CN211541323U - Coil stock cutting device and system thereof - Google Patents

Abstract

The utility model relates to a coil stock cuts technical field, specifically discloses a coil stock cutting device, including workstation, two bases, rolling part and cut the sword, rolling part is used for carrying the coil stock, cuts the sword and is used for cutting the coil stock. This scheme of adoption cuts the coil stock in order to replace traditional manual work to cut through coil stock cutting device, and mechanized cutting can improve the cutting efficiency and the yield that cuts of coil stock. And, coil stock cutting device still includes feeding agencies, can get the coil stock of cutting on placing the district and put to the assigned position, need not artifical unloading, can further improve the work efficiency that the coil stock cut. Furthermore, the utility model provides a coil stock cutting system, coil stock cutting system include above-mentioned coil stock cutting device and coil stock buffer, and when tectorial membrane device and coil stock cutting device's functioning speed was inconsistent, accessible coil stock buffer cushioned the coil stock to make coil stock cutting device's cutting speed and tectorial membrane device's ejection of compact speed phase-match.

Description

Coil stock cutting device and system thereof

Technical Field

The utility model relates to a coil stock cuts technical field, especially relates to a coil stock cutting device and system thereof.

Background

At present, the laminating device on the market does not have the function of coil stock cutting, and the glass panel that comes out from the laminating device all needs the manual work to cut. However, manual cutting requires special workers to cut the coated coil stock, so that the labor cost is high; in addition, various uncertain risks such as different cutting sizes, product scratching and the like exist in manual operation, and the production yield is low.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a coil stock cutting device and system thereof can effectively improve the coil stock cut efficiency and cut the yield.

In order to achieve the above object, in a first aspect, an embodiment of the present invention provides a coil stock cutting device, including:

the workbench is provided with a cutting area and a placing area which are arranged adjacently;

the two bases are oppositely arranged at the cutting area at intervals, a cutting space with an inlet and an outlet which are opposite is formed between the two bases, and the outlet is arranged towards the placing area;

two ends of the cutting knife are respectively movably connected with the two bases and used for cutting the roll material in the cutting space; and

and the rolling part is positioned in the cutting space, two ends of the rolling part are respectively movably connected with the two bases, and the rolling part is used for conveying the coil stock from the inlet to the cutting space and conveying the cut coil stock to the placing area through the outlet.

As an optional implementation manner, in an embodiment of the first aspect of the present invention, the rolling members are two sets, two sets of the rolling members are in the interval arrangement in the cutting space, the cutting knife is located in two sets between the rolling members, and the cutting knife can slide between the two bases.

As an optional implementation manner, in an embodiment of the first aspect of the present invention, each set of the rolling members includes a driving member and a driven member, the driven member is located above the driving member, two ends of the driving member are respectively rotatably connected to the two bases, two ends of the driven member are respectively slidably connected to the two bases, and the driven member is used for sliding to abut against the driving member and rolling under the driving of the driving member.

As an optional implementation manner, in an embodiment of the first aspect of the present invention, the coil cutting device further includes a first guide rail, two ends of the first guide rail are respectively disposed at the top of the base, and the cutting knife is slidably disposed on the first guide rail.

As an optional implementation manner, in the embodiment of the first aspect of the present invention, the workbench further comprises a mechanism setting area, the mechanism setting area is adjacent to the placement area and is arranged opposite to the cutting area, the coil cutting device further comprises a material taking mechanism, the material taking mechanism is arranged in the mechanism setting area, and is used for taking away the coil placed in the placement area.

As an optional implementation manner, in an embodiment of the first aspect of the present invention, the material taking mechanism includes a second guide rail and a mechanical arm, the second guide rail is disposed in the mechanism setting area, and the mechanical arm is slidably disposed in the second guide rail.

As an optional implementation manner, in an embodiment of the first aspect of the present invention, a conveying mechanism for placing the roll material is disposed on the placing area, and the conveying mechanism conveys the roll material along a direction toward the mechanism setting area and is further used for conveying the roll material to a position below the mechanical arm.

