CN222612534U - Feeding mechanism of asynchronous die cutting machine - Google Patents

Abstract

The utility model discloses a feeding mechanism of an asynchronous die cutting machine, and belongs to the field of die cutting machines. The utility model discloses a feeding mechanism of an asynchronous die cutting machine, which comprises a die cutting machine box body, an operating platform fixed on the top of the die cutting machine box body, and a die cutting platform fixed on the top of the operating platform, wherein the end part of the operating platform is fixedly connected with a clamping frame, two sides of the clamping frame are rotatably connected with a material receiving roller, the feeding mechanism also comprises a movable frame which rotates around the side wall of the operating platform, wherein the side wall of the operating platform is rotatably connected with an adjusting shaft, the movable frame is sleeved and fixed on the outer wall of the adjusting shaft, two sides of the movable frame are rotatably connected with a material discharging roller, and a positioning block which slides in a direction perpendicular to the feeding direction.

Description

Feeding mechanism of asynchronous die cutting machine

Technical Field

The utility model relates to the technical field of die cutting machines, in particular to a feeding mechanism of an asynchronous die cutting machine.

Background

The working principle of the die cutting machine is that a die cutter, a steel knife, a hardware die and a steel wire are utilized, a certain pressure is applied through an embossing plate, and a printing product or a paperboard is rolled and cut into a certain shape.

The utility model provides an go up asynchronous cross cutting machine material loading transmission structure of publicity number "CN216335735U", which comprises an operation box, the upper end fixedly connected with workstation of control box, the right-hand member of workstation rotates the connecting with the wind-up roll, the upper end fixedly connected with loading board of workstation, the inner chamber of loading board is excavated and is had the spout, the upper end sliding connection of spout has the slide, the upper end fixedly connected with backup pad of slide, the outside of upper end extension to the loading board of backup pad, the right-hand member fixedly connected with L template of backup pad, the right-hand member cover of L template is equipped with the pivot, the lower extreme fixedly connected with gyro wheel of pivot can realize going up the in-process of asynchronous cross cutting machine material loading, carry out spacingly through adjustable gyro wheel to the main material of different width and auxiliary material, improve the coincide degree of main material and auxiliary material, main material and auxiliary material formation dislocation when carrying out the cross cutting, the yields of processing product is improved, the waste of raw materials is avoided.

The die material feeding device has the following defects that firstly, in the feeding and receiving processes, the inclination angle of the die material is changed due to the increase or decrease of the overall diameter of the die material, if the inclination angle of the die material is too large, the die material is excessively pulled to cause the breakage of the die material, and at the moment, the device is required to be stopped for maintenance, so that the feeding efficiency is reduced. Therefore, a feeding mechanism of an asynchronous die-cutting machine is provided.

Disclosure of utility model

The utility model aims to solve the problems that in the prior art, the inclination angle of a die material is changed in the feeding and receiving processes, and the die material is easy to break due to excessive pulling, so that the overall feeding efficiency is reduced.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

The feeding mechanism of the asynchronous die-cutting machine comprises a die-cutting machine box body, an operating platform fixed at the top of the die-cutting machine box body, a die-cutting table fixed at the top of the operating platform, clamping frames fixedly connected to the end parts of the operating platform, two sides of the clamping frames are rotatably connected with receiving rollers, a movable frame rotating around the side wall of the operating platform, an adjusting shaft is rotatably connected to the side wall of the operating platform, the movable frame is fixedly sleeved on the outer wall of the adjusting shaft, discharging rollers are rotatably connected between the movable frames on the two sides of the movable frame, positioning blocks sliding in the direction perpendicular to the feeding direction are symmetrically arranged along the center of a long shaft of the operating platform, and limiting sliding grooves are formed in one sides, close to each other, of the positioning blocks.

For conveniently changing the discharging inclination angle, preferably, the side wall of the operating platform is fixedly connected with a fine adjustment motor, and the output end of the fine adjustment motor is in transmission connection with the end part of the adjusting shaft through a first belt pulley group.

In order to avoid the material to deviate, preferably, the top of the operating platform is provided with a displacement chute, the displacement chute is rotationally connected with a threaded rod, the bottom of the positioning block is sleeved on the threaded rod and is in threaded connection with the threaded rod, the side wall of the bottom of the positioning block is attached to the limiting chute to slide, and the directions of threads on two sides of the threaded rod are opposite.

In order to realize self-feeding, preferably, one side of the operation panel, which is close to the movable frame, is fixedly connected with a guide disc, the side wall of the guide disc is rotationally connected with a plurality of groups of guide rods, the top of the guide disc is rotationally connected with two groups of driving rods, the outer walls of the driving rods are sleeved with driving rollers, the two groups of driving rods are in transmission connection through a second belt pulley group, the side wall of the guide disc is fixedly connected with a servo motor, and an output shaft of the servo motor is fixedly connected with the end part of the driving rod.

