CN214359385U

CN214359385U - Full-automatic cutting machine

Info

Publication number: CN214359385U
Application number: CN202120079010.4U
Authority: CN
Inventors: 李章�; 蔡建平; 刘超柱
Original assignee: Zhejiang Rhyguan Machinery Co ltd
Current assignee: Zhejiang Rhyguan Machinery Co ltd
Priority date: 2021-01-13
Filing date: 2021-01-13
Publication date: 2021-10-08
Anticipated expiration: 2031-01-13

Abstract

The utility model discloses a full-automatic splitting machine, which comprises a frame, a material placing frame, a winding frame and a splitting mechanism, wherein the splitting mechanism is arranged between the material placing frame and the winding frame, the splitting mechanism also comprises an execution control panel and a program signal processing controller, the program execution control panel is electrically connected with the program signal processing controller, the splitting mechanism comprises an upper air expansion shaft and a lower air expansion shaft, the belt type pneumatic cutting machine comprises an upper cutter, a lower cutter, an upper cutter clamping plate, a lower cutter clamping plate, a servo motor and a belt arranged in a surrounding mode, wherein the transmission of the belt is controlled by the servo motor, the upper cutter clamping plate and the lower cutter clamping plate are connected to the belt, an upper pneumatic expansion shaft sleeve is provided with the upper cutter, a lower pneumatic expansion shaft sleeve is connected with the lower cutter, the servo motor and an air pump are connected in a control mode through a program signal processing controller, the positions of the upper cutter and the lower cutter correspond to each other, a position adjusting assembly is arranged between the upper pneumatic expansion shaft and the lower pneumatic expansion shaft, and the upper cutter and the lower cutter are abutted to each other through the position adjusting assembly. Therefore, the technical effect of automatically adjusting the positions of the upper cutter and the lower cutter is achieved.

Description

Full-automatic cutting machine

Technical Field

The utility model relates to a cutting machine, concretely relates to full-automatic cutting machine.

Background

The splitting machine is to split a large roll of paper, film, non-woven fabric, aluminum foil, mica tape and other various thin materials into small rolls with different widths before and after printing, and the device after printing is commonly used in paper making machinery and printing and packaging machinery.

Disclosure of Invention

In order to solve the problems, the utility model aims to provide a full-automatic cutting machine capable of automatically adjusting the position of an upper cutter and a lower cutter.

In order to achieve the above purpose, the utility model provides a following technical scheme: a full-automatic cutting machine comprises a rack, an emptying frame, a winding frame and a splitting mechanism, wherein the emptying frame is arranged on one side of the rack, the winding frame is arranged on the other side of the rack, the splitting mechanism is arranged between the emptying frame and the winding frame, the full-automatic cutting machine also comprises an execution control panel and a program signal processing controller, the program execution control panel is electrically connected with the program signal processing controller, the splitting mechanism comprises an upper inflatable shaft, a lower inflatable shaft, an upper cutter, a lower cutter, an upper cutter clamp plate, a lower cutter clamp plate, a servo motor and a belt arranged in a surrounding mode, the transmission of the belt is controlled by the servo motor, the upper cutter clamp plate and the lower cutter clamp plate are connected to the belt, the upper inflatable shaft is sleeved with the upper cutter, the lower inflatable shaft is connected with the lower cutter, the inflatable shaft is connected with the lower inflatable shaft through an air pump, the servo motor and the air pump are controlled and connected through the program signal processing controller, the upper cutter corresponds to the lower cutter in position, a position adjusting assembly is arranged between the upper inflatable shaft and the lower inflatable shaft, and the upper cutter and the lower cutter are mutually abutted through the position adjusting assembly.

The upper and lower cutter clamping plates comprise a telescopic left clamping block and a telescopic right clamping block, the left clamping block and the right clamping block are symmetrically arranged, the bottom of the right clamping block is connected with a first guide rail, the left clamping block is slidably arranged on the first guide rail, the right clamping block is slidably arranged on a second guide rail, the right clamping block is connected on the belt, the upper cutter and the lower cutter are positioned at intervals between the left clamping block and the right clamping block, the left clamping block and the right clamping block simultaneously clamp the upper cutter and the lower cutter to move, and a probe is further configured on the left clamping block.

The upper parts of the left clamping block and the right clamping block are respectively provided with a first clamping groove corresponding to the upper cutter, and the lower parts of the left clamping block and the right clamping block are respectively provided with a second clamping groove corresponding to the upper cutter.

The stretching of the left clamping block is driven by a first cylinder.

