CN209737700U - Continuous cutting mechanism of macromolecular material plate - Google Patents

Abstract

The utility model relates to the technical field of high polymer plate cutting, in particular to a continuous cutting mechanism for high polymer material plates, which comprises a cutting table and a reciprocating linear cutting mechanism arranged above the cutting table, wherein the cutting table consists of a supporting platform and a cutting platform arranged above the supporting platform, the reciprocating linear cutting mechanism consists of a positioning seat, a lead screw motor, a lead screw, a polished rod, a driving seat, an elastic rolling pressing mechanism and a cutting assembly thereof, the elastic rolling pressing mechanism consists of a left elastic rolling pressing assembly and a right elastic rolling pressing assembly which are arranged at two sides of the driving seat in a mirror image manner, the cutting assembly is arranged between the left elastic rolling pressing assembly and the right elastic rolling pressing assembly, the utility model has simple structure, can realize reciprocating linear cutting when the plates are cut, improves the cutting efficiency, and can stably press the cutting parts of the plates in the cutting process, the cutting quality of the plate is improved.

Description

Continuous cutting mechanism of macromolecular material plate

Technical Field

The utility model relates to a macromolecular panel cutting technical field, in particular to macromolecular material plate continuous cutting mechanism.

Background

In the processing of macromolecular material plate, need cut into the macromolecular material plate of small-size with the macromolecular material plate of great size according to actual need, current macromolecular material plate cutting device, the ubiquitous macromolecular material plate is in the cutting process stability not good and the lower problem of cutting efficiency, leads to the cutting quality of panel also relatively poor, also improves the processing cost of macromolecular material plate in addition.

disclosure of Invention

In order to solve the above problem, the utility model provides a following technical scheme:

A continuous cutting mechanism for plates made of high polymer materials comprises a cutting table and a reciprocating linear cutting mechanism arranged above the cutting table, wherein the cutting table consists of a supporting platform and a cutting platform arranged above the supporting platform, a concave cutting groove is formed in the end face of the cutting platform, the side end of the cutting platform and the upper end of the supporting platform form an area A and an area B which are distributed in a mirror image mode, one end of the cutting groove is communicated with the area A, the other end of the cutting groove is communicated with the area B, the reciprocating linear cutting mechanism consists of a positioning seat, a lead screw motor, a lead screw, a polish rod, a driving seat, an elastic rolling pressing mechanism and a cutting assembly thereof, the positioning seats are symmetrically and vertically arranged at the two end parts of the upper end face of the supporting platform, the lead screw and the polish rod thereof are arranged between the two positioning seats, the end part of the lead screw is in rotating fit, the driving seat is in threaded fit with the lead screw, the polished rod penetrates through a guide hole formed in the driving seat, the cutting assembly is arranged at the lower end of the driving seat, the cutting part of the cutting assembly passes through the cutting groove, the elastic rolling pressing mechanism is composed of a left elastic rolling pressing assembly and a right elastic rolling pressing assembly which are arranged on two sides of the driving seat in a mirror image mode, the cutting assembly is located between the left elastic rolling pressing assembly and the right elastic rolling pressing assembly, the left elastic rolling pressing assembly and the right elastic rolling pressing assembly are composed of two identical rolling pressing assemblies, and the two rolling pressing assemblies are symmetrically distributed on two sides of the cutting groove.

Preferably, the upper end face of the cutting platform is a smooth plane, the cutting groove divides the cutting platform into a feeding area and a discharging area, two sides of the feeding area are provided with limiting guide plates, and a feeding channel is formed between the two limiting guide plates.

Preferably, each rolling compaction assembly consists of a supporting seat, a linear driving assembly, a back plate, an elastic assembly and a compression roller assembly, the supporting seat is horizontally arranged at the side end of the driving seat, the linear driving assembly is vertically arranged on the end face of the supporting seat, the driving end of the linear driving assembly penetrates through the supporting seat and extends to the lower part of the supporting seat, the back plate is horizontally arranged at the driving end of the linear driving assembly, and the compression roller assembly is arranged at the lower end of the back plate through the elastic assembly.

Preferably, the compression roller assembly consists of an inverted U-shaped seat and a horizontal compression roller rotatably installed in the U-shaped seat, and the upper end face of the U-shaped seat is installed at the lower end of the back plate through an elastic assembly.

