CN211333518U - Abrasive paper cutting machine - Google Patents

Abstract

The utility model provides an abrasive paper splitting machine, which comprises a discharging mechanism, a strip splitting and cutting mechanism, a feeding mechanism, a flail knife mechanism, a discharging mechanism, a stacking mechanism and a discharging and conveying mechanism; the material enters the slitting cutting mechanism through the discharging mechanism to be slit and cut, the transverse cutting is carried out through the flail knife mechanism after the slitting cutting, the material after the transverse cutting is sent into the stacking mechanism through the discharging mechanism to be stacked, and finally the material is conveyed out through the discharging conveying mechanism. The utility model can divide and cut the material into strips and perform counting and stacking by arranging the strip cutting mechanism, the feeding mechanism, the flail knife mechanism, the discharging mechanism and the stacking mechanism; the flail knife mechanism and the feeding mechanism are driven by the same motor, so that the synchronization of the flail knife mechanism and the feeding mechanism can be ensured, and the finished products cut by the flail knife mechanism can completely meet the precision requirement in the length direction.

Description

Abrasive paper cutting machine

Technical Field

The invention belongs to the field of cutting machines, and particularly relates to a follow-up cutting mechanism.

Background

A splitting machine is a mechanical device for splitting wide paper, mica tapes or films into a plurality of narrow materials, and is commonly used for paper making machinery, wire and cable mica tapes and printing and packaging machinery. The splitting machine is mainly applied to non-woven fabrics, mica tapes, paper, insulating materials and various film materials are split, the existing splitting mechanism has the problems of low efficiency and low precision, and the existing splitting machine cannot automatically stack after being split or has low stacking efficiency.

Disclosure of Invention

The invention aims to solve the problems and provides a sand paper dividing and cutting machine which can solve the problem of accurately cutting heat-preservation cotton in the moving process.

In order to achieve the purpose, the invention provides the following technical scheme: a sand paper dividing and cutting machine comprises a material discharging mechanism, a strip dividing and cutting mechanism, a feeding mechanism, a flail knife mechanism, a discharging mechanism, a stacking mechanism and a discharging and conveying mechanism; the material enters a slitting cutting mechanism through a discharging mechanism to be slit and cut, the transverse cutting is carried out through a flail knife mechanism after the slitting cutting, the transversely cut material is sent into a stacking mechanism through a discharging mechanism to be stacked, and finally the material is conveyed out through a discharging conveying mechanism; the feeding mechanism comprises a feeding roller, the feeding roller is connected with a motor through a feeding transmission mechanism, the flail knife mechanism comprises an upper flail knife seat and a lower flail knife seat, the upper flail knife seat comprises a plurality of arc-shaped pieces, each arc-shaped piece is connected through a flail knife shaft and a connecting rod, an upper flail knife is arranged on the chord surface of the arc-shaped piece, the lower flail knife seat is arranged at the lower end of the upper flail knife seat, a lower flail knife is arranged on the lower flail knife seat, the lower flail knife seat comprises a lower base and a lower knife mounting seat, the lower flail knife is arranged on the lower knife mounting seat which is arranged on the lower base, a spring is arranged between the lower flail knife and the lower base, the counter is arranged on the flail knife shaft, the flail knife shaft is connected with the motor through a flail knife transmission mechanism, and the flail knife transmission mechanism is connected with the same motor of the feeding mechanism; the stacking mechanism comprises two groups of turning plate mechanisms, each turning plate mechanism comprises a turning plate shaft, 4 turning plates which are perpendicular to each other are uniformly distributed on the turning plate shaft, the two groups of turning plate mechanisms are respectively a driving turning plate mechanism and a driven turning plate mechanism, the driving turning plate mechanism is arranged on one side close to the discharging conveying mechanism, the driving turning plate mechanism rotates, the turning plates on the driving turning plate mechanism are in contact with the turning plates on the driven turning plate mechanism to drive the driven turning plate mechanism to rotate, and materials stacked on the driven turning plate mechanism are pushed out and fall onto the discharging conveying mechanism.

As an improvement of the invention, the turning plates are of an axial sectional structure, and a partition plate is arranged between two adjacent turning plates.

