CN211662174U - High-efficient guillootine in abrasive band - Google Patents

Abstract

The utility model discloses a high-efficient guillootine of abrasive band relates to abrasive band manufacturing industry field, including roll up roller frame, conveying roller, motor, drive roll, roller, pinch roller, drive support column, lower drive roller, lower driving motor, lower conveyer belt, undersetting platform, cutter plate groove, mounting bracket, lower rack, passive support column, lower roller, lower passive roller, go up the drive roller, go up driving motor, go up the conveyer belt, go up the supporting bench, go up the rack, install the roof beam. The utility model relates to a scheme makes the abrasive band get into symmetrical formula conveyer belt after getting into the transfer roller from the winding up roller through the design of longitudinal symmetry formula conveyer belt and cutting board and cutting board groove, the rotatory drive through the conveyer belt cuts cutting board and cutting board groove and meshes the realization and cut the cubic on input abrasive band to quick output, cutting speed can carry out regulation and control according to conveyer belt functioning speed, it is efficient to cut, it is even controllable to cut abrasive band piece size, be favorable to the stamping process of abrasive band piece, reduce the wasting of resources.

Description

High-efficient guillootine in abrasive band

Technical Field

The utility model belongs to the technical field of the abrasive band industry of making and specifically relates to a high-efficient guillootine in abrasive band.

Background

At present, the abrasive belt is widely applied in various industry fields, the abrasive belt can be cut into abrasive belt pieces in various shapes according to actual use working condition requirements for use or manufacturing abrasive belt grinding wheels, the existing processing method for cutting the abrasive belt pieces by using a stamping die is generally used for stamping from stacked single abrasive belts, but the single abrasive belt is generally manually cut, the efficiency is low, the sizes of the single abrasive belts are different, the stamping processing of the abrasive belt pieces is influenced, the controllability of residual materials is poor, and the resource waste is easily caused.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the prior art, the utility model provides a high-efficient guillootine in abrasive band.

The utility model provides a technical scheme that its technical problem adopted is: an abrasive belt high-efficiency cutting machine comprises a winding roller frame, a conveying roller column, a motor, a driving roller, a roller shaft, a pressing roller, a driving support column, a lower driving roller, a lower driving motor, a lower conveying belt, a lower support table, a cutter plate groove, a mounting frame, a lower table frame, a driven support column, a lower roller shaft, a lower driven roller, an upper driving motor, an upper conveying belt, an upper support table, an upper table frame, a mounting beam, a cutter holder, a cutting cutter plate, an upper driving support column, an upper driven support column, an upper roller shaft and an upper driven roller, wherein the winding roller frame is divided into 2 groups which are symmetrically arranged on the right side of the conveying roller column from front to back, the conveying roller column is divided into 2 groups which are symmetrically arranged on the ground of a workshop from front to back, the motor is arranged on the side wall of the front end part of the conveying roller column through a motor bracket, the driving roller is arranged on the conveying, the compressing roller and the driving roller are installed in a vertically symmetrical micro-clearance fit mode, the driving support columns are symmetrically installed on the left side of the conveying roller column in the front-back direction of a group 2, the lower driving roller is installed on the driving support columns in a matched mode through a roller shaft, the lower driving motor is installed on the side wall of the front end portion of the driving support columns through a motor support, the extending end of the roller shaft of the lower driving roller is connected to the power output shaft of the lower driving motor through a speed reducer, the lower conveying belt is installed between the lower driving roller and the lower driven roller in a tensioned mode, the lower supporting table is installed on the lower rack in a rigid mode, the knife board groove is formed in the outer end face of the lower conveying belt, the installation rack is installed on the ground of a workshop in a rigid mode, the lower supporting table is installed on the, the lower driven roller is installed on the driven supporting column in a matched mode through a lower roller shaft, the upper driving roller is installed on the upper driving supporting column in a matched mode through a roller shaft, the upper driving motor is installed on the side wall of the front end portion of the upper driving supporting column through a motor support, the extending end of the roller shaft of the upper driving roller is connected to a power output shaft of the upper driving motor through a speed reducer, the upper conveying belt is installed between the upper driving roller and the upper driven roller in a tensioned mode, the upper supporting table is installed at the middle position of the upper driving roller and the upper driven roller, the upper supporting table is rigidly installed on the upper table frame, the upper table frame is symmetrically installed on the installation beam in a rigid front-back mode in 2 groups, the installation beam is rigidly installed at the top end of the installation frame, the cutter seat is installed, the upper driven supporting columns are divided into 2 groups and are rigidly and symmetrically arranged on the mounting beam in the front-back direction, and the upper driven roller is arranged on the upper driven roller through the matching of an upper roller shaft.

In the efficient abrasive belt cutting machine, the rolled abrasive belt finished product is placed at the upper part of the roll frame.

In the efficient abrasive belt cutting machine, the cutter plate groove is vertically symmetrical to the installation position of the cutting cutter plate.