Preferably, the outer wall of the horizontal pressing roller is sleeved with a rubber sleeve.

Preferably, the cutting assembly comprises a cutting motor and a cutting blade, a motor fixing plate is installed at the lower end of the driving seat through a suspension, the cutting motor is installed at the lower end of the motor fixing plate, the cutting blade is installed at the driving end of the cutting motor, and the cutting blade passes through the cutting groove.

has the advantages that: when the novel plate cutting machine is used, the lead screw motor, the cutting motor and the linear driving assembly are connected with an external PLC control cabinet, when cutting operation is carried out, plates are fed from a feeding area and are fed by an external feeding mechanism, the lead screw motor drives the driving seat to carry out linear motion when being started, the driving seat drives the cutting assembly to keep synchronous motion, the cutting motor drives the cutting blades to rotate at a high speed after being started, when the cutting blades pass through a cutting groove in a straight line, the plates are cut, the plates are continuously pushed forwards, the plates after being cut can be pushed to the feeding area, then the lead screw motor rotates reversely, the cutting blades are driven to carry out linear motion from the cutting groove, and the reciprocating is carried out, so that the plates are continuously cut;

It should be noted that, in the utility model, in order to improve the cutting quality of the plate, when cutting operation is performed, when the cutting assembly moves from the area a to the area B, when the linear driving assembly is in a non-working state, the distance between the compression roller assembly and the cutting platform is large, at this time, the right elastic rolling compression assembly is located right above the area a of the cutting platform, when the cutting part of the plate is pushed right above the cutting groove, the linear driving assembly in the right elastic rolling compression assembly is started, the driving end of the linear driving assembly drives the compression roller assembly to move to a position close to the plate until being in close contact with the plate, at this time, the elastic assembly is in a compression state, then the lead screw motor positively rotates to drive the driving seat to move from the area a to the area B, the horizontal compression roller is in rolling contact with the end face of the plate, thereby compressing the two sides of the cutting part, the cutting blade cuts the plate along the cutting, finally, moving to a B area, wherein the linear driving assembly in the right elastic rolling compaction assembly contracts and resets at the moment, and then pushing the next cutting part of the plate to be right above the cutting groove;

Then when the cutting assembly moves from the area B to the area A, when the linear driving assembly is in a non-working state, the distance between the compression roller assembly and the cutting platform is larger, at the moment, the left elastic rolling pressing assembly is positioned right above the cutting platform, which is close to the area B, when the cutting part of the plate is pushed right above the cutting groove, the linear driving assembly in the left elastic rolling pressing assembly is started, the driving end of the linear driving assembly drives the compression roller assembly to move to a position close to the plate until the compression roller assembly is in tight contact with the plate, at the moment, the elastic assembly is in a compression state, then the screw motor rotates reversely to drive the driving seat to move from the area B to the area A, the horizontal compression roller is in rolling contact with the end face of the plate, so that two sides of the cutting part are compressed, and the cutting;

when cutting operation is carried out, considering that the compression roller assembly in the right elastic rolling compression assembly can be separated from the plate before cutting is completed in the process of cutting from the area A to the area B, the linear driving assembly in the left elastic rolling compression assembly can be started in the process of moving the driving seat from the area A to the area B, so that the compression roller assembly in the left elastic rolling compression assembly positions the plate, and the condition that the plate is unstable at the end point is avoided; similarly, in the process of cutting from the area B to the area A, the compression roller assembly in the left elastic rolling compression assembly can be separated from the plate after the cutting is finished, and the linear driving assembly in the right elastic rolling compression assembly can be started in the process of moving the driving seat from the area B to the area A, so that the compression roller assembly in the right elastic rolling compression assembly positions the plate, and the condition that the plate is unstable at the position of a terminal point is avoided; and after the two compression roller assemblies are completely separated from the plate, the two compression roller assemblies are contracted and reset, and then the next reciprocating cutting operation is carried out.

