CN109278101B

CN109278101B - Belt automatic cutting machine

Info

Publication number: CN109278101B
Application number: CN201811373921.7A
Authority: CN
Inventors: 吴宝国; 杨珩山; 陈召锋; 张超
Original assignee: Zaozhuang Wangchao Coal Mine Co ltd
Current assignee: Zaozhuang Wangchao Coal Mine Co ltd
Priority date: 2018-11-19
Filing date: 2018-11-19
Publication date: 2024-04-16
Anticipated expiration: 2038-11-19
Also published as: CN109278101A

Abstract

A front connecting roller shaft is connected between a left front pressing roller frame and a right front pressing roller frame, a front connecting roller is connected to the front connecting roller in an external transmission mode, a front sliding block is connected to the left front pressing roller frame and the right front pressing roller frame in a vertical sliding mode respectively, a lifting screw rod is connected to the front sliding block in a relative rotation mode, a front pressing roller shaft is connected between the left front sliding block and the right front sliding block in a relative rotation mode, a rear connecting roller shaft is connected to the left rear pressing roller frame and the right rear pressing roller frame in a relative rotation mode, a rear pressing roller shaft is connected to the left rear sliding block and the right rear sliding block in a relative rotation mode, a rear pressing roller is connected to the rear pressing roller shaft in an external transmission mode, a blade is fixedly connected to the outside of the cutter shaft, a cutter frame gear is connected to one end of the cutter shaft in a transmission mode, a rear connecting roller gear is connected to one end of the rear connecting roller shaft in a transmission mode, the cutter frame gear and the rear connecting roller gear are located on the same side of the frame, and a motor is fixedly installed on the frame.

Description

Belt automatic cutting machine

Technical Field

The invention relates to a mining tool, in particular to an automatic belt cutting machine.

Background

In coal mine production, belt transportation is one of main transportation ways of coal mine, and the belt is frequently eliminated and updated as a vulnerable part, and the replaced belt can be used for other purposes, such as paint spraying after cutting is used as a warning sign, a distance notice sign, a number sign and the like, at present, the belt cutting is manually operated, and the speed of manually cutting the belt is low and the hand is easy to hurt.

Disclosure of Invention

Aiming at the defects, the invention provides the automatic belt cutting machine which is safe and reliable to use and high in working efficiency.

The technical scheme for solving the technical problems is as follows:

the automatic belt cutting machine comprises a frame (3) and is characterized in that a pair of front press roller frames (11) which are oppositely arranged left and right are fixedly connected to the frame (3), a front connecting roller shaft (14) is oppositely and rotatably connected between the left and right front press roller frames (11), a front connecting roller is externally and movably connected to the front connecting roller shaft (14), front sliding blocks are respectively and vertically slidably connected to the left and right front press roller frames (11), lifting screw rods (10) are oppositely and rotatably connected to the front sliding blocks, the lifting screw rods (10) are in threaded connection with the front press roller frames (11), lifting handles (2) are in transmission connection with the upper ends of the lifting screw rods (10), front press roller shafts (12) are connected between the left and right front sliding blocks, front press rollers (4) are externally and correspondingly arranged in parallel up and down of the front press rollers (4); a pair of rear press roller frames (25) which are oppositely arranged left and right are fixedly connected to the frame (3), a rear connecting roller shaft (20) is connected between the left and right rear press roller frames (25) in a relative rotation mode, a rear connecting roller (26) is connected to the outside of the rear connecting roller shaft (20), front connecting rollers and rear connecting rollers (26) are correspondingly arranged in parallel, rear sliding blocks (27) are respectively connected to the left and right rear press roller frames (25) in a sliding mode up and down mode, lifting screw rods (10) are respectively connected to the left and right rear press roller frames (27) in a relative rotation mode, the lifting screw rods (10) are connected with the rear press roller frames (25) in a threaded mode, lifting handles (2) are connected to the upper ends of the lifting screw rods (10) in a transmission mode, rear press roller shafts (22) are connected to the outside of the left and right rear slide blocks (27), the rear press rollers (7) are correspondingly arranged in parallel up and down mode, and the front press rollers (4) and the rear press rollers (7) are correspondingly arranged in parallel; a cutter shaft (17) is connected on the frame (3) between the front connecting roller and the rear connecting roller (26) in a relative rotation way, the cutter shaft (17) is parallel to the front press roller (4), a blade (8) is fixedly connected outside the cutter shaft (17), and the blade (8) is mutually perpendicular to the cutter shaft (17); one end of the cutter shaft (17) is in transmission connection with a cutter frame gear (16), one end of the rear connecting roller shaft (20) is in transmission connection with a rear connecting roller gear (21), the cutter frame gear (16) and the rear connecting roller gear (21) are both positioned on the same side of the frame (3), a motor (1) is fixedly mounted on the frame (3), the motor (1) is in transmission connection with a driving gear (19), and the driving gear (19) is meshed with the cutter frame gear (16) and the rear connecting roller gear (21) simultaneously.

