CN220392965U - Automatic cross cutting machine of rolling waste material - Google Patents

Abstract

The application relates to an automatic cross cutting machine of rolling waste material, including cross cutting machine, still include waste material rolling structure, wherein, waste material rolling structure includes support, actuating assembly and rolling subassembly, actuating assembly installs and sets up on the support inside wall, and actuating assembly drive connection rolling subassembly. The utility model provides a can utilize first positioning frame and second positioning frame to support in the passing through rolling subassembly and adjust the outer wall that makes two sets of rolling arc boards and be located same face of cylinder for can utilize two sets of rolling arc boards rolling waste materials after the waste material is carried to rolling subassembly department, conveniently collect waste material concentration, and reduce the space that waste material collection occupy, can utilize first positioning frame and second positioning frame to adjust in the passing through rolling subassembly and make two sets of rolling arc boards deflect mutually near, make between two sets of rolling arc boards can produce the space rather than the waste material of outside rolling, thereby make things convenient for the smooth and easy effect of taking off its promotion from two sets of rolling arc boards after the waste material rolling finishes with waste material of staff.

Description

Automatic cross cutting machine of rolling waste material

Technical Field

The application relates to the technical field of die cutting machines, in particular to an automatic waste rolling die cutting machine.

Background

The die cutting machine applies a certain pressure by using a steel knife, a hardware die and a steel wire through an embossing plate to roll and cut a printed product or a paperboard into a certain shape, and is an important device for packaging, processing and forming after printing.

In the related art, chinese patent publication No. CN211491730U proposes a die-cutting machine for automatically winding waste, which can wind the waste output from the end of the die-cutting machine by using a receiving roller, and then cut off the waste along the axial direction of the receiving roller by using a cutting disc, so that the waste on the receiving roller is convenient to be peeled.

The related art in the above has the following drawbacks: in the process that the waste material rolled on the collecting roller is broken and stripped and falls in the collecting box to collect the waste material, the waste material which is easy to break and fall is scattered and can not be completely collected, in addition, the waste material which is broken and fall is loose, and the occupied space of the loose waste material in the collecting box is larger.

Disclosure of Invention

In order to improve the waste material of rolling on the collecting roller and being broken and peel off and fall the in-process of collecting the waste material in the collecting box, the waste material that is liable to produce to break off and drop scatters and can not collect completely, and the waste material that breaks off in addition is comparatively loose, still can make loose waste material occupation space great problem in the collecting box, this application provides an automatic die cutting machine of rolling waste material.

The application provides an automatic cross cutting machine of rolling waste material adopts following technical scheme:

the die cutting machine capable of automatically winding the waste comprises a die cutting machine and a waste winding structure, wherein the waste winding structure comprises a bracket, a driving component and a winding component, the driving component is arranged on the inner side wall of the bracket and is in driving connection with the winding component,

the driving assembly comprises a winding driving motor, a mounting frame, a limiting disc and an adjusting motor, wherein the winding driving motor is mounted on the inner side wall of the support, the output end of the winding driving motor is fixedly connected with the middle part of the mounting frame, one side, facing the winding assembly, of the mounting frame is fixedly connected with the limiting disc, the adjusting motor is arranged in a gap between the mounting frame and the limiting disc and is mounted on the limiting disc, and the output end of the adjusting motor penetrates through the limiting disc;

the winding assembly comprises a central disc which is fixedly clamped with the output end of the adjusting motor, two ends of the central disc are respectively connected with a first positioning frame and a second positioning frame in a rotating mode, one end of the first positioning frame, which is far away from the central disc, is connected with the middle of the first positioning arc plate in a rotating mode, one end of the second positioning frame, which is far away from the central disc, is connected with the middle of the second positioning arc plate in a rotating mode, the end portions of the first positioning arc plate and the second positioning arc plate are connected with the limiting disc in a rotating mode, winding arc plates are fixedly connected to the outer wall of the first positioning arc plate and the outer wall of the second positioning arc plate in a rotating mode, and the winding arc plates are symmetrically distributed in two groups.

Still further, the outer wall of rolling arc board sets up to smooth curved surface, and the length of rolling arc board is greater than the width of the waste material of cross cutting machine transmission end output.

Furthermore, the inner diameter of the limiting plate is matched with the outer diameter of the winding arc plates, and the two groups of winding arc plates extend into the inner cavity of the limiting plate towards one side of the limiting plate.