As an improvement of the invention, the slitting cutting mechanism comprises a slitting upper knife and a slitting lower knife, the slitting upper knife comprises a plurality of groups of upper knife seats which are uniformly distributed, and an upper knife blade is arranged on each upper knife seat; the slitting lower knife comprises lower blades corresponding to the upper blades, and the lower blades of each group are separated by spacer bushes.

As an improvement of the invention, a baffle is also arranged at the flail knife mechanism and is arranged at the rear upper position of the lower flail knife.

As an improvement of the invention, the clapboards are connected through connecting columns, and the clapboards divide the sectional turning plates of the driving turning plate mechanism and the driven turning plate mechanism.

As an improvement of the invention, a deviation-rectifying controller is also arranged on the discharging mechanism.

As an improvement of the invention, the baffle is arranged on the frame through a baffle mounting frame, and the position of the baffle mounting frame can be adjusted on the frame.

Compared with the prior art, the invention has the following advantages and beneficial effects:

according to the invention, the strip cutting mechanism, the feeding mechanism, the flail knife mechanism, the discharging mechanism and the stacking mechanism are arranged, so that materials can be subjected to strip division and slitting, and counting and stacking can be carried out;

the flail knife mechanism and the feeding mechanism are driven by the same motor, so that the synchronization of the flail knife mechanism and the feeding mechanism can be ensured, and the finished products cut by the flail knife mechanism can completely meet the precision requirement of a client in the length direction;

finished products which are cut and finished are sent out through the discharging mechanism, the finished products reach the stacking mechanism to be stacked and counted, the stacking mechanism rotates after the set technology is achieved, the products which are stacked and finished are placed on the discharging conveyor belt to be conveyed out, and follow-up operation is facilitated.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of a transmission part of the feeding mechanism.

Fig. 3 is a schematic structural view of the slitting and flail knife portions of the present invention.

Fig. 4 is a front view of fig. 3.

FIG. 5 is a schematic view of the structure of the flail portion of the present invention.

Detailed Description

The technical solutions provided by the present invention will be described in detail below with reference to specific examples, and it should be understood that the following specific embodiments are only illustrative of the present invention and are not intended to limit the scope of the present invention.

The abrasive paper splitting machine shown in fig. 1 to 5 comprises a discharging mechanism 8, a strip splitting and cutting mechanism, a feeding mechanism 5, a flail knife mechanism 4, a discharging mechanism 3, a stacking mechanism 2 and a discharging and conveying mechanism 1; the material is discharged through a discharging mechanism 8, and then after being corrected through a deviation correction controller 9 on the discharging mechanism, the material enters a strip cutting mechanism to be cut in a strip mode, and then is transversely cut through a flail knife mechanism 2 after being cut in the strip mode, the material after being transversely cut is sent into a stacking mechanism 2 through a discharging mechanism 3 to be stacked, and finally the material is conveyed out through a discharging conveying mechanism.

The feeding mechanism comprises a feeding roller, the feeding roller is connected with a motor 10 through a feeding transmission mechanism, referring to fig. 2 to 4, the motor 10 is connected with a driving belt wheel 11 arranged on one side of the rack through a rotating shaft coupler, the driving belt wheel 11 drives a driven belt wheel 12 to rotate through a belt, the driven belt wheel 12 is connected to a driving belt wheel 16 on the other side of the rack through a rotating shaft 13, the driving belt wheel 16 drives a driven belt wheel 18 to rotate through a belt, and the driven belt wheel 18 rotates to drive the feeding roller of the feeding mechanism to rotate.

Flail knife mechanism 4 including getting rid of blade holder 42 and getting rid of blade holder 43 down, last flail knife holder 42 include a plurality of arc pieces, each arc piece is connected through getting rid of the arbor and connecting rod, is provided with flail knife 44 in the chord face department of arc piece, lower flail blade holder 43 set up the lower extreme of last flail blade holder, get rid of the blade holder under and be provided with down flail knife 41, lower flail knife holder include base and lower sword mount pad down, lower flail knife 41 install lower sword mount pad on, lower sword mount pad sets up under on the base, and with be provided with the spring between the base.

