CN212075840U - Double-station circular die cutting machine - Google Patents

Abstract

The utility model relates to a circular die cutting machine's technical field discloses a duplex position circular die cutting machine, make first die-cutting mechanism different with the ejection of compact speed of second die-cutting mechanism when the cross cutting size of first die-cutting mechanism and second die-cutting mechanism is different, can realize the compensation of material, promptly when the ejection of compact of first die-cutting mechanism is slow, the slider is close to first die-cutting mechanism and slides, thereby shorten the ejection of compact distance of first die-cutting mechanism, prolong the ejection of compact distance of second die-cutting mechanism simultaneously, when the ejection of compact of first die-cutting mechanism is very fast, first die-cutting mechanism is kept away from to the slider, thereby prolong the ejection of compact distance of first die-cutting mechanism, shorten the ejection of compact distance of second die-cutting mechanism, make material transmission speed remain stable all the time, the transportation process of material is stable, avoid appearing situations such as card material, improve cross cutting quality and efficiency.

Description

Double-station circular die cutting machine

Technical Field

The utility model relates to a technical field of circle cross cutting machine especially relates to a duplex position circle cross cutting machine.

Background

In the current die cutting industry, the die cutting machine mainly comprises three types of circular pressing, circular pressing and flat pressing. The circular knife die-cutting machine has the advantages of being high in efficiency and capable of achieving processing of products of complex processes such as multi-layer material compounding and waste discharge.

The existing double-station die cutting machine is a device for die cutting by arranging two die cutting stations in order to guarantee the die cutting quality of a product or meet different die cutting requirements, and in specific production, when the die cutting sizes of the two stations are inconsistent, due to the fact that the unreeling speed and the reeling speed are inconvenient, the materials can be conveyed unsmoothly in the conveying process, the material blocking and other conditions are prone to occurring, and the die cutting quality and efficiency are affected.

Disclosure of Invention

The utility model aims at providing a duplex position circle cross cutting machine to solve current duplex position cross cutting machine when the cross cutting size of two stations is inconsistent, owing to unreel with the speed of rolling inconvenient, make the material can appear carrying smoothly in transportation process, appear situations such as card material easily, influence the problem of cross cutting quality and efficiency.

In order to solve the problems, the utility model provides a double-station circular die cutting machine, which comprises a frame wallboard, an unreeling mechanism, a traction mechanism, a first die cutting mechanism, a second die cutting mechanism, a waste collecting mechanism, a splitting mechanism, a reeling mechanism and a compensation aligning mechanism, wherein the unreeling mechanism is arranged on the frame wallboard and used for unreeling materials, the traction mechanism is used for drawing the materials, the waste collecting mechanism is used for collecting waste materials after die cutting, the reeling mechanism is used for reeling the materials after die cutting, the compensation aligning mechanism comprises a linear rail, a sliding block arranged on the linear rail in a sliding way, and a driving mechanism used for driving the sliding block to slide along the linear rail, a first sliding guide roller and a second sliding guide roller are respectively arranged at two ends of the sliding block, a front guide roller and a rear guide roller are respectively arranged at two sides of the linear rail on the frame wallboard, the front guide roller comprises a first front guide roller and a second front guide roller, the rear, first preceding deflector roll first slip deflector roll the second slip deflector roll and the deflector roll is located collinear behind the second, the material of first die cutting mechanism output passes through in proper order first preceding deflector roll first slip deflector roll, the preceding deflector roll of second the second die cutting mechanism first back deflector roll the second slip deflector roll and the deflector roll input extremely behind the second cutting mechanism.

Furthermore, the first die-cutting mechanism and the second die-cutting mechanism are arranged on the rack wallboard in a left-right parallel mode.

Furthermore, a deviation rectifying mechanism is arranged behind the unwinding mechanism.

Furthermore, the traction mechanism comprises a front traction mechanism and a rear traction mechanism, the front traction mechanism is arranged in front of the first die-cutting mechanism, and the rear traction mechanism is arranged behind the second die-cutting mechanism.

Further, cut the deflector roll of cutting that the mechanism includes upper and lower pair arrangement, cut the deflector roll and include that pivot and interval are located a plurality of sword teeth in the pivot.