The adjusting component comprises an upper mounting seat and a lower mounting seat, the lower mounting seat is fixed on the rack, a guide rod is arranged on the lower mounting seat, the upper mounting seat is slidably mounted on the guide rod, one end of an upper inflatable shaft penetrates through a first helical gear arranged behind the upper mounting seat, one end of the lower inflatable shaft penetrates through a second helical gear arranged behind the lower mounting seat, a second air cylinder is arranged on the rack, a piston rod of the second air cylinder is connected onto the upper mounting seat, and the second air cylinder drives the upper mounting seat to abut against the lower mounting seat so that the first helical gear is meshed with the second helical gear.

The utility model discloses a this kind of structure, the workman as long as the specific position of cutter and lower cutter is gone up in setting up on carrying out control panel, cutter splint remove about the servo motor drives, and cutter and lower cutter splint are gripped to the cutter and are removed the position of setting for well on the position of cutter and lower cutter is started about its probe detects after the position of cutter and lower cutter, and easy operation is reliable, greatly reduced workman's intensity of labour, and save time improves production efficiency simultaneously.

The invention is further described with reference to the accompanying drawings and the detailed description.

Drawings

FIG. 1 is a perspective view of an embodiment of the present invention;

fig. 2 is a cutaway perspective view of the embodiment of the present invention.

Detailed Description

The present invention is described in detail below with reference to the following examples, which are only used for further illustration of the present invention, and should not be construed as limiting the scope of the present invention.

As shown in fig. 1 and fig. 2, the embodiment discloses a full-automatic splitting machine, which comprises a rack 1, a material placing frame 2, a winding frame 3, a splitting mechanism 4, an execution control panel 5 and a program signal processing controller (not shown in the figure), wherein the material placing frame 2 is installed on one side of the rack 1, the winding frame 3 is installed on the other side of the rack 1, the splitting mechanism 4 is arranged between the material placing frame 2 and the winding frame 3, the program execution control panel 5 and the program signal processing controller are electrically connected, the splitting mechanism 4 comprises an upper air expansion shaft 41, a lower air expansion shaft 42, an upper cutter 43, a lower cutter 44, an upper cutter clamp plate 45, a lower cutter clamp plate 40 and a belt arranged in a surrounding manner, the transmission of the belt is controlled by the servo motor 40, the upper cutter clamp plate 45 and the lower cutter clamp plate 45 are connected to the belt (not shown in the figure), the upper air expansion shaft 41 is sleeved with the upper cutter 43, the lower air expansion shaft 42 is sleeved with the lower cutter 44, the upper pneumatic expansion shaft 41 and the lower pneumatic expansion shaft 42 are connected through an air pump, the servo motor 40 and the air pump are connected under the control of a program signal processing controller, the upper cutter 43 corresponds to the lower cutter 44 in position, a position adjusting assembly 46 is arranged between the upper pneumatic expansion shaft 41 and the lower pneumatic expansion shaft 42, and the upper cutter 43 and the lower cutter 44 are abutted through the position adjusting assembly 46.

The upper and lower cutter clamping plates 45 comprise a telescopic left clamping block 451 and a right clamping block 452, the left clamping block 451 and the right clamping block 452 are symmetrically arranged, a first guide rail 453 is connected to the bottom of the right clamping block 452, the left clamping block 451 is slidably mounted on the first guide rail 453, the right clamping block 452 is slidably mounted on a second guide rail 454, the right clamping block 452 is connected to the belt, the upper cutter 43 and the lower cutter 44 are located at the interval position between the left clamping block 451 and the right clamping block 452, the left clamping block 451 and the right clamping block 452 simultaneously clamp the upper cutter 43 and the lower cutter 44 to move, and the left clamping block 451 is further provided with a probe 10 which is connected with a program signal processing controller. With such a structure, after the upper and lower cutter clamping plates 45 detect the positions of the upper cutter 43 and the lower cutter 44 through the probe, the upper cutter 43 and the lower cutter 44 can be clamped together, and then the upper cutter 43 moves along the upper inflatable shaft 41, the lower cutter 44 moves along the lower inflatable shaft 42, so that the positions of the upper cutter 43 and the lower cutter 44 are adjusted, and the efficiency of the position correction work of the upper cutter 43 and the lower cutter 44 is effectively improved.

The upper parts of the left clamping block 451 and the right clamping block 452 are respectively provided with a first clamping groove corresponding to the upper cutter 43, and the lower parts of the left clamping block 451 and the right clamping block 452 are respectively provided with a second clamping groove corresponding to the upper cutter 43. The first and second clamping grooves allow the upper and

lower cutters

43 and 44 to be clamped in the fixing grooves, thereby improving the reliability of position adjustment.