The utility model discloses simple structure when cutting the operation to the plate, can realize reciprocal straight line cutting, has improved cutting efficiency, and in the cutting process, can carry out stable compressing tightly to the cutting position of plate, improved the cutting quality of plate.

drawings

Fig. 1 is a top view of the present invention;

fig. 2 is a cross-sectional view of a top view of the present invention;

FIG. 3 is a partial schematic view of FIG. 2;

Fig. 4 is a front view of the present invention;

FIG. 5 is a partial schematic view of FIG. 4;

description of reference numerals: 1-supporting platform, 2-cutting platform, 21-blanking area, 22-feeding area, 3-positioning seat, 4-screw motor, 5-limiting guide plate, 6-screw, 7-polished rod, 8-left elastic rolling compaction component, 9-driving seat, 10-right elastic rolling compaction component, 101-linear driving component, 102-supporting seat, 103-back plate, 104-elastic component, 105-U-shaped seat, 106-horizontal pressing roller, 11-cutting groove, 12-suspension, 13-motor fixing plate, 14-cutting motor and 15-cutting blade.

Detailed Description

the following detailed description of the embodiments of the present invention is made with reference to the drawings and the accompanying examples:

Referring to fig. 1 to 5, the continuous cutting mechanism for polymer material plate comprises a cutting table and a reciprocating linear cutting mechanism arranged above the cutting table, wherein the cutting platform comprises a supporting platform 1 and a cutting platform 2 arranged above the supporting platform 1, a concave cutting groove 11 is arranged on the end surface of the cutting platform 2, a zone a and a zone B are formed at the side end of the cutting platform 2 and the upper end of the supporting platform 1 in a mirror image distribution, one end of the cutting groove 11 is communicated with the zone a, the other end is communicated with the zone B, the reciprocating linear cutting mechanism comprises a positioning seat 3, a screw motor 4, a screw 6, a polish rod 7, a driving seat 9, an elastic rolling pressing mechanism and a cutting assembly thereof, the positioning seats 3 are symmetrically and vertically arranged at two ends of the upper end surface of the supporting platform 1, the screw 6 and the polish rod 7 thereof are arranged between the two positioning seats 3, and the end of the screw 6 is in, the lead screw motor 4 is installed on the outer side of one of the positioning seats 3, the driving end of the lead screw motor 4 is connected with the driving end of the lead screw 6, the driving seat 9 is in threaded fit with the lead screw 6, the polished rod 7 penetrates through a guide hole formed in the driving seat 9, the cutting assembly is arranged at the lower end of the driving seat 9, the cutting part of the cutting assembly passes through the cutting groove 11, the elastic rolling pressing mechanism is composed of a left elastic rolling pressing assembly 8 and a right elastic rolling pressing assembly 10 which are arranged on two sides of the driving seat 9 in a mirror image mode, the cutting assembly is located between the left elastic rolling pressing assembly 8 and the right elastic rolling pressing assembly 10, the left elastic rolling pressing assembly 8 and the right elastic rolling pressing assembly 10 are composed of two completely identical rolling pressing assemblies, and the two rolling pressing assemblies are symmetrically distributed on two sides of the cutting groove 11.

In this embodiment, the up end of cutting platform 2 is smooth plane, cutting groove 11 cuts apart cutting platform into feeding region 22 and unloading district 21, and the both sides in feeding region 22 are equipped with spacing baffle 5, form the material loading passageway between two spacing baffles 5, and when carrying out the material loading, there is outside feeder equipment to promote the plate and remove in the material loading passageway.

In this embodiment, each rolling pressing assembly is composed of a supporting seat 102, a linear driving assembly 101, a back plate 103, an elastic assembly 104 and a pressing roller assembly thereof, the supporting seat 102 is horizontally arranged at the side end of the driving seat 9 and can be an integral piece with the driving seat 9, the linear driving assembly 101 is vertically installed on the end surface of the supporting seat, the driving end of the linear driving assembly 101 penetrates through the supporting seat 102 and extends to the lower side of the supporting seat 101, the back plate 103 is horizontally installed at the driving end of the linear driving assembly 101, and the pressing roller assembly is installed at the lower end of the back plate through the elastic assembly 104.

in this embodiment, the platen roller assembly is composed of an inverted U-shaped seat 105 and a horizontal platen roller 106 rotatably mounted in the U-shaped seat 105, and the upper end surface of the U-shaped seat 105 is mounted on the lower end of the back plate 103 through an elastic assembly 104.

in this embodiment, a rubber sleeve (not shown) is sleeved on the outer wall of the horizontal pressing roll 106 to protect the plate.

