CN220052105U - Circular knife cross cutting machine with automatic material structure that goes - Google Patents

Abstract

The utility model discloses a circular knife die cutting machine with an automatic material removing structure, which comprises a machine tool, wherein a material loading mounting frame is arranged at the middle of the upper side wall of the machine tool near the rear side, a material loading roller is arranged at the middle of the material loading mounting frame, an adjusting frame is arranged on the front side of the material loading mounting frame on the upper side wall of the machine tool, a cutting end mounting frame is arranged on the inner side of the adjusting frame on the upper side wall of the machine tool, driving rollers are arranged on the inner sides of the two side walls of the cutting end mounting frame, and a circular knife connecting frame is arranged on the inner side of the two side walls of the cutting end mounting frame and above the driving roller mounting frame. According to the utility model, the product adhered on the raw material is ejected out through the material removing ejector pin, and the bottom of the expansion plate is hinged with the fixed plate, and the tops of the expansion plate and the fixed plate are connected through the connecting spring, so that the connecting spring drives the material removing mold to shrink backwards when the raw material is extruded, the ejector pin is prevented from damaging the raw material, and the subsequent secondary processing is facilitated.

Description

Circular knife cross cutting machine with automatic material structure that goes

Technical Field

The utility model relates to the technical field of circular knife die cutting machines, in particular to a circular knife die cutting machine with an automatic material removing structure.

Background

The circular knife die cutting machine is mainly used for die cutting of products, in particular to thin products such as a protective film, an electric meninges, printed matters, double-sided self-adhesive tapes and the like of a mobile phone, and has the advantages of high die cutting speed, high die cutting quality and the like.

However, after die cutting is completed, part of printing materials still adhere to the raw materials, and due to the lack of effective material removing measures, the raw materials often need to be removed manually, the efficiency is low, and the raw materials are easy to waste.

Disclosure of Invention

The utility model aims to solve the defects in the prior art, and provides a circular knife die-cutting machine with an automatic material removing structure.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a circular knife cross cutting machine with automatic material removing structure, includes the lathe, the material loading mounting bracket is installed near the rear side position in the middle of the upper lateral wall of lathe, the material loading roller is installed to the intermediate position of material loading mounting bracket, the alignment jig is installed to the upper lateral wall of lathe and be located the front side of material loading mounting bracket, the cutting end mounting bracket is installed to the upper lateral wall of lathe and be located the inboard of alignment jig, the drive roller is installed to the both sides wall inboard of cutting end mounting bracket, the circular knife link is equipped with to the both sides wall inboard of cutting end mounting bracket and be located the top of drive roller mounting bracket, two circular knife roller is installed through the bearing to the inboard of circular knife link, two the upper lateral wall fixedly connected with drive frame of circular knife link, the upper lateral wall center department bolted connection of alignment jig has the governing cylinder, the expansion end of governing cylinder runs through the upper lateral wall center department of alignment jig and is fixed connection with the drive frame, the front lateral wall both sides of alignment jig are close to the lower extreme position and are installed and are removed the material subassembly;

through the technical scheme, the raw materials which are not subjected to die cutting are coiled and conveyed through the feeding roller, and the raw materials are subjected to die cutting through the circular knife roller and the driving roller.

Further, an infrared ranging sensor is arranged on the upper side wall of the adjusting frame near one side and near the rear side, a reflecting plate is fixedly connected to the rear side wall of the circular knife connecting frame near one side, the reflecting plate is matched with the infrared ranging sensor, and the reflecting plate is positioned under the signal input end of the infrared ranging sensor;

through above-mentioned technical scheme, can survey the distance of reflecting plate to infrared range finding sensor through infrared range finding sensor to survey circle sword roller's rising distance, make the altitude mixture control of circle sword roller finer.

Further, the material removing assembly comprises two material removing mounting plates, two adjusting grooves are formed in the plate bodies of the material removing mounting plates, a fixing plate is connected in the adjusting grooves in a sliding mode, the fixing plates are arranged on the outer sides of the material removing mounting plates, a fixing screw is connected with the fixing plates in a threaded mode, the fixing plates are fixed between the two material removing mounting plates through the fixing screw, a telescopic plate is hinged to the lower side wall of the fixing plate, connecting springs are fixedly connected to the tops of the two sides of the front side wall of the fixing plate, the other ends of the connecting springs are fixedly connected to the positions of the two sides of the tops of the rear side wall of the telescopic plate, a material removing die is connected to the front side wall of the telescopic plate in a clamping mode, and a plurality of material removing ejector pins are arranged on the front side wall of the material removing die;

through above-mentioned technical scheme, after the former material cross cutting, the below that goes the material subassembly is led to through the guide roll, when going through the material mould again, the product of adhesion on the former material will be ejecting by the material thimble that goes, because the bottom of expansion plate is articulated with the fixed plate, and the top of two is passed through connecting spring and is connected, therefore when the extrusion of facing the former material, connecting spring drives and goes the material mould and shrink backward, can avoid the thimble to damage the former material, subsequent secondary operation has been made things convenient for, and go the material mould and go the material thimble and can customize according to the type of cross cutting product, thereby with various processing product adaptations.

