CN203818178U - Automatic cutter - Google Patents

Abstract

The utility model relates to the field of paperboard cutting devices, in particular to an automatic cutter that is simple in structure and can automatically complete feeding and cutting. The automatic cutter comprises a cutting platform and a conveying mechanism, wherein the cutting platform is horizontally arranged, and is butted with the conveying surface of the conveying mechanism; a vertical downward strip-shaped cutting blade is arranged at the upper part of one end, close to the conveying mechanism, of the cutting platform; vertical downward sliding rails are arranged on the both sides, corresponding to the cutting blade, of the cutting platform; both ends of the cutting blade are arranged in the sliding rails; the cutting blade can move up and down along the sliding rails; flexible air cylinders are fixed at the upper part of the cutting blade; the extending ends of the flexible air cylinders are connected with the cutting blade; the conveying mechanism is connected with a power mechanism. The automatic cutter is simple in structure; besides, as infrared detectors are adopted to detect the size and length of a cut product, the controlling is and the cutting is agile; thus, each part of the cut product can be cut off at once, and the cut product is guaranteed to contain at least one rectangular in a required size.

Description

Automatic gas cutting machine

Technical field

The utility model relates to cardboard cutting equipment field, especially a kind of automatic gas cutting machine for cardboard cutting.

Background technology

Existing paperboard cutting machine is when cutting rectangular cardboard, all manually by object of reference, cardboard to be carried out spacing, then after locating by artificial visually examine, cut, tend to cause cutting error large, thereby making the cardboard having cut is non-rectangle state, and because regional area is undersized and cannot make up, cause thoroughly scrapping of this cardboard, caused the raising of cutting percent defective, serious impact the normal cutting of cardboard, improve the cost that cardboard cutting produces, caused cardboard waste.And existing cutting machine is mostly artificial feeding, thereby increased cost of labor.

Utility model content

The purpose of this utility model is to provide a kind of simple in structure in order to solve the deficiency of above-mentioned technology, can automatically complete the automatic gas cutting machine of feeding and cutting.

In order to achieve the above object, the automatic gas cutting machine that the utility model is designed, it comprises Cutting platform and conveying mechanism, described Cutting platform is horizontally disposed with, the conveyor surface of Cutting platform and conveying mechanism is in sustained height, and docking arranges, at Cutting platform, be provided with cutter straight down above near conveying mechanism one end, cutter are strip, while is provided with slide rail straight down in the both sides of the Cutting platform of cutter correspondence position, the two ends of described cutter are arranged in slide rail, cutter can move up and down along slide rail, above cutting to, be fixed with telescopic cylinder, the external part of telescopic cylinder is connected with cutter, described conveying mechanism is connected with actuating unit, actuating unit provides power for conveying mechanism.This technical scheme, provides power by actuating unit for conveying mechanism, and conveying mechanism can be delivered on Cutting platform being cut product, then cylinder external part extends, and drives cutter to move downward, thereby realize, cardboard is cut, one cutter completes, and cutting efficiency is high, and cutting is whole.

As optimization, described conveying mechanism comprises conveyer belt and transfer roller, and conveyer belt winding is on transfer roller, and described actuating unit is connected with one of them transfer roller, for conveyer belt transmission provides power.This structure connects greatly the contact-making surface between cut product and conveyer belt, thereby has increased frictional force between the two, thereby avoids cut product, on conveying mechanism, relative sliding occurs and affect the situation of the precision of cutting, raising cutting accuracy.

Further optimize, on Cutting platform, interval is provided with many strip grooves, strip groove connects whole Cutting platform, the direction of strip groove is vertical with the transfer roller of conveying mechanism, below Cutting platform, be provided with two tracks that are parallel to each other, described track is vertical with transfer roller, on Gui road, Transverse puts a cross bar, on the cross bar with every strip groove correspondence position, be equipped with an Infrared Detectors, all Infrared Detectors are on same straight line, and this straight line is parallel with cutter, described Infrared Detectors is all electrically connected to actuating unit.This technical scheme, utilize the cross bar mobile adjusting realizing the position of Infrared Detectors in orbit, it is the distance between adjustable Infrared Detectors and cutter, and when the top of cut product moves to Infrared Detectors top, Infrared Detectors detects this product, control immediately actuating unit and stop providing power, thereby make cut product keep this position, realize the controlled of product Cutting Length, and control accuracy is high, the setting of whole row's Infrared Detectors simultaneously, when all detectors all detect cut product above it time, just control actuating unit and stop action, the product that makes to be cut is more than or equal to the profile of needed rectangle, if part position is greater than the size of required rectangle, can repair by the later stage, avoid the product rejection after whole cutting, reduce percent defective, cost-saving.

Further optimize, described actuating unit comprises motor, gearbox, worm gear and worm screw, and described motor is connected with gearbox, and the output shaft of gearbox is connected with worm-drive, worm and wheel coordinates, and worm gear is connected with one of them transfer roller on conveying mechanism.This structure provides power to conveying mechanism, dynamical stability, carry at the uniform velocity, and when receiving the instruction that Infrared Detectors provides, can cut off immediately motor power, and by the auto-lock function of worm and gear, avoid conveying mechanism because inertia continues motion certain distance forward, thereby effectively raise the accuracy that detects and cut, reduce cutting error.

The quantity of described telescopic cylinder is 2 or 3, is separately positioned on two ends or two ends and the centre position of cutter; It is consistent that the stroke of all cylinders remains.The setting of this structure makes cutter to have improved bearing capacity and the impact resistance at each positions of cutter all the time in level simultaneously, improves the cutting performance of cutter.

Further optimize, described cutter surface is provided with reinforcement, can improve like this intensity of cutter.