Still further, the tip that first positioning arc board and second positioning arc board and limiting disc rotate to be connected is located the relative both sides of center dish respectively, first positioning arc board and second positioning arc board all set up to be the convex with rolling arc board matched with.

Still further, drive assembly still includes spacing subassembly, spacing subassembly installs in the support inboard, and spacing subassembly and drive assembly are located the both ends of rolling subassembly respectively, spacing subassembly's middle part is formed with the portion that opens and shuts.

Still further, spacing subassembly includes two sets of symmetric distribution's pneumatic cylinders, two sets of the output of pneumatic cylinder is all fixedly connected with semicircle board, two sets of semicircle board constitutes spacing subassembly's opening and shutting portion.

Furthermore, the two groups of semi-discs are arranged in a semicircular shape with the diameter larger than that of the winding arc plate, and the two groups of semi-discs are symmetrically distributed.

Still further, the support is formed with the collecting vat near spacing subassembly one side for the waste material of rolling on the rolling subassembly can take out from the collecting vat.

In summary, the beneficial technical effects of the application are: can utilize first positioning frame and second positioning frame to support in the rolling subassembly and adjust the outer wall that makes two sets of rolling arc boards and be located same face of cylinder for can utilize two sets of rolling arc boards rolling waste materials after the waste material is carried to rolling subassembly department, conveniently collect waste material concentration, and reduce the space that waste material collection occupy, can utilize first positioning frame and second positioning frame to adjust in the rolling subassembly and make two sets of rolling arc boards deflect mutually near, make between two sets of rolling arc boards can with the waste material of its outside rolling, thereby make things convenient for the smooth and easy after the waste material rolling finishes with its promotion of two sets of rolling arc boards take off.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

FIG. 2 is a schematic illustration of a scrap rolling construction;

FIG. 3 is a schematic structural view of a drive assembly;

FIG. 4 is a schematic structural view of the winding assembly;

fig. 5 is a schematic structural view of the spacing assembly.

Reference numerals: 10. a die cutting machine; 20. a waste material rolling structure; 21. a bracket; 22. a drive assembly; 221. a winding driving motor; 222. a mounting frame; 223. a limiting disc; 224. adjusting a motor; 23. a winding assembly; 231. a center plate; 232. a first positioning frame; 233. a second positioning frame; 234. a first positioning arc plate; 235. a second positioning arc plate; 236. winding the arc plate; 24. a limit component; 241. a hydraulic cylinder; 242. a half-disc.

Description of the embodiments

The following description of the embodiments of the present application will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

The embodiment of the application discloses a die-cutting machine capable of automatically winding waste materials. Referring to fig. 1, a die-cutting machine for automatically winding waste material includes a die-cutting machine 10 and a waste material winding structure 20. The die cutting machine 10 adopts the prior art, raw materials such as paper tapes which are processed instead can be placed at the inlet section of the die cutting machine, and the hardware die of the die cutting machine 10 applies certain pressure through a stamping plate to roll and cut the paper tapes in transmission into a certain shape. The remaining paper strap waste from the above operation continues to be transported to and wound up by the waste winding structure 20.

Referring to fig. 2-5, the scrap rolling structure 20 may include a support 21, a drive assembly 22, a rolling assembly 23, and a limit assembly 24. The support 21 is used for supporting and installing other components in the support, the driving component 22 and the winding component 23 are matched with each other to collect waste, and the limiting component 24 is used for assisting in avoiding offset sliding during waste collection.

The bracket 21 may be made of steel plate welded so that it can be used to support other components mounted on the inside thereof. The bracket 21 is formed with the collecting vat near one side of spacing subassembly 24 for after the waste material rolling finishes, the waste material of rolling on the rolling subassembly 23 can be promoted by the staff and take out from the collecting vat.

The drive assembly 22 includes a wind-up drive motor 221, a mounting bracket 222, a limit disk 223, and an adjustment motor 224. The winding driving motor 221 is installed on the inner side wall of the bracket 21 and the output end faces the collecting tank, and the output end of the winding driving motor 221 is fixedly connected with the middle part of the mounting frame 222, so that the winding driving motor can drive the mounting frame 222 to rotate. The side of the mounting frame 222 facing the winding assembly 23 is fixedly connected with the limiting disc 223, so that the limiting disc 223 can rotate simultaneously with the mounting frame 222. The regulating motor 224 is disposed in a gap between the mounting frame 222 and the limiting plate 223 and is mounted on the limiting plate 223, and an output end of the regulating motor 224 penetrates through the limiting plate 223 and is used for connecting the central plate 231 of the winding assembly 23, so that the output end of the regulating motor 224 can drive the central plate 231 to deflect.