The extension and retraction of the left clamp block 451 is driven by a first cylinder (not shown). Such a structure makes the extension and retraction of the left clamping block 451 more reliable and convenient to install.

The adjusting assembly 46 includes an upper mounting seat 461 and a lower mounting seat 462, the lower mounting seat 462 is fixed on the frame 1, a guide 463 is provided on the lower mounting seat 462, the upper mounting seat 461 is slidably mounted on the guide 463, one end of the upper air-expansion shaft 41 passes through the upper mounting seat 461 and is configured with a first bevel gear 465, one end of the lower air-expansion shaft 42 passes through the lower mounting seat 462 and is configured with a second bevel gear 466, the frame 1 is provided with a second air cylinder 464, a piston rod of the second air cylinder 464 is connected on the upper mounting seat 461, the second air cylinder 464 drives the upper mounting seat 461 to abut on the lower mounting seat 462 so as to enable the first bevel gear 466 and the second bevel gear 466 to be meshed. By such an adjusting assembly 46, the upper mount 461 and the lower mount 462 can be better adjusted in spacing, thereby facilitating knife adjustment.

By adopting the technical scheme, a worker only needs to set the specific positions of the upper cutter 43 and the lower cutter 44 on the execution control panel 5, the servo motor 40 drives the upper cutter clamping plate 45 and the lower cutter clamping plate 45 to move, the probe of the servo motor starts the upper cutter clamping plate 45 and the lower cutter clamping plate 45 to clamp the upper cutter 43 and the lower cutter 44 to move to the set positions after detecting the positions of the upper cutter 43 and the lower cutter 44, the operation is simple and reliable, the labor intensity of the worker is greatly reduced, the time is saved, and the production efficiency is improved.

Claims

1. The utility model provides a full-automatic cutting machine, includes frame, blowing frame, rolling frame and cuts the mechanism, the blowing frame is installed one side of frame, the rolling frame is installed the opposite side of frame cuts the mechanism setting between blowing frame and rolling frame, its characterized in that: the cutting mechanism comprises an upper inflatable shaft, a lower inflatable shaft, an upper cutter, a lower cutter, an upper cutter clamp plate, a lower cutter clamp plate, a servo motor and a belt arranged in a surrounding mode, the transmission of the belt is controlled by the servo motor, the upper cutter clamp plate and the lower cutter clamp plate are connected to the belt, the upper inflatable shaft is sleeved with the upper cutter, the lower inflatable shaft is sleeved with the lower cutter, the upper inflatable shaft and the lower inflatable shaft are connected through an air pump, the servo motor and the air pump are connected in a control mode through a program signal processing controller, the upper cutter corresponds to the lower cutter in position, a position adjusting assembly is arranged between the upper inflatable shaft and the lower inflatable shaft, and the upper cutter and the lower cutter are abutted through the position adjusting assembly.

2. The fully automatic slitter according to claim 1, wherein: the upper and lower cutter clamping plates comprise a telescopic left clamping block and a telescopic right clamping block, the left clamping block and the right clamping block are symmetrically arranged, the bottom of the right clamping block is connected with a first guide rail, the left clamping block is slidably arranged on the first guide rail, the right clamping block is slidably arranged on a second guide rail, the right clamping block is connected on the belt, the upper cutter and the lower cutter are positioned at intervals between the left clamping block and the right clamping block, and the left clamping block and the right clamping block simultaneously clamp the upper cutter and the lower cutter to move.

3. The fully automatic slitter according to claim 2, wherein: the upper parts of the left clamping block and the right clamping block are respectively provided with a first clamping groove corresponding to the upper cutter, and the lower parts of the left clamping block and the right clamping block are respectively provided with a second clamping groove corresponding to the upper cutter.

4. The fully automatic slitter according to claim 2, wherein: the stretching of the left clamping block is driven by a first cylinder.

5. The fully automatic slitter according to claim 1, wherein: the adjusting component comprises an upper mounting seat and a lower mounting seat, the lower mounting seat is fixed on the rack, a guide rod is arranged on the lower mounting seat, the upper mounting seat is slidably mounted on the guide rod, one end of an upper inflatable shaft penetrates through a first helical gear arranged behind the upper mounting seat, one end of the lower inflatable shaft penetrates through a second helical gear arranged behind the lower mounting seat, a second air cylinder is arranged on the rack, a piston rod of the second air cylinder is connected onto the upper mounting seat, and the second air cylinder drives the upper mounting seat to abut against the lower mounting seat so that the first helical gear is meshed with the second helical gear.