CN219563430U - High-stability continuous compound asynchronous device - Google Patents

Abstract

The high-stability continuous duplex asynchronous device comprises a frame, a conveying roller group, a cutting roller group, a discharging roller and a mounting frame, wherein the frame, the conveying roller group and the cutting roller group are arranged on the frame at intervals, the discharging roller is arranged above the frame, and the mounting frame is arranged between the frames; the ejection mechanism is arranged on the mounting frame and used for applying pressure to the material belts to adjust the asynchronous distance between the material belts, and comprises a pressing component and a control component used for controlling the moving distance of the pressing component; the guide mechanism is arranged on one side of the ejection mechanism and used for guiding the movement of the material belt. According to the utility model, the ejection mechanism is arranged to apply pressure to the material belts so as to adjust the asynchronous distance between the material belts, so that shaking during asynchronous production of the material belts is avoided, the stability of the material belts during processing is improved, and the die cutting precision of the material belts is further improved.

Description

High-stability continuous compound asynchronous device

Technical Field

The utility model relates to the field of die cutting equipment, in particular to a high-stability continuous compound asynchronous device.

Background

In the prior art, when the material belt is subjected to die cutting, a pause type waiting asynchronous mode or a speed ratio asynchronous mode of a roller cutter machine is generally utilized, however, the phenomenon that the material belt is easy to break due to shaking of the material belt during asynchronous production exists, and the utilization rate of the material belt is not high.

Disclosure of Invention

The utility model aims to provide a high-stability continuous compound asynchronous device so as to solve the problems in the background technology.

The technical scheme of the utility model is as follows: a high-stability continuous compound asynchronous device comprises a frame, a conveying roller set, a cutting roller set, a discharging roller and a discharging roller, wherein the frame is distributed at intervals, the conveying roller set and the cutting roller set are respectively arranged on the frame, the discharging roller is arranged above the frame, and the discharging roller is arranged above the frame

The mounting frame is arranged between the frames;

the ejection mechanism is arranged on the mounting frame and used for applying pressure to the material belts to adjust the asynchronous distance between the material belts, and comprises a pressing component and a control component used for controlling the moving distance of the pressing component;

the guide mechanism is arranged on one side of the ejection mechanism and used for guiding the movement of the material belt.

Further, the pushing component comprises a roll shaft, a pressing rod sleeved on the roll shaft, hanging plates symmetrically arranged at two ends of the roll shaft, and a transverse plate connected with the top end of the hanging plate.

Further, the control assembly comprises a cross beam fixedly connected to the frame, extension plates symmetrically arranged on the cross beam, and a power part arranged on the cross beam and used for driving the cross beam to move up and down, and the extension plates are in sliding fit with the hanging plates.

Further, the power part is an air cylinder or an oil cylinder.

Further, the control assembly further comprises an inward sinking groove formed in the extension plate, a sliding block arranged in the inward sinking groove, and a sliding rail arranged along the hanging plate and in sliding fit with the sliding block.

Further, the guide mechanism comprises a separation plate, a reinforcing plate for connecting the end part of the separation plate with the mounting frame, and an upper inclined plane and a lower inclined plane which are arranged on one side of the separation plate facing the ejection mechanism.

The utility model has the beneficial effects that:

compared with the prior art, the utility model applies pressure to the material belts by arranging the ejection mechanism so as to adjust the asynchronous distance between the material belts, thereby avoiding shaking during asynchronous production of the material belts, improving the stability of the material belts during processing and further improving the die cutting precision of the material belts.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of a control assembly;

FIG. 3 is an enlarged schematic view of FIG. 2 at A;

Detailed Description

The utility model is further illustrated by way of example with reference to the accompanying drawings.

The present embodiment is only for explanation of the present utility model and is not to be construed as limiting the present utility model, and modifications to the present embodiment, which may not creatively contribute to the present utility model as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present utility model.

1-3, a high-stability continuous duplex asynchronous device comprises a frame 1, a conveying roller set 2, a cutting roller set 3, a discharging roller 4 and a discharging roller, wherein the frame 1, the conveying roller set 2 and the cutting roller set 3 are arranged on the frame 1 in a separated mode, and the discharging roller 4 is arranged above the frame 1

The mounting frames 6, the mounting frames 6 are arranged between the frames 1;

the ejection mechanism 5 is arranged on the mounting frame 6 and is used for applying pressure to the material belts to adjust the asynchronous distance between the material belts, wherein the ejection mechanism 5 comprises a pressing component 501 and a control component 502 used for controlling the moving distance of the pressing component 501;

and the guide mechanism 7 is arranged on one side of the ejection mechanism 5 and is used for guiding the movement of the material belt.