The resulting automatic gas cutting machine of the utility model, it is simple in structure, utilize Infrared Detectors to detect the dimensions length of cut product, and control precisely, it is agile to cut, make each position all can realize single solution for diverse problems disconnected, guarantee that the product being cut at least comprises the rectangle of a required size simultaneously.

Accompanying drawing explanation

Fig. 1 is structure schematic top plan view of the present utility model;

Fig. 2 is structure schematic side view of the present utility model.

The specific embodiment

Below by embodiment, the utility model will be further described by reference to the accompanying drawings.

Embodiment 1:

As Fig. 1, shown in Fig. 2, the automatic gas cutting machine that the present embodiment is described, it comprises Cutting platform 1 and conveying mechanism 2, described Cutting platform 1 is horizontally disposed with, the conveyor surface of Cutting platform 1 and conveying mechanism 2 is in sustained height, and docking arranges, at Cutting platform 1, be provided with cutter 3 straight down above near conveying mechanism 2 one end, cutter 3 are strip, while is provided with slide rail 4 straight down in the both sides of the Cutting platform 1 of cutter 3 correspondence positions, the two ends of described cutter 3 are arranged in slide rail 4, cutter 3 can move up and down along slide rail 4, above cutting to, be fixed with telescopic cylinder 5, the external part of telescopic cylinder 5 is connected with cutter 3, described conveying mechanism 2 is connected with actuating unit 6, actuating unit 6 provides power for conveying mechanism 2, described conveying mechanism 2 comprises conveyer belt 22 and transfer roller 21, and conveyer belt 22 windings are on transfer roller 21, and described actuating unit 6 is connected with one of them transfer roller 21, for conveyer belt 22 transmissions provide power.

On Cutting platform 1, interval is provided with many strip grooves 7, strip groove 7 connects whole Cutting platform 1, the direction of strip groove 7 is vertical with the transfer roller 21 of conveying mechanism 2, below Cutting platform 1, be provided with two tracks that are parallel to each other 8, described track 8 is vertical with transfer roller 21, on track 8, Transverse puts a cross bar 9, on the cross bar 9 with every strip groove 7 correspondence positions, be equipped with an Infrared Detectors 10, all Infrared Detectors 10 are on same straight line, and this straight line is parallel with cutter 3, described Infrared Detectors 10 is all electrically connected to actuating unit 6.Described actuating unit 6 comprises motor 61, gearbox 62, worm gear 64 and worm screw 63, described motor 61 is connected with gearbox 62, the output shaft of gearbox 62 and worm screw 63 are in transmission connection, and worm screw 63 coordinates with worm gear 64, and 64, worm gear is connected with one of them transfer roller 21 on conveying mechanism 2.

The quantity of described telescopic cylinder 5 is 2, is separately positioned on the two ends of cutter 3; The stroke of all cylinders 5 remains consistent.

Improvement as above-described embodiment: described cutter surface is provided with reinforcement, it is spaced apart that reinforcement is on blade, and cross section takes the form of inclined plane, and in use intensity is higher for cutter like this, longer service life.Reinforcement can be integral structures with cutter, can be also add in the later stage install and adopt the alloy that hardness is higher firm, certainly, the scheme of not establishing reinforcement is also feasible.

Claims (8)

1. an automatic gas cutting machine, it comprises Cutting platform and conveying mechanism, it is characterized in that described Cutting platform is horizontally disposed with, the conveyor surface of Cutting platform and conveying mechanism is in sustained height, and docking arranges, at Cutting platform, be provided with cutter straight down above near conveying mechanism one end, cutter are strip, while is provided with slide rail straight down in the both sides of the Cutting platform of cutter correspondence position, the two ends of described cutter are arranged in slide rail, cutter can move up and down along slide rail, above cutting to, be fixed with telescopic cylinder, the external part of telescopic cylinder is connected with cutter, described conveying mechanism is connected with actuating unit, actuating unit provides power for conveying mechanism.

2. a kind of automatic gas cutting machine according to claim 1, is characterized in that described conveying mechanism comprises conveyer belt and transfer roller, and conveyer belt winding is on transfer roller, and described actuating unit is connected with one of them transfer roller, for conveyer belt transmission provides power.

3. a kind of automatic gas cutting machine according to claim 1 and 2, many the strip grooves that are provided with that it is characterized in that on Cutting platform interval, strip groove connects whole Cutting platform, the direction of strip groove is vertical with the transfer roller of conveying mechanism, below Cutting platform, be provided with two tracks that are parallel to each other, described track is vertical with transfer roller, on Gui road, Transverse puts a cross bar, on the cross bar with every strip groove correspondence position, be equipped with an Infrared Detectors, all Infrared Detectors are on same straight line, and this straight line is parallel with cutter, described Infrared Detectors is all electrically connected to actuating unit.

4. a kind of automatic gas cutting machine according to claim 3, it is characterized in that described actuating unit comprises motor, gearbox, worm gear and worm screw, described motor is connected with gearbox, the output shaft of gearbox is connected with worm-drive, worm and wheel coordinates, and worm gear is connected with one of them transfer roller on conveying mechanism.

5. a kind of automatic gas cutting machine according to claim 1, the quantity that it is characterized in that described telescopic cylinder is 2 or 3, is separately positioned on two ends or two ends and the centre position of cutter.

6. a kind of automatic gas cutting machine according to claim 5, is characterized in that the stroke of all cylinders remains consistent.

7. a kind of automatic gas cutting machine according to claim 5, is characterized in that described cutter surface is provided with reinforcement.

8. a kind of automatic gas cutting machine according to claim 6, is characterized in that described cutter surface is provided with reinforcement.