CN111153270A

CN111153270A - Automatic material receiving machine for film sheet materials matched with high-speed rotary die cutting machine

Info

Publication number: CN111153270A
Application number: CN202010090619.1A
Authority: CN
Inventors: 胡宗维; 谢占峰; 张�雄
Original assignee: Dongguan Jpond Industrial Co ltd
Current assignee: Dongguan Jpond Industrial Co ltd
Priority date: 2020-02-13
Filing date: 2020-02-13
Publication date: 2020-05-15
Anticipated expiration: 2040-02-13
Also published as: CN111153270B

Abstract

The invention relates to an automatic material receiving machine of a film sheet material matched with a high-speed rotary die-cutting machine, which comprises a main machine table, wherein a supplied material conveying device is arranged on the main machine table in an extending manner towards one side; the receiving device is arranged on the host computer platform and at the tail end of the incoming material conveying device and comprises an adjusting baffle, upper receiving plates and lower receiving plates, each upper receiving plate on two sides is connected with an upper receiving plate driving mechanism, and each lower receiving plate on two sides is connected with a lower receiving plate driving mechanism; the device also comprises a material receiving frame conveying belt, a frame pushing cylinder and a transverse shifting rod. The receiving machine is particularly used for film sheet materials, realizes the quick and non-offset overturning and blanking of the supplied materials by utilizing the twice receiving and discharging, and simultaneously counts accurately, thereby greatly simplifying the packaging and counting operation of the film sheet materials, realizing the automatic arrangement and automatic collection operation of the film sheet materials, greatly improving the production efficiency, the stability and the product consistency, reducing the manual operation, reducing the probability of pollution and damage of the products, and improving the product quality.

Description

Automatic material receiving machine for film sheet materials matched with high-speed rotary die cutting machine

The technical field is as follows:

the invention relates to the technical field of film material compounding equipment, in particular to an automatic material receiving machine of a film sheet material matched with a high-speed rotary die cutting machine.

Background art:

at present, a large amount of composite die-cutting film materials and the like are required to be used in the production process of electronic products such as mobile phones, tablet computers and the like, the composite die-cutting film materials are produced by adopting a high-speed rotary die-cutting machine (also called a circular knife machine and the like in the industry), the die-cut products are usually cut into sections or attached to a carrier tape for rolling, and then the products are finished, counted, packaged and the like by adopting manual sorting and other modes, so that the problems of low operation efficiency, complexity and the like exist, and the product quality is influenced by easily polluting the products.

The invention content is as follows:

the invention aims to overcome the defects in the prior art and provides the automatic film sheet material receiving machine matched with the high-speed rotary die-cutting machine.

The technical scheme adopted by the invention is as follows: the utility model provides a supporting automatic material machine that connects of film sheet stock of using of high-speed rotatory cross cutting machine which includes the host computer platform, wherein: a supplied material conveying device is arranged on the host machine table in an extending manner towards one side; the material receiving device is arranged on the main machine table and at the tail end of the incoming material conveying device and comprises a main mounting plate which is connected with the tail end of the incoming material conveying device and is provided with a feed opening, and adjusting baffles which are longitudinally arranged and can be transversely adjusted are respectively arranged on two sides of the feed opening of the main mounting plate;

an upper material receiving plate and a lower material receiving plate which are arranged at intervals up and down and are perpendicular to the adjusting baffle and can penetrate through the adjusting baffle are respectively arranged below the main mounting plate and outside the two adjusting baffles, each upper material receiving plate on two sides is respectively connected with an upper material receiving plate driving mechanism, each lower material receiving plate on two sides is respectively connected with a lower material receiving plate driving mechanism, and each adjusting baffle is respectively provided with a first strip-shaped hole and a second strip-shaped hole for the upper material receiving plate and the lower material receiving plate to penetrate through; the two upper material receiving plates reciprocate in the direction perpendicular to the adjusting baffle under the driving of the upper material receiving plate driving mechanism, so that the two upper material receiving plates are in an open state and a closed state; in a similar way, the two lower material receiving plates also reciprocate along the direction vertical to the adjusting baffle under the driving of the lower material receiving plate driving mechanism, so that the two lower material receiving plates are in an opening and closing state;

a material receiving frame conveying belt is further mounted on the main machine table and below the main mounting plate, the inner end of the material receiving frame conveying belt extends to the position below the lower material receiving plate, and the outer end of the material receiving frame conveying belt is exposed out of the main mounting plate; a frame pushing cylinder is arranged on a tail end support of the incoming material conveying device and above the middle of the receiving frame conveying belt, and the output end of the frame pushing cylinder is connected with and drives a transverse shifting rod.