The automatic belt cutting machine is characterized in that one end of the front connecting roller shaft (14) is in transmission connection with a front connecting roller gear (13), one end of the rear pressing roller shaft (22) is in transmission connection with a rear pressing roller gear (23), and the front connecting roller gear (13) and the rear pressing roller gear (23) are both positioned on the side of the driving gear (19); the machine frame (3) is also relatively rotated with a front planetary gear (15) and a rear planetary gear (18), the front planetary gear (15) is simultaneously meshed with the cutter frame gear (16) and the front connecting roller gear (13), and the rear planetary gear (18) is simultaneously meshed with the driving gear (19) and the rear pressing roller gear (23).

The automatic belt cutting machine is characterized in that a cutter pressing sleeve (29) is sleeved outside the cutter shaft (17), the cutter blade (8) is fixedly connected to the outside of the cutter pressing sleeve (29), the cutter blade (8) is mutually perpendicular to the cutter pressing sleeve (29), a baffle plate (31) is fixedly connected to the outer portion of the cutter shaft (17) at one end of the cutter pressing sleeve (29), a compression nut (30) is connected to the outer screw thread of the cutter shaft (17) at the other end of the cutter pressing sleeve (29), and the cutter pressing sleeve (29) is fixedly connected to the cutter shaft (17) through the baffle plate (31) and the compression nut (30).

The automatic belt cutting machine is characterized in that a plurality of blades (8) are fixedly connected to the outside of the cutter pressing sleeve (29).

The automatic belt cutting machine is characterized in that the blades (8) are uniformly distributed outside the cutter pressing sleeve (29) at equal intervals.

The automatic belt cutting machine is characterized in that a cutter platform (5) is fixedly connected to the frame (3), a cutter groove (6) penetrating up and down is formed in the cutter platform (5), the cutter groove (6) corresponds to the cutter blade (8), and the upper end of the cutter blade (8) penetrates out to the upper side of the cutter groove (6).

The automatic belt cutting machine is characterized in that the rear end of the frame (3) is fixedly connected with a belt bracket (9), and the front end of the belt bracket (9) is positioned between the rear press roller (7) and the rear connecting roller (26).

The automatic belt cutting machine is characterized in that a gear plate (32) is fixedly connected to the frame (3), and the rear planetary gears (18) are rotatably installed on the gear plate (32) relatively.

The automatic belt cutting machine is characterized in that an adjusting groove (24) which runs up and down is formed in the front press roll frame (11), and the outer end of the front press roll shaft (12) is movably arranged in the adjusting groove (24) up and down; an adjusting groove (24) which runs up and down is formed in the compression roller frame (25), and the outer end of the rear connecting roller shaft (20) is movably arranged in the adjusting groove (24) up and down.

The automatic belt cutting machine is characterized in that bearing seats (28) which are correspondingly arranged left and right are fixedly connected to the frame (3), and two ends of the cutter shaft (17) are in relative rotary connection with the bearing seats (28).

The invention relates to belt cutting equipment which can automatically cut a belt, when the belt cutting equipment is used, an old belt is firstly laid on a belt bracket in a flat way, a rear press roller is pressed against the front end of the belt by adjusting a lifting screw, at the moment, a press roller gear on one side of the press roller is meshed with a planetary gear, and the planetary gear is meshed with a driving gear. The motor is turned on to drive the driving gear to rotate, the rear press roller gear is driven by the planet gear to rotate to drive the rear press roller to rotate, so that the belt moves forwards, meanwhile, the cutter frame gear is also rotated under the driving of the driving gear, and the belt is cut into strips by the rotation of the blade when passing through the cutter platform in the forward movement process, and then the strips can be further cut to be used for different purposes.