Further, a guide frame is arranged on the upper side wall of the machine tool and positioned at the front side of the material removing assembly, and a guide roller is arranged in the guide frame;

through the technical scheme, the cut residual raw materials are guided to the blanking electric roller through the guide roller.

Further, a blanking mounting frame is arranged on the upper side wall of the machine tool and positioned at the front side of the guide frame, and a blanking electric roller is arranged in the blanking mounting frame;

through the technical scheme, the residual raw materials are collected through the blanking electric roller.

Further, a conveying belt is arranged in the middle of the upper side wall of the machine tool, the rear end of the conveying belt is positioned below the cutting end mounting frame, and the front end of the conveying belt is positioned at the front end of the machine tool;

through the technical scheme, the die-cut products are output through the conveying belt.

Further, the front side wall of the machine tool is connected with a conveying guide plate through pin shafts at two sides of the front end of the conveying belt;

through the technical scheme, the die-cut product is output from the machine tool through the conveying guide plate.

Further, a control box is arranged on the other side of the machine tool, a touch panel is arranged on the upper side wall of the control box, and the touch panel, the conveying belt, the blanking electric roller, the guide roller, the infrared ranging sensor, the adjusting cylinder, the driving roller and the feeding roller are electrically connected with the control box;

through the technical scheme, each executive component can be controlled to stably run through the control box.

The utility model has the following beneficial effects:

1. according to the utility model, after the raw material is die-cut, the raw material is guided to the lower part of the material removing assembly through the guide roller, and then the product adhered to the raw material is ejected out by the ejector pin through the material removing die, so that the utilization rate of the raw material is higher, and the complex procedure of manual material removing is avoided.

2. According to the utility model, the driving frame is controlled by the adjusting air cylinder, so that the distance between the circular knife roller and the driving roller can be adjusted, and the die cutting machine is convenient to deal with raw materials with different thicknesses.

3. According to the utility model, the distance from the reflecting plate to the infrared ranging sensor can be measured through the infrared ranging sensor, so that the rising distance of the circular knife roller is measured, and the height adjustment of the circular knife roller is finer.

Drawings

Fig. 1 is a perspective view showing a circular knife die-cutting machine with an automatic material removing structure according to the present utility model;

fig. 2 is an axial side view of a circular knife die cutter with an automatic material removing structure according to the present utility model;

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

FIG. 4 is a schematic view of the back of a circular knife die cutter with an automatic material removing structure according to the present utility model;

fig. 5 is an enlarged schematic view at B in fig. 4.

Legend description:

a machine tool; 2. a conveyor belt; 3. conveying guide plates; 4. feeding installation frame; 5. a feeding roller; 6. an adjusting frame; 7. adjusting a cylinder; 8. discharging mounting frames; 9. discharging electric rollers; 10. a control box; 11. a touch panel; 12. a guide frame; 13. a cutting end mounting rack; 1400. a stripping assembly; 15. a circular knife roll; 16. a driving roller; 17. a circular knife connecting frame; 18. a drive rack; 19. a reflection plate; 20. a guide roller; 21. an infrared ranging sensor; 1401. a stripping mounting plate; 1402. an adjustment tank; 1403. fixing a nut; 1404. a fixing plate; 1405. a connecting spring; 1406. a telescoping plate; 1407. removing a material die; 1408. and (5) removing a thimble.

Description of the embodiments

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, one embodiment provided by the present utility model is: the utility model provides a round-knife die-cutting machine with automatic material-removing structure, including lathe 1, material loading mounting bracket 4 is installed near the rear side position in the middle of the upper sidewall of lathe 1, material loading roller 5 is installed to the intermediate position of material loading mounting bracket 4, adjust the front side of 1 upper sidewall of lathe and being located material loading mounting bracket 4 installs alignment jig 6, cutting end mounting bracket 13 is installed to the inboard of 6 of upper sidewall of lathe 1 and being located alignment jig, drive roller 16 is installed to the both sides wall inboard of cutting end mounting bracket 13, the both sides wall inboard of cutting end mounting bracket 13 and be located the top of drive roller mounting bracket 16 have set up round-knife link 17, round-knife roller 15 is installed through the bearing to the inboard of two round-knife link 17, the last lateral wall fixedly connected with drive frame 18 of two round-knife link 17, the last lateral wall center department bolted connection of alignment jig 7, the expansion end of adjust the cylinder 7 runs through the last lateral wall center department of alignment jig 6 and with drive frame 18 fixedly connected, the front lateral wall both sides of alignment jig 6 lean on the lower extreme position to install material-removing subassembly 1400, be used for coiling and carrying the former material through upper roller 5 and the thickness of the roller 15 through the roller 15 and the thickness of the roller 15, the former material of the die-cutting roller is different from the thickness of the roller 15, the thickness of the die-cutting roller is different from the roller 15 is not adjusted because of the thickness of the roller 15 is different from the roller 15, the die-cutting machine is convenient.