Specifically, a group of sliding rail assemblies perpendicular to the adjusting baffle are respectively mounted on the lower surface of the main mounting plate and the outer side of the adjusting baffle, a sliding plate is respectively connected and mounted between each group of sliding rail assemblies on two sides, the lower surface of each sliding plate on two sides is connected with an upper material receiving plate which is horizontally arranged and perpendicular to the adjusting baffle, and first strip-shaped holes for the upper material receiving plates to penetrate through are respectively formed in the adjusting baffles on two sides; the tail end of each sliding plate extends to the lower part of the rear end of the main mounting plate and is respectively connected with a connecting rod; the upper surface of the rear end of the main mounting plate is provided with a motor, the output end of the motor downwards penetrates through the main mounting plate and is connected with a cam to drive the cam, the lower surface of the cam is provided with an oval cam track, the tail ends of the two connecting rods are respectively provided with rollers, and the two rollers are symmetrically arranged in the oval cam track; the two upper material receiving plates are driven by an upper material receiving plate driving mechanism consisting of the same motor, the cam and the connecting rod simultaneously to move in opposite directions.

Two sides of the lower surface of the main mounting plate are respectively provided with a suspended auxiliary mounting plate, each auxiliary mounting plate is provided with a material receiving cylinder, and the output end of each material receiving cylinder is respectively connected with the lower material receiving plate and drives the lower material receiving plate to reciprocate; the lower material receiving plate driving mechanism is a material receiving cylinder arranged on the auxiliary mounting plate.

A suspension is arranged above the feed opening of the main mounting plate, and a striker plate and an in-place sensor are arranged on the suspension.

And a touch device is arranged on the lateral side of the conveying belt of the incoming material conveying device.

The incoming material conveying device is provided with a material conveying roller and an incoming material detection sensor.

The front end of the main mounting plate is in butt joint with the tail end of the incoming material conveying device, and the rear end of the main mounting plate is supported and mounted on the main machine table through the stand column.

The upper material receiving plate and the lower material receiving plate are provided with exhaust grooves, so that exhaust is facilitated, and the sheet stock falls down stably.

The receiving machine is particularly directed at the film sheet materials, realizes the quick and non-offset overturning and blanking of the supplied materials by utilizing the twice receiving and discharging, and simultaneously counts accurately, thereby greatly simplifying the packaging and counting operation of the film sheet materials, realizing the automatic arrangement and automatic collection operation of the film sheet materials, greatly improving the production efficiency, the stability and the product consistency, reducing the manual operation, reducing the probability of the pollution and damage of the product, improving the product quality and reducing the cost.

Description of the drawings:

fig. 1, 2 and 3 are schematic diagrams of the front, side and top plan structures of the apparatus of the present invention, respectively.

FIGS. 4 and 5 are partial enlarged views of a front view and a side view of the present invention;

fig. 6 is a schematic view of the structure of the cam in the present invention.

The specific implementation mode is as follows:

as shown in fig. 1 to 3, the present invention is an automatic film web splicing machine for high-speed rotary die-cutting machine, which comprises a main machine table 1, wherein: a feeding material conveying device 2 is arranged on the main machine table 1 in an extending manner towards one side; a material receiving device 3 is arranged at the tail end of the incoming material conveying device 2 on the main machine table 1,