Foretell high-efficient guillootine in abrasive band, passive support column left side installation automatic discharge pile up neatly device.

The beneficial effects of the utility model are that, the utility model provides a through the design of longitudinal symmetry formula conveyer belt and cutting board and cutting board groove make the abrasive band get into symmetrical formula conveyer belt after getting into the transfer roller from the winding up roller, the rotatory drive through the conveyer belt cuts cutting board and cutting board groove and meshes the realization and cuts the cubic of input abrasive band to quick output, cutting speed can carry out regulation and control according to conveyer belt functioning speed, it is efficient to cut, it is evenly controllable to cut abrasive band piece size, be favorable to the punching press processing of abrasive band piece, reduce the wasting of resources.

Drawings

The present invention will be further explained with reference to the drawings and examples.

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

In the drawing, 1, a winding roller frame, 2, a conveying roller column, 3, a motor, 4, a driving roller, 5, a roller shaft, 6, a pressing roller, 7, a driving support column, 8, a lower driving roller, 9, a lower driving motor, 10, a lower conveying belt, 11, a lower support table, 12, a cutter plate groove, 13, a mounting frame, 14, a lower table frame, 15, a driven support column, 16, a lower roller shaft, 17, a lower driven roller, 18, an upper driving roller, 19, an upper driving motor, 20, an upper conveying belt, 21, an upper support table, 22, an upper table frame, 23, a mounting beam, 24, a cutter seat, 25, a cutting cutter plate, 26, an upper driving support column, 27, an upper driven support column, 28, an upper roller shaft and 29 are arranged on the driven roller.

Detailed Description

In order to more clearly illustrate the technical solution of the present invention, the following provides a further description of the present invention with reference to the accompanying drawings, and obviously, the following described drawings are only one embodiment of the present invention, and for those skilled in the art, other embodiments can be obtained according to the drawings and the embodiment without any creative work, and all belong to the protection scope of the present invention.

An abrasive belt high-efficiency cutting machine comprises a roller frame 1, a conveying roller column 2, a motor 3, a driving roller 4, a roller shaft 5, a pressing roller 6, a driving support column 7, a lower driving roller 8, a lower driving motor 9, a lower conveying belt 10, a lower support table 11, a cutter plate groove 12, a mounting frame 13, a lower table frame 14, a driven support column 15, a lower roller shaft 16, a lower driven roller 17, an upper driving roller 18, an upper driving motor 19, an upper conveying belt 20, an upper support table 21, an upper table frame 22, a mounting beam 23, a cutter holder 24, a cutting cutter plate 25, an upper driving support column 26, an upper driven support column 27, an upper roller shaft 28 and an upper driven roller 29, wherein the roller frame 1 is symmetrically mounted on the right side of the conveying roller column 2 in a front-back mode in a group mode in a workshop, the motor 3 is mounted on the side wall of the front end portion of the conveying roller column 2 through a motor support, the driving roller, the pressing roller 6 is installed on the conveying roller column 2 in a matched mode through a roller shaft 5, the extending end of a roller shaft of the driving roller 4 is connected to a power output shaft of the motor 3 through a speed reducer, the pressing roller 6 and the driving roller 4 are installed in a vertically symmetrical micro-gap matched mode, the driving support columns 7 are symmetrically installed on the left side of the conveying roller column 2 in a front-back mode in groups of 2, the lower driving roller 8 is installed on the driving support columns 7 in a matched mode through the roller shaft, the lower driving motor 9 is installed on the side wall of the front end portions of the driving support columns 7 through a motor support, the extending end of the roller shaft of the lower driving roller 8 is connected to the power output shaft of the lower driving motor 9 through the speed reducer, the lower conveying belt 10 is installed between the lower driving roller 8 and the lower driven roller 17 in a tensioned mode, the lower support table 11 is arranged in the middle of a lower drive roller 8 and a lower driven roller 17, the lower rack 14 is divided into 2 groups and is symmetrically and rigidly arranged on the floor of a workshop front and back, the driven support columns 15 are divided into 2 groups and are symmetrically and rigidly arranged on the floor of the workshop front and back, the lower driven roller 17 is arranged on the driven support columns 15 through a lower roller shaft 16 in a matching way, the upper drive roller 18 is arranged on an upper drive support column 26 through a roller shaft in a matching way, an upper drive motor 19 is arranged on the side wall of the front end part of the upper drive support column 26 through a motor bracket, the extending end of the roller shaft of the upper drive roller 18 is connected with a power output shaft of the upper drive motor 19 through a speed reducer, an upper conveyor belt 20 is arranged between the upper drive roller 18 and an upper driven roller 29 in a tensioning, the upper rack 22 is rigidly and symmetrically arranged on the mounting beam 23 in a front-back manner in groups of 2, the mounting beam 23 is rigidly arranged on the top end of the mounting frame 13, the tool apron 24 is arranged on the end face of the outer side of the upper conveyor belt 20, the cutting tool plate 25 is rigidly arranged on the tool apron 24, the upper driving support columns 26 are rigidly and symmetrically arranged on the mounting beam 23 in a front-back manner in groups of 2, the upper driven support columns 27 are rigidly and symmetrically arranged on the mounting beam 23 in a front-back manner in groups of 2, and the upper driven rollers 29 are arranged on the driven support columns 27 on the upper driven rollers 29.