According to the utility model, the ejection mechanism 5 is arranged to apply pressure to the material belts so as to adjust the asynchronous distance between the material belts, so that shaking during asynchronous production of the material belts is avoided, and the die cutting precision of the material belts is improved.

In an alternative embodiment of the present utility model, the pressing assembly 501 includes a roller shaft 50101, a pressing rod 50102 sleeved on the roller shaft 50101, hanging plates 50103 symmetrically arranged at two ends of the roller shaft 50101, and a cross plate 50104 connected to the top end of the hanging plate 50103, wherein after the cross plate 50104 is pushed by the control assembly 502, the hanging plate 50103 is driven to move, so that the pressing rod 50102 acts on the material belts to drive the material belts to move, and in actual production, the material belts can be retracted for a certain distance after being pressed by the pressing rod 50102, so as to adjust the asynchronous distance between the material belts.

In an alternative embodiment of the present utility model, the control assembly 502 includes a cross beam 50201 fixedly connected to the frame 1, an extension plate 50202 symmetrically disposed on the cross beam 50201, and a power unit 50203 disposed on the cross beam 50201 for driving the cross beam 50104 to move up and down, wherein the extension plate 50202 and the hanging plate 50103 are slidably engaged.

In an alternative embodiment of the present utility model, the power section 50203 is a cylinder or ram.

In an alternative embodiment of the present utility model, the control assembly 502 further includes an invagination groove 50204 provided on the extension plate 50202, a slide 50205 provided in the invagination groove 50204, and a slide 50206 provided along the hanging plate 50103 and slidingly engaged with the slide 50205, and the movement of the pressing bar 50102 can be guided by the engagement of the slide 50205 and the slide 50206, so that the pressing bar 50102 precisely acts on the surface of the material tape.

In an alternative embodiment of the present utility model, the guiding mechanism 7 includes a partition plate 701, a reinforcing plate 702 connecting the end of the partition plate 701 and the mounting frame 6, and an upper inclined plane 703 and a lower inclined plane 704 provided on a side of the partition plate 701 facing the ejection mechanism 5, and after the material tape is pressed down by the ejection mechanism 5, the material tape moves toward the cutting roller set 3 through the upper inclined plane 703 and the lower inclined plane 704, respectively, and the presence of the upper inclined plane 703 and the lower inclined plane 704 guides the material tape, thereby improving stability during asynchronous production.

Claims (6)

1. The utility model provides a high stability continuous double entry asynchronous device, includes interval distribution's frame (1), divides to establish carry roller group (2) and cutting roller group (3) on frame (1), establishes blowing roller (4) of frame (1) top, its characterized in that: and also comprises

The mounting frame (6), the said mounting frame (6) is set up between the said stander (1);

the ejection mechanism (5) is arranged on the mounting frame (6) and is used for applying pressure to the material belts to adjust asynchronous distances between the material belts, wherein the ejection mechanism (5) comprises a pressing component (501) and a control component (502) for controlling the moving distance of the pressing component (501);

the guide mechanism (7) is arranged on one side of the ejection mechanism (5) and used for guiding the movement of the material belt.

2. The high stability continuous multiple asynchronous device according to claim 1, wherein: the pressing assembly (501) comprises a roll shaft (50101), pressing rods (50102) sleeved on the roll shaft (50101), hanging plates (50103) symmetrically arranged at two ends of the roll shaft (50101), and transverse plates (50104) connected with the top ends of the hanging plates (50103).

3. The high stability continuous multiple asynchronous device according to claim 2, characterized in that: the control assembly (502) comprises a cross beam (50201) fixedly connected to the frame (1), extension plates (50202) symmetrically arranged on the cross beam (50201), and a power part (50203) arranged on the cross beam (50201) and used for driving the cross plate (50104) to move up and down, and the extension plates (50202) are in sliding fit with the hanging plates (50103).

4. A high stability continuous multiple asynchronous device according to claim 3, characterized in that: the power part (50203) is an air cylinder or an oil cylinder.

5. A high stability continuous multiple asynchronous device according to claim 3, characterized in that: the control assembly (502) further comprises an inward sinking groove (50204) formed in the extension plate (50202), a sliding block (50205) arranged in the inward sinking groove (50204), and a sliding rail (50206) arranged along the hanging plate (50103) and in sliding fit with the sliding block (50205).

6. The high stability continuous multiple asynchronous device according to claim 1, wherein: the guide mechanism (7) comprises a partition plate (701), a reinforcing plate (702) connecting the end part of the partition plate (701) with the mounting frame (6), and an upper inclined surface (703) and a lower inclined surface (704) which are arranged on one side of the partition plate (701) facing the ejection mechanism (5).