the receiving device 3 comprises a main mounting plate 31 which is connected with the tail end of the incoming material conveying device 2 and is provided with a feed opening 301, namely the front end of the main mounting plate 31 is in butt joint with the tail end of the incoming material conveying device 2, and the rear end of the main mounting plate 31 is supported and mounted on the main machine table 1 through a stand column 32; two sides of the feed opening 301 of the main mounting plate 31 are respectively provided with a longitudinally arranged and transversely adjustable adjusting baffle 33, the adjusting baffles 33 are parallel to the longitudinal plane of the incoming material direction, and the distance between the two adjusting baffles 33 can be transversely adjusted to be equivalent to the width of the film sheet material of the incoming material, so that the transverse position of the incoming material is limited; in this embodiment, the adjusting plate 33 is installed in the mounting groove of the upper surface of the main mounting plate 31 through a horizontal adjusting plate for adjustment, and is locked by screws.

An upper material receiving plate 34 and a lower material receiving plate 35 which are arranged at intervals up and down and are perpendicular to the adjusting baffle 33 and can pass through the adjusting baffle 33 are respectively arranged below the main mounting plate 31 and outside the two adjusting baffles 33, namely, the two upper material receiving plates 34 and the two lower material receiving plates 35 are respectively arranged in a side-by-side manner; each upper material receiving plate 34 on two sides is respectively connected with an upper material receiving plate driving mechanism 4, each lower material receiving plate 35 on two sides is respectively connected with a lower material receiving plate driving mechanism 5, and each adjusting baffle 33 is respectively provided with a first strip-shaped hole 331 and a second strip-shaped hole 332 for the upper material receiving plate 34 and the lower material receiving plate 35 to pass through; the two upper material receiving plates 34 reciprocate along the direction vertical to the adjusting baffle 33 under the driving of the upper material receiving plate driving mechanism 4, so that the two upper material receiving plates 34 are in an open and closed state; similarly, the two lower material receiving plates 35 also reciprocate along the direction perpendicular to the adjusting baffle 33 under the driving of the lower material receiving plate driving mechanism 5, so that the two lower material receiving plates 35 are in an open state and a closed state;

a material receiving frame conveying belt 36 is further installed on the main machine table 1 and below the main installation plate 31, the inner end of the material receiving frame conveying belt 36 extends to the position below the lower material receiving plate 35, and the outer end of the material receiving frame conveying belt 36 is exposed out of the main installation plate 31; a frame pushing cylinder 37 is arranged on the tail end bracket of the incoming material conveying device 2 and above the middle part of the receiving frame conveying belt 36, and the output end of the frame pushing cylinder 37 is connected with and drives a transverse shift lever 38; when in use, the upper material receiving frame 39 is placed at the outer end of the material receiving frame conveying belt 36, and then is conveyed to the lower part of the lower material receiving plate 35 through the material receiving frame conveying belt 36 to receive falling film sheet materials; after the receiving frame 39 receives a set number of pieces, the frame pushing cylinder 37 drives the transverse shift lever 38 to push the receiving frame 39 forwards from the back side of the receiving frame and push the receiving frame to the front side of the main machine table 1;

specifically, as shown in fig. 4 to 6, a set of slide rail assemblies 41 perpendicular to the adjusting baffle 33 are respectively mounted on the lower surface of the main mounting plate 31 and the outer side of the adjusting baffle 33, slide plates 42 parallel to the adjusting baffle 33 are respectively mounted on each set of slide rail assemblies 41 on both sides, and the lower surface of each slide plate 42 on both sides is connected to an upper material receiving plate 34 horizontally disposed and perpendicular to the adjusting baffle 33; the tail end of each sliding plate 42 extends to the lower part of the rear end of the main mounting plate 31 and is respectively connected with a connecting rod 43; a motor 44 is arranged on the upper surface of the rear end of the main mounting plate 31, the output end of the motor 44 penetrates through the main mounting plate 31 downwards and is connected with and drives a cam 45, an oval cam track 451 is arranged on the lower surface of the cam 45, rollers 431 are respectively arranged at the tail ends of the two connecting rods 43, and the two rollers 431 are symmetrically arranged in the oval cam track 451; that is, the two upper material receiving plates 34 are driven by the same motor 44, the cam 45, the connecting rod 43, the sliding plate 42 and the upper material receiving plate driving mechanism 4 formed by the sliding rail component 41 to move in opposite directions; the cam 45 is driven to rotate by the motor 44, the cam 45 drives the connecting rod 43 to do linear motion by the roller 431 through the oval cam track 451 on the lower surface of the cam 45, and the connecting rod 43 drives the sliding plate 42 to do reciprocating motion along the sliding rail assembly 41, so that the material receiving plates 34 on the two sides are continuously opened and closed, film sheet materials conveyed by the incoming material conveying device 2 are received when the film sheet materials are closed, and the film sheet materials automatically fall onto the lower material receiving plate 35 below when the film sheet materials are opened;