In detail, the finished rolled abrasive belt is placed on the upper portion of the roll frame 1, the knife board groove 12 is arranged at a position which is vertically symmetrical to the installation position of the cutting knife board 25, and the automatic discharging and stacking device is installed on the left side of the driven support column 15.

The above embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and the protection scope of the present invention is defined by the claims. Various modifications and equivalents of the invention can be made by those skilled in the art within the spirit and scope of the invention, and such modifications and equivalents should also be considered as falling within the scope of the invention.

Claims (4)

1. The utility model provides a high-efficient guillootine in abrasive band, including winding up roller frame (1), conveying roller (2), motor (3), driving roll (4), roller (5), pinch roller (6), drive support column (7), lower drive roller (8), lower driving motor (9), lower conveyer belt (10), lower supporting platform (11), cutting board groove (12), mounting bracket (13), lower rack (14), passive support column (15), lower roll shaft (16), lower passive roller (17), go up drive roller (18), go up driving motor (19), go up conveyer belt (20), go up supporting platform (21), go up rack (22), installation roof beam (23), blade holder (24), cutting knife board (25), go up drive support column (26), go up passive support column (27), go up roller shaft (28), go up passive roller (29), its characterized in that: the roller frame (1) is symmetrically arranged on the right side of the conveying roller column (2) in the front-back direction of the 2 groups, the conveying roller column (2) is symmetrically arranged on the ground of a workshop in the front-back direction of the 2 groups, the motor (3) is arranged on the side wall of the front end part of the conveying roller column (2) through a motor support, the driving roller (4) is arranged on the conveying roller column (2) through the cooperation of a roller shaft, the pressing roller (6) is arranged on the conveying roller column (2) through the cooperation of a roller shaft (5), the extending end of the roller shaft of the driving roller (4) is connected to the power output shaft of the motor (3) through a speed reducer, the pressing roller (6) and the driving roller (4) are arranged in a vertically symmetrical micro-gap matched mode, the driving support column (7) is symmetrically arranged on the left side of the conveying roller column (2) in the front-back direction of the 2 groups, the lower driving roller (8), the lower driving roller (8) is connected with a power output shaft of a lower driving motor (9) through a speed reducer, a lower conveying belt (10) is connected and installed between the lower driving roller (8) and a lower driven roller (17), a lower supporting table (11) is rigidly installed on a lower rack (14), a blade groove (12) is formed in the end face of the outer side of the lower conveying belt (10), an installation frame (13) is rigidly installed on the ground of a workshop, the lower supporting table (11) is installed in the middle position of the lower driving roller (8) and the lower driven roller (17), the lower rack (14) is divided into 2 groups and symmetrically and rigidly installed on the ground of the workshop, the driven supporting columns (15) are divided into 2 groups and symmetrically and rigidly installed on the ground of the workshop, the lower driven roller (17) is installed on the driven supporting columns (15) through the cooperation of a lower roller shaft (16), and the upper driving roller (18) is installed on an upper driving, the upper driving motor (19) is installed on the side wall of the front end part of an upper driving support column (26) through a motor support, the extending end of a roller shaft of the upper driving roller (18) is connected to a power output shaft of the upper driving motor (19) through a speed reducer, the upper conveying belt (20) is installed between the upper driving roller (18) and an upper driven roller (29) in a tensioning connection mode, the upper supporting table (21) is installed at the middle position of the upper driving roller (18) and the upper driven roller (29), the upper supporting table (21) is installed on the upper table (22) in a rigid mode, the upper table (22) is installed on an installation beam (23) in a rigid mode in groups in a front-back symmetrical mode in 2 groups, the installation beam (23) is installed at the top end of the installation frame (13) in a rigid mode, the cutter base (24) is installed on the outer side end face of the upper conveying belt (20), the cutting cutter plate (25) is installed on the cutter, the upper driven supporting columns (27) are divided into 2 groups and are rigidly and symmetrically arranged on the mounting beam (23) front and back, and the upper driven roller (29) is arranged on the upper driven supporting columns (27) of the upper driven roller (29) in a matching way through an upper roller shaft (28).

2. The belt efficient cutting machine of claim 1, wherein the roll-shaped belt product is placed on the upper part of the roll frame (1).

3. The belt efficient cutting machine of claim 1, wherein the knife plate groove (12) is arranged at a position which is vertically symmetrical to a mounting position of the cutting knife plate (25).

4. The belt efficient cutting machine of claim 1, wherein an automatic discharging and stacking device is installed on the left side of the passive support column (15).

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