In a second aspect, the embodiment of the utility model provides a coil stock cutting system, reach coil stock cutting device as above-mentioned including coil stock buffer, coil stock buffer is located cut the space the place ahead of entry is used for the buffering to wait to get into the coil stock of entry.

As an optional implementation manner, in the embodiment of the second aspect of the present invention, the coil buffering device includes a support and two buffering rolling components, a buffering space is formed in the support, the two buffering rolling components are spaced apart from each other along a direction toward the inlet, and the two buffering rolling components are movably disposed at the top of the support and above the buffering space.

As an optional implementation manner, in an embodiment of the second aspect of the present invention, the coil stock cutting system further includes a material conveying table, and the material conveying table is disposed on one side of the working table.

Compared with the prior art, the utility model discloses a coil stock cutting device and system thereof has following beneficial effect:

the utility model provides a coil stock cutting device is through being located rolling part and cutting space and both ends mobile two bases of locating for with the coil stock from the entry towards the export transport, so that the coil stock is located and cuts the space, then will cut sword both ends swing joint in two bases, be used for cutting the coil stock that is located and cuts the space. This scheme of adoption cuts the coil stock in order to replace traditional manual work to cut through coil stock cutting device, and mechanized cutting can improve the cutting efficiency and the yield that cuts of coil stock.

And, coil stock cutting device still includes feeding agencies, can get the coil stock of cutting on placing the district and put to the assigned position, need not artifical unloading, can further improve the work efficiency that the coil stock cut.

Furthermore, the utility model provides a coil stock cutting system, coil stock cutting system include above-mentioned coil stock cutting device and coil stock buffer, and when tectorial membrane device and coil stock cutting device's functioning speed was inconsistent, accessible coil stock buffer cushioned the coil stock to make coil stock cutting device's cutting speed and tectorial membrane device's speed phase-match.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a coil cutting device according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a coil cutting device provided in an embodiment of the present invention without one of the bases;

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

fig. 4 is a schematic structural diagram of a coil stock cutting system according to a second embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the present invention, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings. These terms are used primarily to better describe the invention and its embodiments, and are not used to limit the structures, elements or components indicated to have a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in the present invention can be understood by those of ordinary skill in the art as appropriate.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in communication between two structures, elements or components. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Furthermore, the terms "first," "second," and the like, are used primarily to distinguish between different structures, elements, or components (which may or may not be the same in particular nature or configuration), and are not used to indicate or imply the relative importance or importance of the structures, elements, or components. "plurality" means two or more unless otherwise specified.

The utility model discloses a coil stock cutting device and system thereof can effectively improve the coil stock cut efficiency and cut the yield.

The technical solution of the present invention will be further described with reference to the following embodiments and the accompanying drawings.

Example one

Please refer to fig. 1 and fig. 2, the embodiment of the present invention discloses a coil stock cutting device 10, including a workbench 1, two bases 2, a rolling component 3 and a cutting knife 4, the workbench 1 is provided with a cutting area 11 and a placing area 12 which are adjacently arranged, the cutting area 11 is oppositely arranged and arranged at intervals on the two bases 2, a cutting space 21 with a relative inlet and an outlet is formed between the two bases 2, and the outlet is arranged towards the placing area 12, two ends of the cutting knife 4 are movably connected to the two bases 2 for cutting a coil stock a which is arranged in the cutting space 21, the rolling component 3 is arranged at the cutting space 21 and two ends of the cutting space 2, and is used for conveying the coil stock a to the cutting space 21 from the inlet (the conveying direction of the coil stock a is the same as the direction indicated by the arrow b in fig. 1), and is used for conveying the coil stock a which is cut to the placing area 12 through the outlet. This scheme of adoption cuts in order to replace traditional manual work to cut through coil stock cutting device 10 to coil stock a, and mechanized cutting can improve coil stock a's cutting efficiency and cut the yield to improve the degree of automation of coil stock a production line.

In this embodiment, the roll cutting device 10 further comprises a control device, which can be arranged in the table 1 or on the table 1, for controlling the rolling of the rolling member 3 and the cutting of the cutting blade 4.