Further, the driving roller is provided with three groups along the driving rod, and the distance from the outer wall of the driving roller to the outer wall of the guide rod is equal to the thickness of the material.

Further, the clamping frame side wall is rotationally connected with a driven disc, the outer wall of the driven disc is attached to the outer wall of the end part of the material collecting roller and slides, and a rotating shaft of the driven disc is connected with a driving rod through a third belt pulley group in a transmission manner.

In order to change the material receiving inclination angle conveniently, preferably, one side of the top of the operating platform, which is close to the material receiving roller, is fixedly connected with a spring telescopic seat, and two sides of the operating platform are fixedly connected with a steering roller set between the spring telescopic seats.

In order to improve the die cutting effect, preferably, mounting plates are fixedly connected to two sides of the top of the operating platform, and guide roller sets are rotatably connected between the mounting plates.

Compared with the prior art, the utility model provides a feeding mechanism of an asynchronous die-cutting machine, which has the following beneficial effects:

1. this feeding mechanism of asynchronous cross cutting machine through rotatory both sides movable frame to this changes the height of blowing roller, makes the material loading angle of blowing roller upper die material change, avoids the too big in die material inclination, excessively pulls the cracked condition of die material that causes, realizes the protection to the die material, has reduced the maintenance time that the broken mould consumes, has improved material loading efficiency.

2. This feeding mechanism of asynchronous cross cutting machine utilizes servo motor to drive the actuating lever and rotates, with the help of the friction effect of drive roller to the mould material for the mould material passes the guide disc and moves backward, utilizes the transmission effect of third belt pulley group simultaneously, makes the receipts material roller take place to rotate, with this take up the mould material to receiving on the material roller, realizes automatic material loading, has improved the convenience of material loading, has ensured subsequent machining efficiency.

3. This feed mechanism of asynchronous cross cutting machine is through rotating the threaded rod for both sides locating piece rotates along the threaded rod, with this in inserting displacement spout with the mould material card, realizes the spacing to mould material horizontal displacement, avoids the mould material to take place the slope, has improved the stationarity of material loading, has ensured subsequent processingquality.

4. This feeding mechanism of asynchronous cross cutting machine utilizes the tension effect of mould material self through the setting of spring expansion seat and steering roller group, can stimulate steering roller group upward movement to this reduces the mould material inclination, avoids great receipts material inclination to cause the damage to the mould material, has improved the protection effect to the mould material.

Drawings

FIG. 1 is a schematic diagram of a front view overall structure of a feeding mechanism of an asynchronous die-cutting machine according to the present utility model;

FIG. 2 is a schematic diagram of a side view overall structure of a feeding mechanism of an asynchronous die-cutting machine according to the present utility model;

FIG. 3 is a schematic diagram of the internal structure of a limit chute of a feeding mechanism of an asynchronous die-cutting machine;

fig. 4 is a schematic diagram of the internal structure of a spring telescopic seat of a feeding mechanism of an asynchronous die-cutting machine.

In the figure, 1, a die-cutting machine box body; 2, an operation table, 21, a clamping frame, 22, a receiving roller, 3, a die cutting table, 4, a movable frame, 41, an adjusting shaft, 42, a discharging roller, 43, a fine adjustment motor, 44, a first belt pulley group, 5, a positioning block, 51, a limiting chute, 52, a displacement chute, 53, a threaded rod, 6, a guide disc, 61, a guide rod, 62, a driving rod, 63, a driving roller, 64, a second belt pulley group, 65, a servo motor, 7, a driven disc, 71, a third belt pulley group, 8, a spring telescopic seat, 81, a steering roller group, 9, a mounting plate, 91 and a guide roller group.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

In the description of the present utility model, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Examples:

Referring to fig. 1-4, a feeding mechanism of an asynchronous die cutting machine comprises a die cutting machine box 1, an operation table 2 fixed at the top of the die cutting machine box 1, and a die cutting table 3 fixed at the top of the operation table 2, wherein the die cutting table 3 is equipment for realizing die cutting, the prior art is not repeated, the end part of the operation table 2 is fixedly connected with a clamping frame 21, a receiving roller 22 is rotatably connected between the two side clamping frames 21, the feeding mechanism further comprises a movable frame 4 which rotates around the side wall of the operation table 2, wherein the side wall of the operation table 2 is rotatably connected with an adjusting shaft 41, the movable frame 4 is sleeved and fixed on the outer wall of the adjusting shaft 41, a discharging roller 42 is rotatably connected between the two side movable frames 4, a fine tuning motor 43 is fixedly connected with the side wall of the operation table 2, the output end of the fine tuning motor 43 is in transmission connection with the end part of the adjusting shaft 41 through a first belt pulley group 44, and the fine tuning motor 43 is started, the transmission function of the first belt pulley group 44 is utilized to drive the adjusting shaft 41 to rotate, so that the two side movable frames 4 lift the discharging roller 42 rotate, the height of the discharging roller 42 is changed, the feeding roller 42 is prevented from being excessively pulled, the die breakage is avoided, and the die breakage is prevented from being caused, and the die breakage is avoided, and the material consumption is greatly improved; the positioning block 5 sliding along the feeding direction, wherein the positioning block 5 is provided with two groups along the center of the long shaft of the operating platform 2, one side of the two groups of positioning blocks 5, which is close to each other, is provided with a limit chute 51, the top of the operating platform 2 is provided with a displacement chute 52, the displacement chute 52 is rotationally connected with a threaded rod 53, the bottom of the positioning block 5 is sleeved on the threaded rod 53 and is in threaded connection with the threaded rod 53, the side wall of the bottom of the positioning block 5 is in fit sliding with the limit chute 51, the screw thread direction of threaded rod 53 both sides is opposite, rotates threaded rod 53 for both sides locating piece 5 rotates along threaded rod 53, with this in inserting displacement spout 52 with the mould material card, realizes the spacing to mould material horizontal displacement, avoids the mould material to take place the slope, has improved the stationarity of material loading, has ensured subsequent processingquality.

Referring to fig. 1 and 2, in the utility model, a guide disc 6 is fixedly connected to one side of an operation table 2, which is close to a movable frame 4, a plurality of groups of guide rods 61 are rotatably connected to the side wall of the guide disc 6, two groups of driving rods 62 are rotatably connected to the top of the guide disc 6, a driving roller 63 is sleeved on the outer walls of the driving rods 62, three groups of driving rollers 63 are arranged along the driving rods 62, the distance from the outer walls of the driving rollers 63 to the outer walls of the guide rods 61 is equal to the thickness of a material, the two groups of driving rods 62 are in transmission connection through a second belt pulley group 64, a servo motor 65 is fixedly connected to the side wall of the guide disc 6, an output shaft of the servo motor 65 is fixedly connected with the end part of the driving rods 62, a driven disc 7 is rotatably connected to the side wall of the clamping frame 21, the outer walls of the driven disc 7 are in transmission connection with the outer walls of the end parts of a material receiving roller 22, the driving shafts of the driven disc 7 are in transmission connection with the driving rods 62 through a third belt pulley group 71, the driving rods 62 are driven by the servo motor 65 to rotate, and the two groups of driving rods 62 are simultaneously rotated through the transmission actions of the second belt pulley group 64, at the moment, the two groups of driving rods 62 are simultaneously rotated by means of friction effect of the driving belts 63, the friction effect of the material of the driving rollers 63 is enabled to pass through the guide disc 6, the side of the guide disc 6, the side and the driven disc 6 is automatically moved, and then, the material is convenient to rotate by the third transmission roller and the transmission roller 22 and the material receiving roller 22 and the material is in the transmission effect due to the fact that the friction effect and the fact that the friction effect is convenient to the quality is realized.

Referring to fig. 1 and 3, in the utility model, a spring telescopic seat 8 is fixedly connected to one side of the top of an operating platform 2, which is close to a receiving roller 22, a steering roller set 81 is fixedly connected between the spring telescopic seats 8 at two sides, when the inclination angle of a die material between the receiving roller 22 and the steering roller set 81 is large by using the arrangement of the spring telescopic seats 8, the steering roller set 81 can be pulled to move upwards by using the tension action of the die material, so that the inclination angle of the die material is reduced, the damage to the die material caused by the large receiving inclination angle is avoided, and the protection effect of the die material is improved.

Referring to fig. 1 and 2, in the utility model, mounting plates 9 are fixedly connected to both sides of the top of an operation table 2, guide roller sets 91 are rotatably connected between the mounting plates 9, and by using the arrangement of the guide roller sets 91, the die material can be ensured to stably move to the lower part of a die cutting table 3 and be in a straight state, so that the subsequent processing is facilitated, and the processing quality is improved.