two suspended auxiliary mounting plates 51 are respectively mounted on two sides of the lower surface of the main mounting plate 31, a material receiving cylinder 52 is mounted on each auxiliary mounting plate 51, and the output end of each material receiving cylinder 52 is respectively connected with the lower material receiving plate 35 and drives the lower material receiving plate 35 to reciprocate; namely, the lower material receiving plate driving mechanism 5 is a material receiving cylinder 52 arranged on the auxiliary mounting plate 51; the two material receiving cylinders 52 respectively and synchronously drive the two lower material receiving plates 35 to realize the opening and closing of the material receiving cylinders, when the material receiving cylinders close, the film sheet materials falling from the upper material receiving plates 34 are received, and when the material receiving cylinders open, the film sheet materials automatically fall into the material receiving frame 39 below;

a suspension 311 is arranged above the feed opening 301 of the main mounting plate 31, and a striker plate 312 and an in-place sensor (only a bracket 313 thereof is shown in the figure) are arranged on the suspension 311; the position of the suspension 311 can be adjusted, the material baffle 312 arranged on the suspension can be used for blocking the thin film sheet materials, the inertia influence is reduced, the blanking quantity can be calculated by using the in-place sensor, and the feeding and receiving can be suspended when the counting reaches the set value; meanwhile, the in-place sensor also controls the opening and closing action time of the upper material receiving plate 34 and the lower material receiving plate 35, when the product is sensed to be in place, the upper material receiving plate 34 is quickly opened, the lower material receiving plate 35 is closed firstly, and the opening is carried out after a certain time (about 0.5 second) is delayed, so that the blanking is facilitated;

a touch device 21 is installed on the side of the conveying belt of the incoming material conveying device 2, and various parameters such as feeding speed, opening and closing speed of the upper and lower material receiving plates, the number of the sheet materials collected by the material receiving frame, and the like are set by using the touch device 21, and various switches, keys, and the like are also arranged.

The incoming material conveying device 2 is provided with a conveying roller 22 and incoming material detection sensors (only mounting brackets 23 are shown in the figure), the conveying roller 22 is convenient for stripping a carrier tape of incoming materials to convey the incoming materials orderly one by one, the incoming material detection sensors detect whether the incoming materials are orderly arranged in place, the incoming materials are in quantity and the like, the incoming materials can be corrected manually when the incoming materials are not orderly arranged, and counting is convenient for statistics.

The upper material receiving plate 34 and the lower material receiving plate 35 are provided with exhaust grooves 341 for facilitating exhaust and enabling the sheet materials to fall stably.

The front end of the incoming material conveying device 2 is connected with the discharge end of the high-speed rotary die cutting machine, the cut film sheet material a is discharged from the high-speed rotary die cutting machine and then sent to the incoming material conveying device 2 to be conveyed in order, and then falls into the upper material receiving plate 34 in a close state through the discharge opening 301 of the main mounting plate 31 after being conveyed to the tail end, and the distance between the two adjusting baffles 33 on the two sides is adjusted in advance according to the width of the sheet material, so that the distance between the two adjusting baffles is equal to the width of the sheet material; after the film sheet material completely falls into the upper material receiving plate 34, the sensor positioned above the rear end of the upper material receiving plate 34 senses and counts, then the two upper material receiving plates 34 are quickly opened under the drive of the upper material receiving plate drive mechanism 4, so that the film sheet material quickly falls down, the lower material receiving plate 35 in a close state below receives the material, and the lower material receiving plate drive mechanism 5 quickly opens after receiving the material, the sheet material automatically falls into the material receiving frame 39 below, the material receiving frame 39 is manually placed on the material receiving frame conveying belt 36 in advance and is conveyed to the lower part of the lower material receiving plate 35 through the material receiving frame 39, after the material receiving frame 39 receives the set number of film sheet material, the frame pushing cylinder 37 acts, the material receiving frame 39 is vertically pushed to the front of the main machine platform 1 from the material receiving frame conveying belt 36 through the transverse deflector rod 38, the manual removal is carried out, the sheet material in the material receiving frame 39 is orderly stacked, the number is also set, and the, thus greatly improving efficiency and counting accuracy.