The winding assembly 23 includes a center plate 231, a first positioning frame 232, a second positioning frame 233, a first positioning arc plate 234, a second positioning arc plate 235, and two sets of winding arc plates 236. The both ends of center dish 231 are rotated with first positioning frame 232 and second positioning frame 233 respectively and are connected, and the one end that first positioning frame 232 kept away from center dish 231 is rotated with the middle part of first positioning arc board 234 and is connected, and the one end that second positioning frame 233 kept away from center dish 231 is rotated with the middle part of second positioning arc board 235 and is connected, and the tip of first positioning arc board 234 and the tip of second positioning arc board 235 are all rotated between the limiting plate 223 and are connected. When the center plate 231 deflects, the first positioning frame 232 and the second positioning frame 233 can be respectively forced and pushed, and the first positioning frame 232 and the second positioning frame 233 respectively drive the first positioning arc plate 234 and the second positioning arc plate 235 to deflect. The ends of the first positioning arc plate 234 and the second positioning arc plate 235, which are rotationally connected with the limiting disc 223, are respectively positioned at two opposite sides of the central disc 231, and when the central disc 231 deflects clockwise, the first positioning frame 232 and the second positioning frame 233 respectively drive the first positioning arc plate 234 and the second positioning arc plate 235 to deflect close to each other; when the center plate 231 is deflected counterclockwise, the first positioning frame 232 and the second positioning frame 233 drive the first positioning arc plate 234 and the second positioning arc plate 235 to deflect away from each other, respectively. The outer walls of the first positioning arc plates 234 and the outer walls of the second positioning arc plates 235 are fixedly connected with rolling arc plates 236, the two groups of rolling arc plates 236 are symmetrically distributed, and the first positioning arc plates 234 and the second positioning arc plates 235 are all arranged into circular arcs matched with the rolling arc plates 236. When the two groups of rolling arc plates 236 are driven to deflect away from each other, the two groups of rolling arc plates 236 can deflect until the outer walls of the two groups of rolling arc plates 236 are positioned on the same cylindrical surface, and the two groups of rolling arc plates can be used for rolling waste at the moment; when the two groups of rolling arc plates 236 are driven to deflect close to each other, a certain gap is formed between the two groups of rolling arc plates 236 and the rolled waste, so that the waste is loosened outside the two groups of rolling arc plates 236 and is conveniently pushed to be moved out.

In this embodiment, the length of the winding arc 236 is greater than the width of the scrap output from the transfer end of the die cutter 10 to enable the scrap to be completely wound onto both sets of winding arc 236. The outer wall of the wrap-up arc plate 236 is provided with a smooth curved surface so that the scrap is easily pushed out when the scrap is removed.

In this embodiment, the inner diameter of the limiting plate 223 is matched with the outer diameter of the winding arc plates 236, and the two winding arc plates 236 extend into the inner cavity of the limiting plate 223 toward one side of the limiting plate 223. So that can make limiting disc 223 stop spacing in the one end of two sets of rolling arc plates 236 when two sets of rolling arc plates 236 rolling waste material, avoid the waste material to drop from this side.

The limiting component 24 is arranged on the inner side of the bracket 21, the limiting component 24 and the driving component 22 are respectively positioned at two ends of the winding component 23, and an opening and closing part is formed in the middle of the limiting component 24. The limiting assembly 24 comprises two groups of symmetrically distributed hydraulic cylinders 241, the output ends of the two groups of hydraulic cylinders 241 are fixedly connected with half discs 242, and the two groups of half discs 242 form an opening and closing part of the limiting assembly 24. Both sets of half-discs 242 are arranged in a semi-circle with a diameter greater than the diameter of the winding arc plate 236, and the two sets of half-discs 242 are symmetrically distributed. When the facing sides of the two sets of half-discs 242 are in aligned contact, they may serve to block scrap from sliding off of the two sets of winding arc plates 236 during such sliding. After the two sets of semi-discs 242 are moved back to back by the hydraulic cylinders 241 connected thereto, the waste material can no longer be blocked, so that a worker can push the waste material from the collecting tank to move down from the two sets of winding arc plates 236.