The invention replaces the traditional manual operation by the machine work, greatly improves the working efficiency and has high safety performance.

Drawings

FIG. 1 is a schematic top view of the present invention;

FIG. 2 is a left side view of the present invention;

FIG. 3 is a right side view of the present invention;

FIG. 4 is a schematic view of the structure of the tool shaft according to the present invention;

FIG. 5 is a schematic view of the structure of the front or rear press roller of the present invention;

fig. 6 is a left-hand structural schematic diagram of fig. 5.

In the accompanying drawings:

1. a motor; 2. a lifting handle; 3. a frame; 4. a front press roller; 5. a tool platform; 6. a knife slot; 7. a rear press roller; 8. a blade; 9. a belt bracket; 10. lifting the screw rod; 11. a front press roll frame; 12. a front roller shaft; 13. a front connecting roller gear; 14. the front connecting roll shaft; 15. a front planetary gear; 16. a cutter frame gear; 17. a cutter shaft; 18. a rear planetary gear; 19. a drive gear; 20. the rear connecting roll shaft; 21. a rear connecting roller gear; 22. a rear press roll shaft; 23. a rear press roller gear; 24. an adjustment tank; 25. a rear press roll frame; 26. a rear connecting roller; 27. a rear slider; 28. a bearing seat; 29. a cutter pressing sleeve; 30. a compression nut; 31. a baffle; 32. a gear plate.

Detailed Description

The principles and features of the present invention are described below with reference to the drawings, the examples are illustrated for the purpose of illustrating the invention and are not to be construed as limiting the scope of the invention.

As shown in fig. 1 to 6, the belt automatic cutting machine comprises a frame (3), wherein a pair of front press roller frames (11) which are oppositely arranged left and right are fixedly connected on the frame (3), a front connecting roller shaft (14) is oppositely and rotatably connected between the left and right front press roller frames (11), a front connecting roller is externally and rotatably connected with the front connecting roller (14), front sliding blocks are respectively and vertically connected on the left and right front press roller frames (11), a lifting screw rod (10) is oppositely and rotatably connected with the front press roller frames (11), the lifting screw rod (10) is in threaded connection with the front press roller frames (11), a lifting handle (2) is in transmission connection with the upper end of the lifting screw rod (10), a front press roller shaft (12) is connected between the left and right front sliding blocks, a front press roller (4) is externally and correspondingly and parallelly arranged up and down of the front press roller (4) and the front connecting roller; a pair of rear press roller frames (25) which are oppositely arranged left and right are fixedly connected to the frame (3), a rear connecting roller shaft (20) is connected between the left and right rear press roller frames (25) in a relative rotation mode, a rear connecting roller (26) is connected to the outside of the rear connecting roller shaft (20), front connecting rollers and rear connecting rollers (26) are correspondingly arranged in parallel, rear sliding blocks (27) are respectively connected to the left and right rear press roller frames (25) in a sliding mode up and down mode, lifting screw rods (10) are respectively connected to the left and right rear press roller frames (27) in a relative rotation mode, the lifting screw rods (10) are connected with the rear press roller frames (25) in a threaded mode, lifting handles (2) are connected to the upper ends of the lifting screw rods (10) in a transmission mode, rear press roller shafts (22) are connected to the outside of the left and right rear slide blocks (27), the rear press rollers (7) are correspondingly arranged in parallel up and down mode, and the front press rollers (4) and the rear press rollers (7) are correspondingly arranged in parallel; a cutter shaft (17) is connected on the frame (3) between the front connecting roller and the rear connecting roller (26) in a relative rotation way, the cutter shaft (17) is parallel to the front press roller (4), a blade (8) is fixedly connected outside the cutter shaft (17), and the blade (8) is mutually perpendicular to the cutter shaft (17); one end of the cutter shaft (17) is in transmission connection with a cutter frame gear (16), one end of the rear connecting roller shaft (20) is in transmission connection with a rear connecting roller gear (21), the cutter frame gear (16) and the rear connecting roller gear (21) are both positioned on the same side of the frame (3), a motor (1) is fixedly mounted on the frame (3), the motor (1) is in transmission connection with a driving gear (19), and the driving gear (19) is meshed with the cutter frame gear (16) and the rear connecting roller gear (21) simultaneously.