The roll cutting device 10 of the present scheme is mainly applied to cutting of the roll a, and specifically, is used for cutting the roll a output from the film laminating device. That is, the web cutting device 10 in the present embodiment may be docked to the film covering device for cutting the web a output from the film covering device.

In practical use, the roll cutting device 10 can be arranged at the film outlet end of the film covering device, so that the roll material a can enter the cutting space 21 for cutting through the rolling of the rolling component 3 after being output from the film covering device.

Further, when the present roll cutting device 10 is used for cutting, the roll material a to be cut is fed into the cutting space 21 from the inlet side, the roll member 3 conveys the roll material a from the inlet side to the outlet side, when the roll material a is located in the cutting space 21 and the portion to be cut of the roll material a is located at a position corresponding to the cutting blade 4, the roll member 3 stops conveying the roll material a, the cutting blade 4 cuts the roll material a while aligning with the portion to be cut of the roll material a, and the cut roll material a is fed out to the placement area 12 from the outlet side.

Specifically, the rolling member 3 is configured to roll and convey the roll by using a power device (not shown in detail in this embodiment), for example, the power device may be any one of an ac asynchronous motor, an ac synchronous motor, a dc motor, a ram engine, an electromagnetic pulse engine, an ion engine, and the like, and is not limited herein.

In practical design, the position of the rolling member 3 for conveying the coil a can be controlled by the cooperation of the control device and the power device of the coil cutting device 10. For example, a program may be input in advance in a control board of the control device, after the roll cutting device 10 is started, the control device controls the power device to drive the rolling member 3 to roll according to the set program so as to input the roll a into the cutting space 21 from the inlet, after the rolling member 3 conveys the roll a to the position to be cut of the roll a, the control device controls the power device to stop driving the rolling member 3, the rolling member 3 stops rolling, the control device controls the power device to drive the cutting knife 4, the cutting knife 4 cuts the roll a, after the cut of the roll a is completed, the control device continues to control the power device to drive the rolling member 3, the rolling member 21 outputs the cut roll from the outlet of the cutting space 21 and continues to input the roll a into the cutting space 21 from the inlet.

Referring to fig. 2 and 3, in the present embodiment, there are two sets of rolling members 3, the two sets of rolling members 3 are disposed at intervals in the cutting space 21 along a direction toward the placing area 12, the cutting blade 4 is located between the two sets of rolling members 3, and the cutting blade 4 can slide between the two bases 2 relative to the two bases 2, so as to cut the roll material a. Specifically, the two sets of rolling members 3 are a first set of rolling members 31 disposed near the inlet and a second set of rolling members 32 disposed near the outlet, respectively.

Further, the first group of rolling members 31 includes a first driving member 311 and a first driven member 312, the first driven member 312 is located above the first driving member 311, the first driving member 311 is used for placing the roll material a, the first driven member 312 can slide to the roll material a pressed on the first driving member 311 in a direction toward the first driving member 311, or slide to be separated from the roll material a placed on the first driving member 311 in a direction away from the first driving member 311, and when the first driven member 312 slides to the roll material a pressed on the first driving member 311, rolling occurs under the driving of the first driving member 311.

Similarly, the second group of rolling members 32 includes a second driving member 321 and a second driven member 322, the second driven member 322 is located above the second driving member 321, the second driving member 321 is used for placing the roll material a, the second driven member 322 can slide to the roll material a pressed on the second driving member 321 along the direction toward the second driving member 321, or slide to the roll material a separated from the second driving member 321 along the direction away from the second driving member 321, when the second driven member 322 slides to the roll material a pressed on the second driving member 321, the second driving member 321 is driven to roll.

The rolling part 3 conveys the coil material a from the inlet to the outlet in two processes, specifically as follows:

the first process is as follows: this process is a process in which the first set of rolling members 31 conveys the web a from the inlet towards the second set of rolling members 32. The method specifically comprises the following steps: in the process that the first group of rolling members 31 conveys the roll material a towards the second group of rolling members 32, the first driven member 312 is always pressed on the roll material a placed on the first driving member 311, so that the roll material a is conveyed towards the second group of rolling members 32 by the first group of rolling members 31 under the driving of the first driving member 311 until the roll material a is conveyed to be partially positioned on the second driving member 321.