Further, actuating mechanism includes driving pulley, driven pulleys, hold-in range and is used for the drive driving pulley pivoted power supply, the hold-in range is located driving pulley with between the driven pulleys, sliding connection in on the hold-in range.

The utility model provides a double-station circular die cutting machine, an unreeling mechanism is used for unreeling materials, the materials are drawn by a traction mechanism to pass through a first die cutting mechanism, a second die cutting mechanism, a waste collecting mechanism and a cutting mechanism, finally, die cutting and cut materials are reeled by a reeling mechanism, a compensation contraposition mechanism is arranged between the first die cutting mechanism and the second die cutting mechanism, concretely, when the die cutting sizes of the first die cutting mechanism and the second die cutting mechanism are different, the discharging speeds of the first die cutting mechanism and the second die cutting mechanism are different, a driving mechanism can drive a sliding block to slide along a linear rail, the compensation of the materials is realized through the matching of a first sliding guide roller, a second sliding guide roller, a first rear guide roller and a second rear guide roller, namely, when the discharging of the first die cutting mechanism is slow, the sliding block slides close to the first die cutting mechanism, thereby the discharging distance of the first die cutting mechanism is shortened, simultaneously prolong the ejection of compact distance of second die-cutting mechanism, when the ejection of compact of first die-cutting mechanism is very fast, first die-cutting mechanism is kept away from to the slider to the ejection of compact distance of first die-cutting mechanism is prolonged, shortens the ejection of compact distance of second die-cutting mechanism, makes material transmission speed remain stable throughout, and the transportation process of material is stable, avoids appearing situations such as card material, improves cross cutting quality and efficiency.

Drawings

Fig. 1 is a schematic front view structure diagram of a double-station circular die cutting machine according to an embodiment of the present invention.

Fig. 2 is a schematic top view of the double-station circular die cutting machine according to the embodiment of the present invention.

In the figure, 1, a frame wall plate; 2. an unwinding mechanism; 31. a front traction mechanism; 32. a rear traction mechanism; 4. a first die-cutting mechanism; 5. a second die-cutting mechanism; 6. a waste collection mechanism; 7. a slitting mechanism; 8. a winding mechanism; 9. a compensation alignment mechanism; 10. a deviation rectifying mechanism; 41. a knife roll; 42. a backing roll; 71. slitting guide rollers; 72. a rotating shaft; 73. cutter teeth; 901. a wire track; 902. a slider; 903. a driving pulley; 904. a driven pulley; 905. a synchronous belt; 906. a first sliding guide roller; 907. a second sliding guide roller; 908. a first leading roller; 909. a second leading roller; 910. a first rear guide roller; 911. a second rear guide roller.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", "top", "bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

Referring to fig. 1 and 2, a double-station circular die cutting machine according to an embodiment of the present invention is schematically shown, which includes a rack wall panel 1, an unwinding mechanism 2 disposed on the rack wall panel 1 for unwinding a material, a traction mechanism for traction the material, a first die cutting mechanism 4, a second die cutting mechanism 5, a waste collecting mechanism 6 for collecting waste after die cutting, a slitting mechanism 7, a winding mechanism 8 for winding the slit material, and a compensation and alignment mechanism 9, wherein the compensation and alignment mechanism 9 includes a linear rail 901, a slider 902 slidably disposed on the linear rail 901, and a driving mechanism for driving the slider 902 to slide along the linear rail 901, a first sliding guide roller 906 and a second sliding guide roller 907 are disposed at two ends of the slider 902, a front guide roller and a rear guide roller are disposed on the rack wall panel 1 at two sides of the linear rail 901 respectively, the front guide roller includes a first front guide roller 908 and a second front guide roller 909, the rear guide rollers include a first rear guide roller 910 and a second rear guide roller 911, the first front guide roller 908, the first sliding guide roller 906, the second sliding guide roller 907 and the second rear guide roller 911 are located on the same straight line, and the material output by the first die-cutting mechanism 4 sequentially passes through the first front guide roller 908, the first sliding guide roller 906, the second front guide roller 909, the second die-cutting mechanism 5, the first rear guide roller 910, the second sliding guide roller 907 and the second rear guide roller 911 and is input to the splitting mechanism 7.