In the embodiment, one end of the front connecting roller shaft (14) is in transmission connection with a front connecting roller gear (13), one end of the rear pressing roller shaft (22) is in transmission connection with a rear pressing roller gear (23), and the front connecting roller gear (13) and the rear pressing roller gear (23) are both positioned on the side of the driving gear (19); the machine frame (3) is also relatively rotated with a front planetary gear (15) and a rear planetary gear (18), the front planetary gear (15) is simultaneously meshed with the cutter frame gear (16) and the front connecting roller gear (13), and the rear planetary gear (18) is simultaneously meshed with the driving gear (19) and the rear pressing roller gear (23).

The cutter shaft (17) is sleeved with the cutter pressing sleeve (29), the cutter blade (8) is fixedly connected to the outside of the cutter pressing sleeve (29), the cutter blade (8) is perpendicular to the cutter pressing sleeve (29), a baffle plate (31) is fixedly connected to the outer portion of the cutter shaft (17) at one end of the cutter pressing sleeve (29), a compression nut (30) is connected to the outer screw thread of the cutter shaft (17) at the other end of the cutter pressing sleeve (29), and the cutter pressing sleeve (29) is fixedly connected to the cutter shaft (17) through the baffle plate (31) and the compression nut (30). The outside of the cutter pressing sleeve (29) is fixedly connected with a plurality of blades (8). The blades (8) are uniformly distributed outside the cutter pressing sleeve (29) at equal intervals.

The cutting tool is characterized in that a cutter platform (5) is fixedly connected to the frame (3), a cutter groove (6) penetrating up and down is formed in the cutter platform (5), the cutter groove (6) corresponds to the blade (8), and the upper end of the blade (8) penetrates out to the upper side of the cutter groove (6).

The rear end of the frame (3) is fixedly connected with a belt bracket (9), and the front end of the belt bracket (9) is positioned between the rear press roller (7) and the rear connecting roller (26).

The rack (3) is fixedly connected with a gear plate (32), and the rear planetary gears (18) are rotatably arranged on the gear plate (32) relatively.

An adjusting groove (24) which runs up and down is formed in the front roller frame (11), and the outer end of the front roller shaft (12) is movably arranged in the adjusting groove (24) up and down; an adjusting groove (24) which runs up and down is formed in the compression roller frame (25), and the outer end of the rear connecting roller shaft (20) is movably arranged in the adjusting groove (24) up and down.

The machine frame (3) is fixedly connected with left and right bearing seats (28) which are correspondingly arranged, and two ends of the cutter shaft (17) are in relative rotary connection with the bearing seats (28).

In the invention, the front press roller (4) and the front connecting roller can be in up-and-down adjusting contact separation, and the rear press roller (7) and the rear connecting roller (26) can be in up-and-down adjusting contact separation.

Claims

1. The automatic belt cutting machine comprises a frame (3) and is characterized in that a pair of front press roller frames (11) which are oppositely arranged left and right are fixedly connected to the frame (3), a front connecting roller shaft (14) is oppositely and rotatably connected between the left and right front press roller frames (11), a front connecting roller is externally and movably connected to the front connecting roller shaft (14), front sliding blocks are respectively and vertically slidably connected to the left and right front press roller frames (11), lifting screw rods (10) are oppositely and rotatably connected to the front sliding blocks, the lifting screw rods (10) are in threaded connection with the front press roller frames (11), lifting handles (2) are in transmission connection with the upper ends of the lifting screw rods (10) connected with the front sliding blocks, front press roller shafts (12) are connected between the left and right front sliding blocks, front press rollers (4) are correspondingly and parallelly arranged up and down of the front press rollers (4); a pair of rear press roller frames (25) which are oppositely arranged left and right are fixedly connected to the frame (3), a rear connecting roller shaft (20) is connected between the left and right rear press roller frames (25) in a relative rotation mode, a rear connecting roller (26) is connected to the rear connecting roller shaft (20) in an external transmission mode, a front connecting roller and the rear connecting roller (26) are correspondingly arranged in parallel, rear sliding blocks (27) are respectively connected to the left and right rear press roller frames (25) in a sliding mode, lifting screw rods (10) are respectively connected to the left and right rear press roller frames (27) in a sliding mode, the lifting screw rods (10) are connected with the rear press roller frames (25) in a threaded mode, lifting handles (2) are connected to the upper ends of the lifting screw rods (10) connected with the rear sliding blocks (27) in a transmission mode, rear press roller shafts (22) are connected to the rear press roller shafts (22) in an external transmission mode, and rear press rollers (7) are correspondingly arranged in parallel to the front and the rear press rollers (7) in a sliding mode, and the rear press rollers (26) are correspondingly arranged in a sliding mode in front and back mode; a cutter shaft (17) is connected on the frame (3) between the front connecting roller and the rear connecting roller (26) in a relative rotation way, the cutter shaft (17) is parallel to the front press roller (4), a blade (8) is fixedly connected outside the cutter shaft (17), and the blade (8) is mutually perpendicular to the cutter shaft (17); one end of the cutter shaft (17) is in transmission connection with a cutter frame gear (16), one end of the rear connecting roller shaft (20) is in transmission connection with a rear connecting roller gear (21), the cutter frame gear (16) and the rear connecting roller gear (21) are both positioned on the same side of the frame (3), a motor (1) is fixedly mounted on the frame (3), the motor (1) is in transmission connection with a driving gear (19), and the driving gear (19) is meshed with the cutter frame gear (16) and the rear connecting roller gear (21) simultaneously.