The counter is arranged on the flail knife shaft, the flail knife shaft is connected with the motor 10 through a flail knife transmission mechanism, and the flail knife transmission mechanism is connected with the same motor 10 connected with the feeding mechanism. The specific structure of the device is shown in fig. 4, the flail shaft is connected with a flail belt wheel 19 on the frame, the flail belt wheel 19 is connected with a flail driving belt wheel 17 through a belt, the flail driving belt wheel 17 is connected with the frame through a rotating shaft, a gear 15 is arranged on the rotating shaft on the inner side of the frame, and the gear 15 is meshed with a driving gear 14 on the rotating shaft 13.

The motor 10 rotates to drive the driving belt wheel 11 to rotate, the driving belt wheel 11 rotates to drive the driven belt wheel 12 to rotate, so as to drive the driving belt wheel 16 on the other side of the rack to rotate, and further drive the driven belt wheel 18 to rotate, so as to drive the discharging roller to rotate.

At the same time, the rotating shaft 13 rotates to drive the driving gear 14 to mesh with the driven gear 15, so as to drive the flail driving pulley 17 to rotate, and thus drive the flail pulley 19 to rotate, so as to drive the flail shaft to rotate. The feeding mechanism 5 and the flail knife mechanism 4 are driven by a complete mechanical structure, so that the synchronism of the feeding mechanism 5 and the flail knife mechanism 4 is ensured, and the finished products cut by the flail knife mechanism can completely meet the precision requirement of a customer in the length direction.

The stacking mechanism 2 comprises two groups of turning mechanisms, each turning mechanism comprises a turning shaft 21, 4 turning plates 22 which are perpendicular to each other are uniformly distributed on the turning shaft 21, the two groups of turning mechanisms are respectively a driving turning mechanism and a driven turning mechanism, the driving turning mechanism is arranged on one side close to the discharging conveying mechanism, the driving turning mechanism drives the driving turning mechanism to rotate through a turning plate motor 24, the driving turning mechanism rotates, a turning plate on the driving turning mechanism is in contact with a turning plate on the driven turning mechanism to drive the driven turning mechanism to rotate, materials stacked on the driven turning mechanism are pushed out and fall onto the discharging conveying mechanism 1, and the discharging conveying mechanism 1 is a conveying belt.

The turning plates 22 are in a sectional structure along the axial direction, and a partition plate 23 is arranged between two adjacent turning plates. The partition plates 23 are connected through connecting columns, and the partition plates 23 divide the sectional turning plates of the driving turning plate mechanism and the driven turning plate mechanism.

The slitting cutting mechanism comprises a slitting upper knife 7 and a slitting lower knife 6, the slitting upper knife 7 comprises a plurality of groups of upper knife seats which are uniformly distributed, and an upper blade is arranged on each upper knife seat; the slitting lower knife 6 comprises lower blades corresponding to the upper blades, and the lower blades in each group are separated by a spacer 41.

A baffle 45 is further arranged at the flail knife mechanism 4 and is arranged at the rear upper position of the lower flail knife 41. The baffle is arranged on the rack through a baffle mounting frame, and the position of the baffle mounting frame can be adjusted on the rack.

Explanation of the operation:

the method comprises the steps of manually placing materials on an unreeling material rack, enabling the materials to penetrate through a deviation correcting controller and a strip upper cutter, pressing the materials under a compression roller of a feeding mechanism to fix the materials, pressing down the strip upper cutter to divide the materials into strips with fixed widths, feeding the materials divided into the strips into a flail cutter mechanism through the feeding mechanism to be cut, enabling the feeding mechanism and the flail cutter mechanism to be in transmission through a complete mechanical structure to guarantee that finished products cut by the flail cutter mechanism can completely meet the precision requirement of a customer in the length direction, sending the cut finished products out through a discharging mechanism to reach a stacking mechanism to be stacked and counted, rotating the stacking mechanism after a set technology is achieved, and putting the stacked products on a discharging conveyor belt to be transported out.