In the first process, because the first driven member 312 is always pressed on the roll material a placed on the first driving member 311, the friction force of the rolling first driving member 311 on the roll material a is converted into the power for the roll material a to move forward, and the friction force of the forward moving roll material a on the first driven member 312 is converted into the power for the first driven member 312 to roll, that is, the first driving member 311 and the first driven member 312 roll, and the roll material a is conveyed forward.

The second process: the second process is a process in which the first set of rolling members 31 and the second set of rolling members 32 collectively convey the roll a toward the exit. The method specifically comprises the following steps: in the process that the first group of rolling members 31 and the second group of rolling members 32 jointly convey the roll a toward the outlet, the first driven member 312 is always pressed on the roll a placed on the first driving member 311, the second driven member 322 slides to the roll a pressed on the second driving member 321, and the first driving member 311 and the second rolling member 3 simultaneously convey the roll a toward the outlet until the portion to be cut of the roll a conveyed to the roll a is located at the position corresponding to the cutting blade 4 (the portions of the roll a on both sides of the portion to be cut are respectively located on the first driving member 311 and the second driving member 321), and the first driving member 311 and the second driving member 321 stop conveying the roll a.

In the second process, since the second driven member 322 is pressed on the roll a placed on the second driving member 321, the friction force of the rolling second driving member 321 on the roll a is converted into the power for moving the roll a forward, and the friction force of the moving roll a on the second driven member 322 is converted into the power for moving the second driven member 322 forward, that is, the rolling of the second driving member 321 and the second driven member 322 is realized, and the roll a is conveyed forward.

Further, when the roll material a is conveyed to the position of the roll material a to be cut corresponding to the cutting blade 4 (the roll materials a on both sides of the position to be cut are partially positioned on the first driving member 311 and the second driving member 321, respectively), the first driving member 311 and the second driving member 321 stop rolling, and at this time, the roll materials a on both sides of the position to be cut are fixed to the first group rolling member 31 and the second group rolling member 32, respectively, and the cutting blade 4 cuts the roll material a. After the roll material a is cut, the first driving member 311 and the second driving member 321 continue to roll, the second driven member 322 slides to be away from the roll material a cut by the second driving member 321, the second driving member 321 outputs the cut roll material a to the placing area 12 from the outlet, meanwhile, the first driven member 312 is pressed on the roll material a placed on the first driving member 311 all the time, and the first group of rolling members 31 performs the next round of conveying the roll material a from the inlet to the second group of rolling members 32.

It can be known that the first driving member 311, the second driving member 321, the first driven member 312 and the second driven member 322 may be rolling members such as rollers or rollers, and the embodiment is not limited thereto, and the first driving member 311, the second driving member 321, the first driven member 312 are rollers, and the second driven member 322 is a roller for example.

In the embodiment, in order to avoid the displacement of the roll material a caused by the difference of the transmission speeds of the first driving part 311 and the second driving part 321, the first driving part 311 and the second driving part 321 are driven synchronously. In this way, as the roll material a is synchronously conveyed on the first driving part 311 and the second driving part 321, the roll material a can be conveyed according to a preset route, so that the roll material a is ensured to have accurate positioning precision and cutting precision.

Further, in order to better determine the position information of the roll material a conveyed in the cutting space 21, a first sensor is additionally arranged at the outlet of the cutting space 21, and the first sensor is used for detecting the position of the roll material a so as to realize accurate positioning and cutting of the roll material a. Preferably, the first sensor is a photoelectric sensor.

In this embodiment, the roll material cutting device 10 further includes a first guide rail 5, two ends of the first guide rail 5 are respectively connected to the tops of the two bases 2, the cutting blade 4 is slidably disposed on the first guide rail 5, the cutting blade 4 extends downward from the first guide rail 5 to be located in the cutting space 21, and the cutting blade 4 slides on the first guide rail 5 to realize sliding between the two bases 2. The design mode that first guide rail 5 is located in the adoption slip of cutting sword 4, and cutting sword 4 slides on first guide rail 5 can cut, provides the direction for cutting the slip route of sword 4 between two bases 2, and is simple and convenient, cuts efficiently.