Specifically, the unwinding mechanism 2 is used for unwinding a material, the material is drawn by a traction mechanism to pass through a first die cutting mechanism 4, a second die cutting mechanism 5, a waste collecting mechanism 6 and a splitting mechanism 7, the first die cutting mechanism 4 and the second die cutting mechanism 5 are used for die cutting off unnecessary parts of the material and keeping the shape required by the material, the splitting mechanism 7 is used for splitting a plurality of materials on a material conveying line into individual products, finally, the die cutting and the cut product materials are wound by a winding mechanism 8, a compensation and alignment mechanism 9 is arranged between the first die cutting mechanism 4 and the second die cutting mechanism 5, specifically, when the die cutting sizes of the first die cutting mechanism 4 and the second die cutting mechanism 5 are different, the discharging speeds of the first die cutting mechanism 4 and the second die cutting mechanism 5 are different, a sliding block can be driven by a driving mechanism to slide along a linear rail 902, and pass through a first sliding guide roller 906, a second sliding guide roller 907, a first front guide roller 908, a second front guide roller 908, a cutting roller 908 and a cutting, The cooperation of second front guide roller 909, first rear guide roller 910 and second rear guide roller 911 realizes the compensation of material, that is, when the ejection of compact of first die cutting mechanism 4 is slow, slider 902 is close to first die cutting mechanism 4 and slides, thereby shorten the ejection of compact distance of first die cutting mechanism 4, prolong the ejection of compact distance of second die cutting mechanism 5 simultaneously, when the ejection of compact of first die cutting mechanism 4 is faster, slider 902 keeps away from first die cutting mechanism 4, thereby lengthen the ejection of compact distance of first die cutting mechanism 4, shorten the ejection of compact distance of second die cutting mechanism 5, make material transmission rate remain stable all the time, the transportation process of material is stable, avoid appearing situations such as card material, improve cross cutting quality and efficiency.

In the embodiment, the double-station circular die cutting machine can select three working modes;

the first working mode is as follows: the material unreels through unwinding mechanism 2, then leads to first die cutting mechanism 4 through drive mechanism and carries out the cross cutting, then receives useless through receiving useless mechanism 6 and again passes through second die cutting mechanism 5, and second die cutting mechanism 5 is out of work this moment, and the material that comes out from second die cutting mechanism 5 is accomplished through winding mechanism 8 after cutting the completion through cutting mechanism 7.

And a second working mode: the material unreels through unwinding mechanism 2, then pulls through drive mechanism to respectively carry out the cross cutting through first die-cutting mechanism 4 and second die-cutting mechanism 5, then receives useless through receipts useless mechanism 6 and cuts through cutting mechanism 7 and accomplish the back through winding mechanism 8 and accomplish.

And a third working mode: the material is unreeled by the unreeling mechanism 2 and then is dragged to the first die cutting mechanism 4 by the traction mechanism for die cutting, the material coming out from the first die cutting mechanism 4 sequentially passes through the first front guide roller 908, the first sliding guide roller 906, the second front guide roller 909, the second die cutting mechanism 5, the first rear guide roller 910, the second sliding guide roller 907 and the second rear guide roller 911 for compensation and alignment to ensure the conveying speed and then is input to the splitting mechanism 7, and the material is wound by the winding mechanism 8 after being split.

Therefore, the double-station circular die cutting machine is higher in adaptability, and a user can select the double-station circular die cutting machine rightly according to own use requirements.

Further, the first die cutting mechanism 4 and the second die cutting mechanism 5 are arranged on the rack wall panel 1 in a left-right parallel manner, so as to facilitate conveying of materials, it should be noted that the existing die cutting mechanism adopted by the die cutting mechanism in this embodiment includes the knife roller 41 and the pressure bearing roller 42, and the structure of the die cutting mechanism is not improved in this embodiment.

In order to ensure the smoothness and consistency of the material after the material comes out of the unwinding mechanism 2 and further ensure the die cutting and slitting quality of the material, a deviation correcting mechanism 10 is arranged behind the unwinding mechanism 2 to realize the deviation correcting operation of the material conveying process, and preferably, the deviation correcting mechanism 10 can be an existing deviation correcting mechanism 10.