In this embodiment, the cutting assembly is composed of a cutting motor 14 and a cutting blade 15, a motor fixing plate 13 is mounted on the lower end of the driving base 9 through a suspension 12, the cutting motor 14 is mounted on the lower end of the motor fixing plate 13, the cutting blade 15 is mounted on the driving end of the cutting motor 14, and the cutting blade 15 passes through the cutting groove 11.

when the novel plate cutting machine is used, the lead screw motor 4, the cutting motor 14 and the linear driving assembly 101 are connected with an external PLC control cabinet, when cutting operation is carried out, plates are fed from the feeding area 22 and fed by an external feeding mechanism (along the direction a in the drawing), when the lead screw motor 4 is started, the driving seat 9 is driven to carry out linear motion, the driving seat 9 drives the cutting assembly to keep synchronous motion, the cutting motor 14 drives the cutting blade 15 to rotate at high speed after being started, when the cutting blade 15 passes through the cutting groove 11 in a straight line, the plates are cut, the plates are continuously pushed forwards, the plates after cutting are pushed to the feeding area 21, then the lead screw motor 4 rotates reversely, the cutting blade 14 is driven to carry out linear motion from the cutting groove 11, and the linear motion is carried out in such a reciprocating mode, so that the plates are continuously cut;

it should be noted that, in the present invention, in order to improve the cutting quality of the plate, when performing the cutting operation, when the cutting assembly moves from the area a to the area B (along the direction B in the figure), when the linear driving assembly 101 is in the non-operating state, the distance between the pressing roller assembly and the cutting platform 2 is larger, at this time, the right elastic rolling pressing assembly is located right above the area a of the cutting platform 2, when the cutting portion of the plate is pushed to right above the cutting groove, the linear driving assembly 101 in the right elastic rolling pressing assembly 10 is started, the driving end of the linear driving assembly 101 drives the pressing roller assembly to move to the position close to the plate until the plate is in close contact with, at this time, the elastic assembly 104 is in the compression state, then the lead screw motor 4 rotates forward to drive the driving seat 9 to move from the area a to the area B, the horizontal pressing roller 106 is in rolling contact with the end face of the plate, so as to compress two sides of the cutting part, the cutting blade 15 cuts the plate along the cutting groove 11 and finally moves to the B area, at the moment, the linear driving assembly 101 in the right elastic rolling compression assembly contracts and resets, and then the next cutting part of the plate is pushed to be right above the cutting groove 11;

then, when the cutting assembly moves from the region B to the region a (along the direction c in the figure), when the linear driving assembly 101 is in the non-operating state, the distance between the compression roller component and the cutting platform 2 is larger, at the moment, the left elastic rolling compaction component 8 is positioned right above the cutting platform 2 close to the area B, when the cutting part of the plate is pushed to be right above the cutting groove 11, the linear driving assembly 101 in the left elastic rolling pressing assembly 8 is started, the driving end of the linear driving assembly 101 drives the pressing roller assembly to move to a position close to the plate until the pressing roller assembly is tightly contacted with the plate, at this time, the elastic assembly 104 is in a compressed state, then the screw motor 4 rotates reversely to drive the driving seat 9 to move from the area B to the area A, the horizontal press roller 106 is in rolling contact with the end surface of the plate, thereby compressing two sides of the cutting part, and cutting the plate along the cutting groove by the cutting blade;

When cutting operation is carried out, considering that the compression roller assembly in the right elastic rolling compression assembly 10 can be separated from the plate before cutting is completed in the process of cutting from the area A to the area B, the linear driving assembly 101 in the left elastic rolling compression assembly 8 can be started in the process of moving the driving seat from the area A to the area B, so that the compression roller assembly in the left elastic rolling compression assembly 8 positions the plate, and the condition that the plate is unstable at the end point is avoided; similarly, in the process of cutting from the area B to the area a, the compression roller assembly in the left elastic rolling compression assembly 8 can be separated from the plate after the cutting is completed, and the linear driving assembly 101 in the right elastic rolling compression assembly can be started in the process of moving the driving seat from the area B to the area a, so that the compression roller assembly in the right elastic rolling compression assembly 10 positions the plate, and thus the condition that the plate is unstable at the end point position is avoided; and after the two compression roller assemblies are completely separated from the plate, the two compression roller assemblies are contracted and reset, and then the next reciprocating cutting operation is carried out.

the utility model discloses simple structure when cutting the operation to the plate, can realize reciprocal straight line cutting, has improved cutting efficiency, and in the cutting process, can carry out stable compressing tightly to the cutting position of plate, improved the cutting quality of plate.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modification, equivalent change and modification made to the above embodiments by the technical spirit of the present invention are all within the scope of the technical solution of the present invention.