In this embodiment, in order to avoid the coil stock a that cuts off piling up in placing the district 12, workstation 1 still is equipped with mechanism and sets up district 13, mechanism sets up district 13 and places the adjacent setting in district 12 and set up with cutting district 11 relatively, coil stock cutting device 10 still includes feeding agencies 6, feeding agencies 6 locates mechanism and sets up district 13 for take away the coil stock a of placing in placing the district 12, can get the coil stock a that cuts on placing the district 12 and put to the assigned position, need not artifical unloading, can further improve coil stock a cutting work efficiency of coil stock cutting device 10.

Taking the present application as an example, the worktable 1 may be a square worktable, the table top thereof is a rectangular plane, and the cutting area 11, the placing area 12 and the mechanism setting area 13 are disposed on the table top and can be respectively and sequentially arranged along the length direction of the table top. By adopting the arrangement mode, the device is suitable for the processing process of cutting and conveying in a coil production line mode. It will be appreciated that the table 1 may have other shapes, and may be designed according to the actual situation, and is not limited herein.

Further, the material taking mechanism 6 comprises a second guide rail 61 and a mechanical arm 62, the second guide rail 61 is arranged in the mechanism setting area 13, the mechanical arm 62 is arranged on the second guide rail 61 in a sliding mode, the mechanical arm 62 is used for taking and placing the coil material a in the placing area 12, and the mechanical arm 62 slides to a specified position on the second guide rail 61 after taking the coil material a, so that the coil material a is taken away from the placing area 12 and placed in the specified position.

Preferably, the mechanical arm 62 is provided with a vacuum suction cup 621, the vacuum suction cup 621 is used for sucking the roll material a on the placing area 12, and after the mechanical arm 62 moves to the position where the roll material a is located, the vacuum suction cup 621 puts down the roll material a. In this way, the suction or the dropping of the coil a does not cause any damage to the coil a due to the vacuum cup 621, and the situation that the mechanical arm 62 scratches or dents when taking away the coil a to damage the coil a can be avoided.

Further, in order to facilitate the robot arm 62 to take the coil a placed in the placement area 12, a transfer mechanism 121 for placing the coil is provided in the placement area 12, and the transfer mechanism 121 transfers the coil a in a direction toward the mechanism placement area 13 and also transfers the coil a to a position below the robot arm 62.

Specifically, the conveying mechanism 121 is provided with a plurality of conveying belts arranged at intervals, the coil material a is placed on the conveying belt of the conveying mechanism 121, and the conveying belts convey the coil material a to a position below the mechanical arm 62.

The operation of the coil cutting device 10 is briefly described below:

the coil material a is placed on the first driving component 311, the first driven component 312 is always pressed on the coil material a placed on the first driving component 311, and the first driving component 311 drives the coil material a to be conveyed from the first group of rolling components 31 to the second group of rolling components 32; after the roll material a is conveyed to the second driving member 321, the second driven member 322 slides to the roll material a pressed on the second driving member 321, and the first driving member 311 and the second driving member 321 jointly convey the roll material a towards the outlet. When the first sensor senses that the part to be cut of the roll material a conveyed to the roll material a is located at a position corresponding to the cutting knife 4 (the roll materials a on two sides of the part to be cut are respectively located on the first driving part 311 and the second driving part 321), the first driving part 311 and the second driving part 321 stop conveying the roll material a, and the cutting knife 4 cuts the roll material a; the second driven part 322 slides to separate from the roll material a on the second driving part 321, the second driving part 321 outputs the cut roll material a from the outlet to the conveying mechanism 121 on the placing area 12, and the conveying mechanism 121 conveys the cut roll material a to the position below the mechanical arm 62; the vacuum suction cups 621 on the mechanical arm 62 suck the roll material a and slide to a designated position, the vacuum suction cups 621 on the mechanical arm 62 unload the roll material a, and the mechanical arm 62 slides back to the placement area 12, so that the cutting and removing steps of the roll material a are completed.