In this embodiment, the traction mechanism includes a front traction mechanism 31 and a rear traction mechanism 32, the front traction mechanism 31 is disposed in front of the first die-cutting mechanism 4, the rear traction mechanism 32 is disposed behind the second die-cutting mechanism 5, and traction force is provided to the material conveying process through the traction mechanism, so that the material can be conveyed orderly along each station.

Furthermore, the slitting mechanism 7 comprises a slitting guide roller 71 which is arranged in pairs up and down, the slitting guide roller 71 comprises a rotating shaft 72 and a plurality of cutter teeth 73 which are arranged on the rotating shaft 72 at intervals, and the whole die-cut material is slit through each cutter tooth 73 so as to form an individual finished product.

In this embodiment, actuating mechanism includes driving pulley 903, driven pulley 904, hold-in range 905 and is used for driving pulley 903 pivoted power supply, hold-in range 905 is located between driving pulley 903 and the driven pulley 904, sliding connection is on hold-in range 905, drive driving pulley 903 normal running fit driven pulley 904 through actuating mechanism and drive the motion of hold-in range 905, and then the slider 902 that drives and hold-in range 905 slides along the line rail 901 and counterpoints the compensation to first die-cutting mechanism 4 and second die-cutting mechanism 5.

It should be understood that the terms "first", "second", etc. are used herein to describe various information, but the information should not be limited to these terms, and these terms are only used to distinguish one type of information from another. For example, "first" information may also be referred to as "second" information, and similarly, "second" information may also be referred to as "first" information, without departing from the scope of the present invention.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and substitutions can be made without departing from the technical principle of the present invention, and these modifications and substitutions should also be regarded as the protection scope of the present invention.

Claims (6)

1. A double-station circular die cutting machine is characterized by comprising a rack wallboard, an unreeling mechanism, a traction mechanism, a first die cutting mechanism, a second die cutting mechanism, a waste collecting mechanism, a cutting mechanism, a reeling mechanism and a compensation aligning mechanism, wherein the unreeling mechanism is used for unreeling materials, the traction mechanism is used for dragging the materials, the first die cutting mechanism and the second die cutting mechanism are arranged on the rack wallboard, the waste collecting mechanism is used for collecting waste materials after die cutting, the reeling mechanism is used for reeling the materials after cutting, the compensation aligning mechanism comprises a linear rail, a sliding block arranged on the linear rail and a driving mechanism used for driving the sliding block to slide along the linear rail, a first sliding guide roller and a second sliding guide roller are respectively arranged at two ends of the sliding block, a front guide roller and a rear guide roller are respectively arranged at two sides of the linear rail on the rack wallboard, the front guide roller comprises a first front guide roller and a second front guide roller, the, first preceding deflector roll first slip deflector roll the second slip deflector roll and the deflector roll is located collinear behind the second, the material of first die cutting mechanism output passes through in proper order first preceding deflector roll first slip deflector roll, the preceding deflector roll of second the second die cutting mechanism first back deflector roll the second slip deflector roll and the deflector roll input extremely behind the second cutting mechanism.

2. The double-station circular die cutting machine according to claim 1, wherein the first die cutting mechanism and the second die cutting mechanism are arranged on the frame wall plate in a left-right parallel manner.

3. The double-station circular die cutting machine according to claim 1, wherein a deviation correcting mechanism is arranged behind the unwinding mechanism.

4. The double-station circular die cutting machine according to claim 1, wherein the traction mechanism comprises a front traction mechanism and a rear traction mechanism, the front traction mechanism is arranged in front of the first die cutting mechanism, and the rear traction mechanism is arranged behind the second die cutting mechanism.

5. The double-station circular die cutting machine according to claim 1, wherein the slitting mechanism comprises slitting guide rollers which are arranged in pairs up and down, and the slitting guide rollers comprise rotating shafts and a plurality of cutter teeth which are arranged on the rotating shafts at intervals.

6. The double-station circular die cutting machine according to claim 1, wherein the driving mechanism comprises a driving pulley, a driven pulley, a synchronous belt and a power source for driving the driving pulley to rotate, the synchronous belt is arranged between the driving pulley and the driven pulley, and the synchronous belt is connected to the synchronous belt in a sliding manner.

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