Claims (6)

1. The utility model provides a continuous cutting mechanism of macromolecular material plate, includes the cutting bed and locates the reciprocal straight line cutting mechanism of cutting bed top, its characterized in that: the cutting table consists of a supporting platform (1) and a cutting platform (2) arranged above the supporting platform (1), a sunken cutting groove (11) is formed in the end face of the cutting platform (2), the side end of the cutting platform (2) and the upper end of the supporting platform (1) form an area A and an area B which are distributed in a mirror image mode, one end of the cutting groove (11) is communicated with the area A, the other end of the cutting groove is communicated with the area B, the reciprocating linear cutting mechanism consists of a positioning seat (3), a lead screw motor (4), a lead screw (6), a polished rod (7), a driving seat (9), an elastic rolling and pressing mechanism and a cutting assembly thereof, the positioning seats (3) are symmetrically and vertically arranged at the two end parts of the upper end face of the supporting platform (1), the lead screw (6) and the polished rod (7) thereof are arranged between the two positioning seats (3), the end part of the lead screw (6) is in running fit with the positioning seats (3), the, the driving end of the screw motor (4) is connected with the driving end of the screw (6), the driving seat (9) is in threaded fit with the screw (6), and the polished rod (7) passes through a guide hole arranged on the driving seat (9), the cutting assembly is arranged at the lower end of the driving seat (9), and the cutting part of the cutting component passes through the cutting groove (11), the elastic rolling pressing mechanism is composed of a left elastic rolling pressing component (8) and a right elastic rolling pressing component (10) which are arranged at the two sides of the driving seat (9) in a mirror image manner, the cutting assembly is positioned between the left elastic rolling compaction assembly (8) and the right elastic rolling compaction assembly (10), the left elastic rolling compaction assembly (8) and the right elastic rolling compaction assembly (10) are both composed of two identical rolling compaction assemblies, and the two rolling compaction assemblies are symmetrically distributed on two sides of the cutting groove (11).

2. The continuous cutting mechanism for plates made of polymer materials as claimed in claim 1, wherein: the utility model discloses a cutting platform, including cutting platform (2), cutting groove (11), cutting platform (2) are cut apart into material loading district (22) and unloading district (21), and the both sides of material loading district (22) are equipped with spacing baffle (5), form the material loading passageway between two spacing baffle (5).

3. The continuous cutting mechanism for plates made of polymer materials as claimed in claim 1, wherein: each rolling compaction assembly is composed of a supporting seat (102), a linear driving assembly (101), a back plate (103), an elastic assembly (104) and a compression roller assembly, the supporting seat (102) is horizontally arranged at the side end of the driving seat (9), the linear driving assembly (101) is vertically installed on the end face of the supporting seat (102), the driving end of the linear driving assembly (101) penetrates through the supporting seat (102) and extends to the lower portion of the supporting seat (102), the back plate (103) is horizontally installed at the driving end of the linear driving assembly (101), and the compression roller assembly is installed at the lower end of the back plate (103) through the elastic assembly (104).

4. The continuous cutting mechanism for plates made of polymer materials as claimed in claim 3, wherein: the compression roller assembly consists of an inverted U-shaped seat (105) and a horizontal compression roller (106) rotatably installed in the U-shaped seat (105), and the upper end face of the U-shaped seat (105) is installed at the lower end of the back plate (103) through an elastic assembly (104).

5. The continuous cutting mechanism for plates made of polymer materials as claimed in claim 4, wherein: the outer wall of the horizontal press roll (106) is sleeved with a rubber sleeve.

6. The continuous cutting mechanism for plates made of polymer materials as claimed in claim 1, wherein: the cutting assembly comprises a cutting motor (14) and a cutting blade (15), a motor fixing plate (13) is installed at the lower end of a driving seat (9) through a suspension (12), the cutting motor (14) is installed at the lower end of the motor fixing plate (13), the cutting blade (15) is installed at the driving end of the cutting motor (14), and the cutting blade (15) passes through a cutting groove (11).