The upper side wall of the adjusting frame 6 is provided with an infrared ranging sensor 21 near one side and near the rear side, the rear side wall of the circular knife connecting frame 17 near one side is fixedly connected with a reflecting plate 19, the reflecting plate 19 is matched with the infrared ranging sensor 21, the reflecting plate 19 is positioned right below a signal input end of the infrared ranging sensor 21, and the distance from the reflecting plate 19 to the infrared ranging sensor 21 can be measured through the infrared ranging sensor 21, so that the rising distance of the circular knife roller 15 is measured, and the height of the circular knife roller 15 is adjusted more finely.

The stripping assembly 1400 comprises two stripping mounting plates 1401, adjusting grooves 1402 are arranged on the plate bodies of the two stripping mounting plates 1401, fixing plates 1404 are connected in a sliding manner in the two adjusting grooves 1402, fixing nuts 1403 are connected to the portions, which are arranged on the outer sides of the stripping mounting plates 1401, of the two fixing plates 1404 in a threaded manner, the fixing plates 1404 are fixed between the two stripping mounting plates 1401 through the fixing nuts 1403, telescopic plates 1406 are hinged to the lower side walls of the fixing plates 1404, connecting springs 1405 are fixedly connected to the tops of the two sides of the front side walls of the fixing plates 1404, the other ends of the connecting springs 1405 are fixedly connected to the positions of the two sides of the tops of the rear side walls of the telescopic plates 1406, stripping dies 1407 are clamped on the front side walls of the telescopic plates 1406, the front side wall of the material removing die 1407 is provided with a plurality of material removing thimbles 1408, after the raw material is die-cut, the raw material is guided to the lower part of the material removing assembly 1400 through the guide roller 20, and then the product adhered to the raw material is ejected out by the thimbles when passing through the material removing die 1407, as the bottom of the telescopic plate 1406 is hinged with the fixed plate 1404, and the tops of the telescopic plate 1406 and the fixed plate 1404 are connected through the connecting spring 1405, when the raw material is extruded, the connecting spring 1405 drives the material removing die 1407 to shrink backwards, the raw material is prevented from being damaged by the thimbles, the subsequent secondary processing is facilitated, and the material removing die 1407 and the material removing thimbles 1408 can be customized according to the type of die-cut products, so that the material removing die is matched with various processed products.

The guide frame 12 is installed to the upside of the upper side wall of lathe 1 and being located the front side of removing material subassembly 1400, install the guide roll 20 in the guide frame 12, on the guide roll 9 is led to the surplus former material after will cutting through the guide roll 20, the unloading mounting bracket 8 is installed to the upside of the upper side wall of lathe 1 and being located the guide frame 12, install unloading roller 9 in the unloading mounting bracket 8, collect surplus former material through unloading roller 9, the conveyer belt 2 is installed to the upper side wall intermediate position of lathe 1, the rear end of conveyer belt 2 is located the below of cutting end mounting bracket 13, the front position of conveyer belt 2 is located the front end of lathe 1, the product of die cutting is exported through conveyer belt 2, the preceding lateral wall of lathe 1 and be located the front end both sides position round pin hub connection of conveyer belt 2 have carry deflector 3, export the product of die cutting completion from lathe 1 through carrying deflector 3, control box 10 is installed to the opposite side of lathe 1, touch panel 11 is installed to the upper side wall of control box 10, touch panel 11, conveyer belt 2, unloading roller 9, guide roller 20, the infrared sensor 21, 16, the equal electric connection cylinder control box 10.

Working principle: the raw materials which are not die-cut are coiled and conveyed through the feeding roller 5, the raw materials are die-cut through the circular knife roller 15 and the driving roller 16, the thickness of each raw material is different, the driving frame 18 is controlled through the adjusting cylinder 7, the distance between the circular knife roller 15 and the driving roller 16 is adjusted, the die-cutting machine is convenient for handling raw materials with different thicknesses, the distance from the reflecting plate 19 to the infrared ranging sensor 21 can be measured through the infrared ranging sensor 21, the rising distance of the circular knife roller 15 is measured, the height adjustment of the circular knife roller 15 is finer, after the raw materials are die-cut, the raw materials are guided to the lower side of the material removing assembly 1400 through the guide roller 20, then, when the raw materials are die-cut, the products adhered to the raw materials are ejected through the ejector pins 1407, and the bottoms of the telescopic plate 1406 are hinged with the fixed plate 1404, and the tops of the telescopic plate 1405 are connected through the connecting springs, when the telescopic plate 1405 is extruded, the connecting springs drive the material removing die 1407 to shrink backwards, the raw materials are prevented from being damaged, the subsequent secondary processing is convenient, the material removing die 1407 and the ejector pins can be matched with the die-cutting plate 3, and the products can be die-cut through the guide plate 3 after the guide plate is matched with the die-cutting plate, and the die-cut products are die-cut through the guide plate 3, and the die-cut products are conveyed by the machine tool 2, and the die-cut 3 is finished.