2. The automatic belt cutting machine according to claim 1, wherein one end of the front connecting roller shaft (14) is in transmission connection with a front connecting roller gear (13), one end of the rear pressing roller shaft (22) is in transmission connection with a rear pressing roller gear (23), and the front connecting roller gear (13) and the rear pressing roller gear (23) are both positioned on the side of the driving gear (19); the machine frame (3) is also relatively rotated with a front planetary gear (15) and a rear planetary gear (18), the front planetary gear (15) is simultaneously meshed with the cutter frame gear (16) and the front connecting roller gear (13), and the rear planetary gear (18) is simultaneously meshed with the driving gear (19) and the rear pressing roller gear (23).

3. The automatic belt cutting machine according to claim 1, wherein the cutter shaft (17) is sleeved with a cutter pressing sleeve (29), the cutter blade (8) is fixedly connected to the outside of the cutter pressing sleeve (29), the cutter blade (8) is mutually perpendicular to the cutter pressing sleeve (29), a baffle plate (31) is fixedly connected to the outside of the cutter shaft (17) at one end of the cutter pressing sleeve (29), a compression nut (30) is connected to the outside screw thread of the cutter shaft (17) at the other end of the cutter pressing sleeve (29), and the cutter pressing sleeve (29) is fixedly connected to the cutter shaft (17) through the baffle plate (31) and the compression nut (30).

4. A belt automatic cutter according to claim 3, characterized in that said blade (8) is fixedly connected to the outside of said presser sleeve (29).

5. The automatic belt cutter as claimed in claim 4, wherein the blades (8) are equally spaced apart from the cutter pressing sleeve (29).

6. The automatic belt cutting machine according to claim 1, wherein the frame (3) is fixedly connected with a cutter platform (5), a cutter groove (6) penetrating up and down is formed in the cutter platform (5), the cutter groove (6) corresponds to the cutter blade (8), and the upper end of the cutter blade (8) penetrates out to the upper side of the cutter groove (6).

7. The automatic belt cutting machine according to claim 2, characterized in that the rear end of the frame (3) is fixedly connected with a belt bracket (9), and the front end of the belt bracket (9) is positioned between the rear press roller (7) and the rear connecting roller (26).

8. The automatic belt cutter according to claim 2, wherein a gear plate (32) is fixedly connected to the frame (3), and the rear planetary gear (18) is relatively rotatably mounted on the gear plate (32).

9. The automatic belt cutting machine according to claim 1, wherein an adjusting groove (24) running up and down is formed in the front press roller frame (11), and the outer end of the front press roller shaft (12) is movably arranged in the adjusting groove (24) up and down; an adjusting groove (24) which runs up and down is formed in the compression roller frame (25), and the outer end of the rear connecting roller shaft (20) is movably arranged in the adjusting groove (24) up and down.

10. The automatic belt cutting machine according to claim 1, wherein the frame (3) is fixedly connected with bearing seats (28) correspondingly arranged on the left and right, and two ends of the cutter shaft (17) are rotatably connected with the bearing seats (28) relatively.