The embodiment of the utility model provides a pair of coil stock cutting device cuts the coil stock in order to replace traditional manual work to cut through coil stock cutting device, and mechanized cutting can improve the coil stock cut efficiency and cut the yield to improve the degree of automation of coil stock production line. In addition, still be equipped with feeding agencies on the coil stock cutting device, can get the coil stock of cutting on placing the district and put to the assigned position, can further improve coil stock cutting device's coil stock and cut work efficiency. In addition, the mode of sucking the coil stock through the vacuum chuck can avoid the mechanical arm to scratch or extrude the dent when taking away the coil stock so as to damage the coil stock.

Example two

Referring to fig. 4, an embodiment of the present invention provides a coil cutting system, including a coil buffering device 20 and a coil cutting device 10 according to the first embodiment, wherein the coil buffering device 20 is located in front of an inlet of a cutting space for buffering a coil to be fed into the inlet. The coil stock cutting system of this scheme is applicable to the tectorial membrane device of any speed, when coil stock cutting device 10 and tectorial membrane device's functioning speed inconsistent, can cushion the coil stock through coil stock buffer 20 for coil stock cutting device 10's cutting speed and tectorial membrane device's speed phase-match.

Specifically, in practical use, the roll material cutting system may be disposed at the film outlet end of the film covering device, and the roll material buffering device 20 is aligned with the film outlet end of the film covering device, so that the roll material may be buffered by the roll material buffering device 20.

In this embodiment, the roll material buffering device 20 includes a frame 201 and two buffering rolling members 202, a buffering space 203 is formed in the frame 201, the two buffering rolling members 202 are spaced apart from each other in a direction toward the inlet, and the two buffering rolling members 202 are movably disposed on the top of the frame 201 and above the buffering space 203.

In actual use, because the operation speed of the film covering device is far slower than the operation speed of the cutting of the coil stock cutting device 10, the film covering device and the coil stock cutting device 10 can not work simultaneously, the coil stock between the film covering device and the coil stock cutting device 10 flows into the buffer space 203 for buffer storage from between the two buffer rolling components 202, and the coil stock cutting device 10 is started to cut the coil stock when the coil stock in the buffer space 203 reaches a certain amount.

Further, in order to feed back the amount of the coil stock buffered in the buffering space 203 in time by the coil stock buffering device 20, three second sensors are installed inside the buffering space 203 from high to low to detect the actual position of the coil stock. When the three second sensors detect the coil stock, the coil stock cutting device 10 is started to cut the coil stock; when none of the three second sensors detects the roll, the roll cutting apparatus 10 suspends cutting the roll. Preferably, the second sensor is a photoelectric sensor.

Furthermore, in order to prevent the roll material from deviating in the buffering space 203, the adjusting baffles 204 are disposed on the left and right sides of the bracket 201, and the two adjusting baffles 204 can limit the movement of the two sides of the roll material, so that the roll material in the buffering space 203 is always located between the two adjusting baffles 204.

In this embodiment, the coil stock cutting system further includes a material conveying platform 30, and the material conveying platform 30 is arranged on one side of the workbench and used for placing the coil stock taken out from the placing area. Specifically, the second guide rail 61 extends above the material conveying table 30, and the robot arm 62 can slide on the placing area and the material conveying table 30 relative to the second guide rail 61 to place the coil stock on the placing area on the material conveying table 30. In this way, the installation area of the placement area can be reduced, and the structure of the coil stock cutting device 10 is miniaturized and lightened.

Preferably, the material conveying platform 30 is provided with a material conveying belt 301, the roll material is placed on the material conveying belt 301, and the material conveying belt 301 is used for conveying the roll material to a target position. In this way, the cut roll can be reasonably placed and orderly conveyed.

As an alternative embodiment, the material conveyer 301 is always in a conveying state to convey the roll material away in time.

As another alternative, the material conveyer 301 is in discontinuous conveying, that is, the rolls on the material conveyer 301 are stacked to a preset height and then conveyed away. The material conveying belt 301 can be set according to actual use requirements, and is not limited herein.

In addition, for the specific structural design of the coil cutting device 10, reference may be made to the description of the first embodiment, and details are not repeated here.