It will be understood that the above embodiments are merely exemplary embodiments taken to illustrate the principles of the present invention, which is not limited thereto. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit and substance of the invention, and these modifications and improvements are also considered to be within the scope of the invention.

Claims

1. The utility model provides a supporting automatic material machine that connects of film sheet stock that uses of high-speed rotatory cross cutting machine, its includes the host computer platform, its characterized in that: a supplied material conveying device is arranged on the host machine table in an extending manner towards one side; a material receiving device is arranged at the tail end of the incoming material transmission device on the main machine table,

the receiving device comprises a main mounting plate which is connected with the tail end of the incoming material conveying device and is provided with a feed opening, and adjusting baffles which are longitudinally arranged and can be transversely adjusted are respectively arranged on two sides of the feed opening of the main mounting plate;

2. The automatic material receiving machine for the film sheet matched with the high-speed rotary die-cutting machine according to claim 1, is characterized in that: a group of sliding rail assemblies vertical to the adjusting baffle are respectively arranged on the lower surface of the main mounting plate and the outer side of the adjusting baffle, a sliding plate is respectively connected and arranged between each group of sliding rail assemblies on the two sides, and the lower surface of each sliding plate on the two sides is connected with an upper material receiving plate which is horizontally arranged and vertical to the adjusting baffle; the tail end of each sliding plate extends to the lower part of the rear end of the main mounting plate and is respectively connected with a connecting rod; the upper surface of the rear end of the main mounting plate is provided with a motor, the output end of the motor downwards penetrates through the main mounting plate and is connected with a cam to drive the main mounting plate, the lower surface of the cam is provided with an oval cam track, the tail ends of the two connecting rods are respectively provided with rollers, and the two rollers are symmetrically arranged in the oval cam track.

3. The automatic material receiving machine for the film sheet matched with the high-speed rotary die-cutting machine according to claim 1, is characterized in that: two sides of the lower surface of the main mounting plate are respectively provided with a suspended auxiliary mounting plate, each auxiliary mounting plate is provided with a material receiving cylinder, and the output end of each material receiving cylinder is respectively connected with the lower material receiving plate and drives the lower material receiving plate to reciprocate; the lower material receiving plate driving mechanism is a material receiving cylinder arranged on the auxiliary mounting plate.

4. The automatic material receiving machine for the film sheet matched with the high-speed rotary die-cutting machine according to claim 1, is characterized in that: a suspension is arranged above the feed opening of the main mounting plate, and a striker plate and an in-place sensor are arranged on the suspension.

5. The automatic material receiving machine for the film sheet matched with the high-speed rotary die-cutting machine according to claim 1, is characterized in that: and a touch device is arranged on the lateral side of the conveying belt of the incoming material conveying device.

6. The automatic material receiving machine for the film sheet matched with the high-speed rotary die-cutting machine according to claim 1, is characterized in that: the incoming material conveying device is provided with a material conveying roller and an incoming material detection sensor.

7. The automatic material receiving machine for the film sheet matched with the high-speed rotary die-cutting machine according to claim 1, is characterized in that: the front end of the main mounting plate is in butt joint with the tail end of the incoming material conveying device, and the rear end of the main mounting plate is supported and mounted on the main machine table through the stand column.

8. The automatic material receiving machine for the film sheet matched with the high-speed rotary die-cutting machine according to claim 1, is characterized in that: and the upper material receiving plate and the lower material receiving plate are provided with exhaust grooves.