Referring to fig. 1-4, when in use, firstly, the mould material passes through the space between the guide rod 61 and the driving roller 63 and is always fixed on the material receiving roller 22 backwards, then the threaded rod 53 is rotated, so that the two side positioning blocks 5 rotate along the threaded rod 53, the mould material is clamped into the displacement chute 52, the limit of the horizontal displacement of the mould material is realized, the inclination of the mould material is avoided, the stability of feeding is improved, then the servo motor 65 is utilized to drive the driving rod 62 to rotate, the transmission function of the second belt pulley group 64 is utilized, the two groups of driving rods 62 are simultaneously rotated, at the moment, the friction effect of the driving roller 63 on the mould material is utilized, the mould material passes through the guide disc 6 and moves backwards, meanwhile, the transmission function of the third belt pulley group 71 is utilized, the friction effect between the driven disc 7 and the material receiving roller 22 is utilized, so that the material receiving roller 22 rotates, the mould material is wound on the material receiving roller 22, the automatic feeding is realized, the convenience of feeding is improved, the reduction of the mould material feeding is realized along with the reduction of the mould material feeding 42, the transmission function of the second belt pulley group 61 is utilized, the material feeding is realized, the material feeding is greatly reduces the material feeding breakage due to the fact that the inclination of the mould material feeding is changed, the upper roll is changed, the upper material feeding is realized, the material feeding is changed, the material feeding is greatly is changed, and the material feeding is broken, and the material feeding is changed, and the material feeding is greatly is changed, and the material feeding due to the high-drawing 4, and the condition is caused by the high material feeding and the high rotation, and the material feeding is caused by the high rotation.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (8)

1. The utility model provides a feed mechanism of asynchronous cross cutting machine, includes cross cutting machine box (1), fixes operation panel (2) at cross cutting machine box (1) top, fixes cross cutting platform (3) at operation panel (2) top, its characterized in that, operation panel (2) tip fixedly connected with joint frame (21), both sides rotate between joint frame (21) and be connected with receipts material roller (22), still include:

a movable frame (4) which rotates around the side wall of the operating platform (2),

The side wall of the operating platform (2) is rotatably connected with an adjusting shaft (41), the movable frames (4) are sleeved and fixed on the outer wall of the adjusting shaft (41), and discharging rollers (42) are rotatably connected between the movable frames (4) at two sides;

A positioning block (5) sliding along the feeding direction,

Two groups of positioning blocks (5) are symmetrically arranged along the center of the long shaft of the operating platform (2), and one side, close to each other, of each positioning block (5) is provided with a limiting sliding groove (51).

2. The feeding mechanism of an asynchronous die cutting machine according to claim 1, wherein a fine adjustment motor (43) is fixedly connected to the side wall of the operating table (2), and the output end of the fine adjustment motor (43) is in transmission connection with the end of the adjusting shaft (41) through a first belt pulley group (44).

3. The feeding mechanism of the asynchronous die cutting machine according to claim 1, wherein a displacement chute (52) is formed in the top of the operating table (2), a threaded rod (53) is rotationally connected to the displacement chute (52), the bottom of the positioning block (5) is sleeved on the threaded rod (53) and is in threaded connection with the threaded rod, the side wall of the bottom of the positioning block (5) is attached to and slides with the limiting chute (51), and the directions of threads on two sides of the threaded rod (53) are opposite.

4. The feeding mechanism of an asynchronous die cutting machine according to claim 1, wherein a guide disc (6) is fixedly connected to one side, close to the movable frame (4), of the operating table (2), a plurality of groups of guide rods (61) are rotatably connected to the side wall of the guide disc (6), two groups of driving rods (62) are rotatably connected to the top of the guide disc (6), driving rollers (63) are sleeved on the outer walls of the driving rods (62), two groups of driving rods (62) are in transmission connection through a second belt pulley group (64), a servo motor (65) is fixedly connected to the side wall of the guide disc (6), and an output shaft of the servo motor (65) is fixedly connected with the end portions of the driving rods (62).

5. The feeding mechanism of an asynchronous die cutting machine according to claim 4, wherein the driving rollers (63) are arranged in three groups along the driving rod (62), and the distance from the outer wall of the driving rollers (63) to the outer wall of the guiding rod (61) is equal to the thickness of the material.

6. The feeding mechanism of an asynchronous die cutting machine according to claim 4, wherein the side wall of the clamping frame (21) is rotationally connected with a driven disc (7), the outer wall of the driven disc (7) is attached to the outer wall of the end part of the receiving roller (22) and slides, and a rotating shaft of the driven disc (7) is in transmission connection with the driving rod (62) through a third belt pulley group (71).

7. The feeding mechanism of an asynchronous die cutting machine according to claim 1, wherein a spring telescopic seat (8) is fixedly connected to one side, close to a receiving roller (22), of the top of the operating table (2), and a steering roller set (81) is fixedly connected between the spring telescopic seats (8) on two sides.

8. The feeding mechanism of an asynchronous die cutting machine according to claim 1, wherein mounting plates (9) are fixedly connected to two sides of the top of the operating table (2), and guide roller groups (91) are rotatably connected between the mounting plates (9).