The following is a brief description of the operation of the coil cutting system:

the coil stock between the film covering device and the coil stock cutting device 10 flows into the buffer space 203 from between the two buffer rolling components 202 for buffer storage, when three second sensors on the coil stock buffer device 20 detect the coil stock, the coil stock cutting device 10 and the material conveying platform 30 are started, the coil stock cutting device 10 cuts the coil stock, the material conveying platform 30 conveys the cut coil stock, when the three second sensors on the coil stock buffer device 20 cannot detect the coil stock, the coil stock cutting device 10 and the material conveying platform 30 are paused, and when the three second sensors on the coil stock buffer device 20 detect the coil stock again, the coil stock of the next round is cut and conveyed.

The embodiment of the utility model provides a coil stock cutting system carries the coil stock cutting system of platform through setting up including coil stock cutting device, coil stock buffer and material, is applicable to the tectorial membrane device of any speed, when the functioning speed of coil stock cutting device and tectorial membrane device is inconsistent, can cushion the coil stock through coil stock buffer for coil stock cutting device's cutting speed and tectorial membrane device's speed phase-match. In addition, the coil materials cut by the coil material buffering device can be conveyed to the material conveying platform and then conveyed to a target position by the material conveying platform, so that the cut coil materials can be reasonably placed and orderly conveyed.

The coil cutting device and the system thereof disclosed by the embodiment of the invention are described in detail, the principle and the implementation mode of the invention are explained by applying specific examples, and the description of the above embodiments is only used for helping understanding the coil cutting device and the system thereof; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, to sum up, the content of the present specification should not be understood as the limitation of the present invention.

Claims (10)

1. A coil stock cutting device, comprising:

the workbench is provided with a cutting area and a placing area which are arranged adjacently;

the two bases are oppositely arranged at the cutting area at intervals, a cutting space with an inlet and an outlet which are opposite is formed between the two bases, and the outlet is arranged towards the placing area;

two ends of the cutting knife are respectively movably connected with the two bases and used for cutting the roll material in the cutting space; and

and the rolling part is positioned in the cutting space, two ends of the rolling part are respectively movably connected with the two bases, and the rolling part is used for conveying the coil stock from the inlet to the cutting space and conveying the cut coil stock to the placing area through the outlet.

2. The roll stock cutting apparatus as claimed in claim 1, wherein there are two sets of said rolling members, two sets of said rolling members being spaced apart in said cutting space, said cutting blade being located between said two sets of said rolling members, said cutting blade being slidable between said two bases.

3. The coil cutting device according to claim 2, wherein each set of rolling members includes a driving member and a driven member, the driven member is located above the driving member, two ends of the driving member are respectively rotatably connected to the two bases, two ends of the driven member are respectively slidably connected to the two bases, and the driven member is configured to roll under the driving of the driving member when sliding to abut against the driving member.

4. The roll stock cutting device according to claim 2, further comprising a first guide rail, wherein two ends of the first guide rail are respectively disposed on the top of the two bases, and the cutting knife is slidably disposed on the first guide rail.

5. The coil cutting device according to any one of claims 1 to 4, wherein said working table further comprises a mechanism setting area disposed adjacent to said placing area and opposite to said cutting area, said coil cutting device further comprises a material taking mechanism disposed in said mechanism setting area for taking out the coil placed in said placing area.

6. The roll cutting apparatus of claim 5 wherein the take-off mechanism includes a second guide and a robotic arm slidably disposed on the second guide.

7. The roll stock cutting apparatus of claim 6 wherein said placement area has a transfer mechanism thereon for transferring said roll stock to be positioned beneath said robotic arm.

8. A coil cutting system comprising coil buffering means and a coil cutting means as claimed in any one of claims 1 to 7, said coil buffering means being located in front of said entrance to said cutting space for buffering a coil to be entered into said entrance.

9. The coil cutting system according to claim 8, wherein the coil buffering device comprises a support and two buffering rolling members, a buffering space is formed in the support, the two buffering rolling members are spaced apart from each other in a direction toward the inlet, and the two buffering rolling members are movably disposed on the top of the support and above the buffering space.

10. The coil cutting system as claimed in claim 8 or 9, further comprising a material conveying table provided at one side of the work table.

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