After the waste material is transferred to the two groups of winding arc plates 236, the waste material end part needs to be manually penetrated through a gap between the two groups of winding arc plates 236 and bent, so that the waste material can be wound when the winding driving motor 221 drives the limiting disc 223 to rotate and the two groups of winding arc plates 236 rotate along with the limiting disc 223. After the waste is rolled, the two groups of rolling arc plates 236 are adjusted so that gaps are formed between the two groups of rolling arc plates and the waste, and a worker can push the waste to be taken down at the moment.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The die cutting machine capable of automatically winding the waste comprises a die cutting machine (10), and is characterized by further comprising a waste winding structure (20), wherein the waste winding structure (20) comprises a bracket (21), a driving component (22) and a winding component (23), the driving component (22) is arranged on the inner side wall of the bracket (21) and is in driving connection with the winding component (23),

the driving assembly (22) comprises a winding driving motor (221), a mounting frame (222), a limiting disc (223) and an adjusting motor (224), wherein the winding driving motor (221) is mounted on the inner side wall of the bracket (21) and the output end of the winding driving motor is fixedly connected with the middle part of the mounting frame (222), one side of the mounting frame (222) facing the winding assembly (23) is fixedly connected with the limiting disc (223), the adjusting motor (224) is arranged in a gap between the mounting frame (222) and the limiting disc (223) and is mounted on the limiting disc (223), and the output end of the adjusting motor (224) penetrates through the limiting disc (223);

the winding assembly (23) comprises a central disc (231) which is fixedly clamped with the output end of the adjusting motor (224), two ends of the central disc (231) are respectively connected with a first positioning frame (232) and a second positioning frame (233) in a rotating mode, one end, far away from the central disc (231), of the first positioning frame (232) is connected with the middle of a first positioning arc plate (234) in a rotating mode, one end, far away from the central disc (231), of the second positioning frame (233) is connected with the middle of a second positioning arc plate (235) in a rotating mode, the end portion of the first positioning arc plate (234) and the end portion of the second positioning arc plate (235) are connected with a limiting disc (223) in a rotating mode, winding arc plates (236) are fixedly connected to the outer wall of the first positioning arc plate (234) and the outer wall of the second positioning arc plate (235), and the winding arc plates (236) are symmetrically distributed in two groups.

2. The automatic scrap rolling die cutting machine in accordance with claim 1 wherein the outer wall of the rolling arc plate (236) is provided as a smooth curved surface, and the length of the rolling arc plate (236) is greater than the width of the scrap output from the transfer end of the die cutting machine (10).

3. The die-cutting machine for automatically rolling waste materials according to claim 2, wherein the inner diameter of the limiting disc (223) is matched with the outer diameter of the rolling arc plates (236), and one side of each rolling arc plate (236) facing the limiting disc (223) extends into the inner cavity of the limiting disc (223).

4. A die cutting machine for automatically winding waste material according to claim 3, wherein the ends of the first positioning arc plate (234) and the second positioning arc plate (235) which are rotatably connected with the limiting disc (223) are respectively positioned at two opposite sides of the central disc (231), and the first positioning arc plate (234) and the second positioning arc plate (235) are respectively arranged in a circular arc shape matched with the winding arc plate (236).

5. The automatic waste rolling die-cutting machine according to claim 1, wherein the driving assembly (22) further comprises a limiting assembly (24), the limiting assembly (24) is installed and arranged on the inner side of the support (21), the limiting assembly (24) and the driving assembly (22) are respectively located at two ends of the rolling assembly (23), and an opening and closing portion is formed in the middle of the limiting assembly (24).

6. The automatic scrap rolling die-cutting machine according to claim 5, wherein the limiting assembly (24) comprises two groups of symmetrically distributed hydraulic cylinders (241), the output ends of the two groups of hydraulic cylinders (241) are fixedly connected with semi-discs (242), and the two groups of semi-discs (242) form an opening and closing part of the limiting assembly (24).

7. The automatic scrap rolling die cutting machine in accordance with claim 6 wherein both sets of said semi-circular discs (242) are arranged in a semi-circular configuration having a diameter greater than the diameter of the rolling arc (236) and wherein both sets of said semi-circular discs (242) are symmetrically disposed.

8. A die cutting machine for automatically winding waste material according to any one of claims 5-7, wherein a collecting tank is formed on a side of the bracket (21) adjacent to the limiting assembly (24) so that the waste material wound on the winding assembly (23) can be taken out from the collecting tank.