Finally, it should be noted that: the foregoing description of the preferred embodiments of the present utility model is not intended to be limiting, but rather, although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (8)

1. The utility model provides a circular knife cross cutting machine with automatic material structure that goes, includes lathe (1), its characterized in that: the feeding device is characterized in that a feeding installation frame (4) is installed in the middle of the upper side wall of the machine tool (1) near the rear side, a feeding roller (5) is installed in the middle of the feeding installation frame (4), an adjusting frame (6) is installed on the front side of the upper side wall of the machine tool (1) and located on the feeding installation frame (4), a cutting end installation frame (13) is installed on the inner side of the upper side wall of the machine tool (1) and located on the adjusting frame (6), a driving roller (16) is installed on the inner side of the two side walls of the cutting end installation frame (13) and located on the driving roller installation frame (16), a circular cutter connecting frame (17) is installed on the inner side of the circular cutter connecting frame (17) through a bearing, two circular cutter connecting frames (17) are fixedly connected with driving frames (18) on the upper side walls, adjusting cylinders (7) are connected with the center of the upper side walls of the adjusting frames (6) through bolts, and the moving ends of the adjusting cylinders (7) penetrate through the center of the upper side walls of the adjusting frames (6) and are fixedly connected with the driving frames (1400) on the two sides of the driving frames (6).

2. The circular knife die cutting machine with automatic material removing structure according to claim 1, wherein: the infrared distance measuring device is characterized in that an infrared distance measuring sensor (21) is arranged on the upper side wall of the adjusting frame (6) near one side and near the rear side, a reflecting plate (19) is fixedly connected to the rear side wall of the circular knife connecting frame (17) near one side, the reflecting plate (19) is matched with the infrared distance measuring sensor (21), and the reflecting plate (19) is located under the signal input end of the infrared distance measuring sensor (21).

3. The circular knife die cutting machine with automatic material removing structure according to claim 1, wherein: the utility model provides a go material subassembly (1400) including two go material mounting panel (1401), two go the board of material mounting panel (1401) on one's body and seted up adjustment tank (1402), two it has fixed plate (1404) to slide in adjustment tank (1402), two fixed plate (1404) set up in the part threaded connection that goes the material mounting panel (1401) outside have fixed screw (1403), fixed plate (1404) are fixed between two go material mounting panel (1401) through fixed screw (1403), the lower lateral wall of fixed plate (1404) articulates there is expansion plate (1406), the other end fixedly connected with coupling spring (1405) of fixed plate (1404) preceding lateral wall top both sides, the preceding lateral wall joint of expansion plate (1406) has and goes material mould (1407), the preceding lateral wall that goes material mould (1407) is provided with a plurality of ejector pins (1408).

4. The circular knife die cutting machine with automatic material removing structure according to claim 1, wherein: the guide frame (12) is arranged on the upper side wall of the machine tool (1) and positioned at the front side of the material removing assembly (1400), and the guide roller (20) is arranged in the guide frame (12).

5. The circular knife die cutting machine with automatic material removing structure according to claim 1, wherein: the blanking machine tool is characterized in that a blanking mounting frame (8) is mounted on the upper side wall of the machine tool (1) and located at the front side of the guide frame (12), and a blanking electric roller (9) is mounted in the blanking mounting frame (8).

6. The circular knife die cutting machine with automatic material removing structure according to claim 1, wherein: the conveying belt (2) is arranged in the middle of the upper side wall of the machine tool (1), the rear end of the conveying belt (2) is located below the cutting end mounting frame (13), and the front end of the conveying belt (2) is located at the front end of the machine tool (1).

7. The circular knife die cutting machine with automatic material removing structure according to claim 1, wherein: the front side wall of the machine tool (1) is connected with a conveying guide plate (3) through pin shafts at two sides of the front end of the conveying belt (2).

8. The circular knife die cutting machine with automatic material removing structure according to claim 1, wherein: the other side of lathe (1) is installed control box (10), touch panel (11) are installed to the upper side wall of control box (10), touch panel (11), conveyer belt (2), unloading electric roll (9), guide roll (20), infrared range sensor (21), governing cylinder (7), drive roller (16), material loading roller (5) all with control box (10) electric connection.