According to the invention, the strip cutting mechanism, the feeding mechanism, the flail knife mechanism, the discharging mechanism and the stacking mechanism are arranged, so that materials can be subjected to strip division and slitting, and counting and stacking can be carried out; the flail knife mechanism and the feeding mechanism are driven by the same motor, so that the synchronization of the flail knife mechanism and the feeding mechanism can be ensured, and the finished products cut by the flail knife mechanism can completely meet the precision requirement of a client in the length direction; finished products which are cut and finished are sent out through the discharging mechanism, the finished products reach the stacking mechanism to be stacked and counted, the stacking mechanism rotates after the set technology is achieved, the products which are stacked and finished are placed on the discharging conveyor belt to be conveyed out, and follow-up operation is facilitated.

The technical means disclosed in the invention scheme are not limited to the technical means disclosed in the above embodiments, but also include the technical scheme formed by any combination of the above technical features. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and such improvements and modifications are also considered to be within the scope of the present invention.

Claims (7)

1. A sand paper splitting machine is characterized by comprising a discharging mechanism, a slitting and cutting mechanism, a feeding mechanism, a flail knife mechanism, a discharging mechanism, a stacking mechanism and a discharging and conveying mechanism; the material enters a slitting cutting mechanism through a discharging mechanism to be slit and cut, the transverse cutting is carried out through a flail knife mechanism after the slitting cutting, the transversely cut material is sent into a stacking mechanism through a discharging mechanism to be stacked, and finally the material is conveyed out through a discharging conveying mechanism; the feeding mechanism comprises a feeding roller, the feeding roller is connected with a motor through a feeding transmission mechanism, the flail knife mechanism comprises an upper flail knife seat and a lower flail knife seat, the upper flail knife seat comprises a plurality of arc-shaped pieces, each arc-shaped piece is connected through a flail knife shaft and a connecting rod, an upper flail knife is arranged on the chord surface of the arc-shaped piece, the lower flail knife seat is arranged at the lower end of the upper flail knife seat, a lower flail knife is arranged on the lower flail knife seat, the lower flail knife seat comprises a lower base and a lower knife mounting seat, the lower flail knife is arranged on the lower knife mounting seat which is arranged on the lower base, a spring is arranged between the lower flail knife and the lower base, the counter is arranged on the flail knife shaft, the flail knife shaft is connected with the motor through a flail knife transmission mechanism, and the flail knife transmission mechanism is connected with the same motor of the feeding mechanism; the stacking mechanism comprises two groups of turning plate mechanisms, each turning plate mechanism comprises a turning plate shaft, 4 turning plates which are perpendicular to each other are uniformly distributed on the turning plate shaft, the two groups of turning plate mechanisms are respectively a driving turning plate mechanism and a driven turning plate mechanism, the driving turning plate mechanism is arranged on one side close to the discharging conveying mechanism, the driving turning plate mechanism rotates, the turning plates on the driving turning plate mechanism are in contact with the turning plates on the driven turning plate mechanism to drive the driven turning plate mechanism to rotate, and materials stacked on the driven turning plate mechanism are pushed out and fall onto the discharging conveying mechanism.

2. A sandpaper slitting machine as defined in claim 1, wherein: the turning plates are of an axial sectional type structure, and a partition plate is arranged between two adjacent turning plates.

3. A sandpaper slitting machine as defined in claim 1, wherein: the slitting cutting mechanism comprises a slitting upper knife and a slitting lower knife, the slitting upper knife comprises a plurality of groups of upper knife seats which are uniformly distributed, and an upper blade is arranged on each upper knife seat; the slitting lower knife comprises lower blades corresponding to the upper blades, and the lower blades of each group are separated by spacer bushes.

4. A sandpaper slitting machine as defined in claim 3 wherein: the flail knife mechanism is also provided with a baffle plate which is arranged at the rear upper position of the lower flail knife.

5. A sandpaper slitting machine as defined in claim 2, wherein: the partition plates are connected through connecting columns and divide the sectional turning plates of the driving plate turning mechanism and the driven plate turning mechanism.

6. A sandpaper slitting machine as defined in claim 1, wherein: and a deviation rectifying controller is also arranged on the discharging mechanism.

7. A sandpaper slitting machine as defined in claim 4, wherein: the baffle is arranged on the rack through the baffle mounting frame, and the position of the baffle mounting frame can be adjusted on the rack.

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