-scurf device according to claim 1, characterized in that: the blowing mechanism comprises a plurality of first ventilation pipes arranged in a row, a plurality of ventilation holes are formed in the first ventilation pipes in a row at equal intervals, two ends of each first ventilation pipe are rotatably arranged in the rack, and each first ventilation pipe is connected with an air source.

3. A cardboard oscillating de-scurf device according to claim 2, characterized in that: the fixed cover in periphery of first ventilation pipe is equipped with first main blowing pipe, first main blowing pipe is provided with a plurality of exhaust vents along its length direction, the exhaust vent with the ventilation hole intercommunication, the exhaust vent is rectangular form setting.

4. A cardboard oscillating de-scurf device according to claim 2, characterized in that: the one end of first ventilation pipe is provided with the connecting block, be provided with a plurality of connecting holes on the connecting block, one side of frame is provided with a plurality of fixed punch combination, and every fixed punch combination and the one end one-to-one of every first ventilation pipe, every fixed punch combination include a plurality of rings establish the fixed orifices in first ventilation pipe periphery, the fixed orifices corresponds the setting with the connecting hole.

5. A cardboard oscillating de-scurf device according to claim 1, characterized in that: the conveying mechanism comprises a bearing conveying assembly, the bearing conveying assembly comprises a bearing driving part, a first driving shaft roller and a first driven shaft roller, the first driving shaft roller is rotatably arranged at the feeding end of the rack, the first driven shaft roller is rotatably arranged at the discharging end of the rack, the bearing driving part is used for driving the first driving shaft roller to rotate, the first driving shaft roller is in transmission connection with the first driven shaft roller through a plurality of first circular belts, and the first circular belts are wound on the first driving shaft roller and the first driven shaft roller; be one row of formula interval setting between many first round belts.

6. A vibrating chip-removing device for cardboard as claimed in claim 5, wherein: the first driving shaft roller and the first driven shaft roller are provided with a plurality of first annular grooves matched with the first circular belt at equal intervals along the length direction of the first driving shaft roller and the first driven shaft roller.

7. A cardboard oscillating de-scurf device according to claim 1, characterized in that: the conveying mechanism further comprises a pressing conveying assembly, the pressing conveying assembly comprises a pressing driving part, a second driving shaft roller and a second driven shaft roller, the second driving shaft roller is rotatably arranged at the feeding end of the rack, the second driven shaft roller is rotatably arranged at the discharging end of the rack, the pressing driving part is used for driving the second driving shaft roller to rotate, the second driving shaft roller is in transmission connection with the second driven shaft roller through a plurality of second circular belts, and the second circular belts are wound on the second driving shaft roller and the second driven shaft roller; the plurality of second round belts are arranged at intervals in a row;

and the second driving shaft roller and the second driven shaft roller are provided with a plurality of second annular grooves matched with the second circular belt at equal intervals along the length direction of the second driving shaft roller and the second driven shaft roller.

8. A cardboard oscillating de-scurf device according to claim 1, characterized in that: vibrate antidandruff mechanism includes a plurality of vibrations beam barrel and a plurality of being used for the drive vibrate beam barrel pivoted and vibrate the driving piece, vibrate the both ends of beam barrel rotate set up in the frame, the equal spacer ring in periphery that vibrates the beam barrel is equipped with a plurality of vibrations butt axis bodies, a plurality of vibrations butt axis body parallel arrangement each other, vibrate the driving piece including vibrating driving motor, drive wheel and vibration and rotate the wheel, vibrate driving motor's output shaft with drive wheel coaxial coupling, the drive wheel pass through the hold-in range with it connects to vibrate the transmission of rotation wheel.

9. A cardboard oscillating de-scurf device according to claim 1, characterized in that: chip material discharge mechanism is the slope and installs in the frame, chip material discharge mechanism includes first support, second support, first ejection of compact beam barrel, second ejection of compact beam barrel and ejection of compact driving piece, first ejection of compact beam barrel through synchronous transmission band with second ejection of compact beam barrel transmission is connected, the output of ejection of compact driving piece with second ejection of compact beam barrel drive is connected, second ejection of compact beam barrel is higher than first ejection of compact beam barrel, the both ends of first ejection of compact beam barrel with first support rotates to be connected, first support can dismantle connect in the feed end of frame, the both ends of second ejection of compact beam barrel with second support rotates to be connected, the second support can dismantle connect in the discharge end of frame.

10. A cardboard oscillating de-scurf device according to claim 1, characterized in that: the paper receiving mechanism comprises a paper receiving driving part, a paper receiving driving shaft roller, a plurality of cross beams and two vehicle walls which are arranged on two sides of the frame respectively, two ends of each cross beam are connected with the two vehicle walls respectively, two ends of the paper receiving driving shaft roller are rotatably connected with the frame, one end of each vehicle wall is rotatably connected with the frame, and the output end of the paper receiving driving part is in driving connection with one end of the paper receiving driving shaft roller;

a plurality of paper receiving assemblies are arranged between the two car walls and are arranged at equal intervals in a row, each paper receiving assembly comprises a fixing frame, a paper receiving synchronous belt and a paper receiving synchronous wheel, the paper receiving synchronous belts are wound on the paper receiving synchronous wheels and the paper receiving driving shaft roller, the paper receiving synchronous wheels are rotatably arranged at one ends of the fixing frames far away from the paper receiving driving shaft roller, and the fixing frames are detachably connected to the cross beam;

the frame is also provided with a lifting cylinder, and the output end of the lifting cylinder is connected to the middle part of the car wall;

the top of the vehicle wall is provided with a top frame, a plurality of paper pressing strips are arranged on the top frame in a row at equal intervals, and the paper pressing strips are arranged corresponding to the paper receiving synchronous belts;

the car wall is characterized in that a second vent pipe is further installed at the top of the car wall, a plurality of vent holes are formed in the second vent pipe in an evenly distributed mode, the two ends of the second vent pipe are rotatably arranged on the car wall, the second vent pipe is connected with an air source, a second main blowing pipe is fixedly sleeved on the periphery of the second vent pipe, a plurality of air outlet holes are formed in the second main blowing pipe along the length direction of the second main blowing pipe, the air outlet holes are communicated with the vent holes, and the air outlet holes are arranged in a long strip shape.

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