CN105774189A - Full-automatic film laminator and control method thereof - Google Patents

Abstract

The invention provides a full-automatic film laminator and a control method thereof. The full-automatic film laminator comprises a base, a base board fixed on the upper surface of the base and a film laminating assembly arranged on the base board. The full-automatic film laminator also comprises material transfer assemblies used for loading and unloading of the film laminating assembly and a control assembly in control connection with the film laminating assembly and the material transfer assemblies. According to the control method, double film laminating stations are matched with double mechanical loading arms to perform cycle operation, each of the two material transfer assemblies includes a first material transfer assembly for loading and a second material transfer assembly for unloading, the two transfer assemblies are arranged symmetrically around a cabling rod and responsible for a motion area within 180 degrees respectively, films can be conveyed to the film laminating stations or unloaded from the film laminating stations to a discharging pipeline through 90-degree lateral motion of the first material transfer assembly and the second material transfer assembly, the collaborative arrangement and the control method effectively increase production efficiency and reduce control difficulty, the collaborative arrangement is more compact than tandem arrangement of double material transfer assemblies, and high efficiency is achieved. The full-automatic film laminator and the control method thereof guarantee production efficiency and save labor. In addition, the operation interface is a man-machine interface, accordingly the overall structure is compact and performances are stable and reliable.

Description

A kind of full-automatic film laminator and control method

Technical field

The present invention relates to compression molding techniques field, particularly relate to a kind of full-automatic film laminator and control method.

Background technology

Along with the factor prices such as China labour force rise steadily, labor cost advantage is lost gradually.Automatization, mechanization, intelligent equipment are bound to become the standard configuration of following streamline.

Along with informationization shows the continuous expansion in market, people are to mobile phone, the demand of the personal terminal such as flat board is day by day vigorous, and it is applied to colour screen handset, flat board, in the LCD MODULE (LCM) of the terminal electronic products such as car sanction, the production of backlight (LCD) is but difficult to meet needs, the film material that current backlight (LCD) uses produces and also rests in the mechanization press mold technique that manpower participates in, this technique not only puts into human cost height, each machine need to join a manpower, there is also use potential safety hazard, the quality of product is also difficult to be effectively ensured, production efficiency is low.

Summary of the invention

It is an object of the invention to provide a kind of full-automatic film laminator and control method, it has compact conformation, controls simple and that high efficient and reliable is stable feature.

The present invention is achieved like this, a kind of full-automatic film laminator, it includes base, be fixed on base upper surface base plate and the die module being arranged on base plate, it is characterized in that, it also includes expecting assembly for die module feeding with moving of discharging and controlling the control assembly being connected with die module and shifting material assembly.

The described material assembly that moves includes feeding swing arm, drives cylinder up and down for capturing the sucker of coating materials and the servomotor being fixed on base plate and feeding, described sucker is connected to one end of feeding swing arm, drives cylinder to be all in transmission connection at the other end of feeding swing arm up and down for servomotor and the feeding driving feeding swing arm to swing and to move up and down.

Described die module includes die assembly, drives assembly for the cover half assembly and pressing mold positioning and driving die assembly pressing mold.

Described pressing mold drives assembly to include the column that fixed cover, positioning sleeve, lock sleeve, guide rail fixed plate, air cylinder fixed plate, pressing mold cylinder, the second guide rail, the plate that is located by connecting, the fixing plate of column and lower end are fixed on base plate by the fixing plate of column, and described column is also associated with lock sleeve, positioning sleeve and fixed cover from the top down；One end of described air cylinder fixed plate is fixed on the top of column, and the other end is connected to pressing mold cylinder；

The upper end of described guide rail fixed plate is fixed on the bottom surface of air cylinder fixed plate, and this guide rail fixed plate is vertically arranged with the second guide rail, and the one end of the plate that is located by connecting is connected with the second slide, and the other end is connected with the output shaft of pressing mold cylinder.

Described die assembly includes tool and the lower tool corresponding with upper tool, upper tool by the fixing plate of upper tool be connected to described in be located by connecting on plate, lower tool is fixed on tool base plate.

Described cover half assembly is several, and it is symmetricly set on tool base plate periphery, this cover half assembly includes positioning cylinder, air cylinder base, the first guide rail and the adjustable positioning expeller being slidably connected on the first guide rail, adjustable positioning expeller and positioning cylinder for localization tool base plate are in transmission connection, and positioning cylinder is fixed on base plate by air cylinder base.

Described control assembly includes the cabling bar being fixed on base plate center and the light barrier holder being fixed on base plate edge, and the top of described cabling bar is connected to display controller, and light barrier holder is fixed with the grating for monitoring station action.

Described base sidepiece is provided with the fan hole of heat transmission and is fixed on base bottom for supporting and move scalable feet and the universal wheel of film laminator.

Described full-automatic film laminator includes two set die module and two sets move material assembly, two set die module include about symmetrically arranged first die module of cabling bar and the second die module, and two sets move material assembly and also include about symmetrically arranged the first shifting material assembly for feeding of cabling bar and move material assembly for the second of blanking.

The control method of a kind of full-automatic film laminator, it is characterised in that this control method is the control method of the above-mentioned full-automatic film laminator including two set die module and two set shifting material assemblies, and it comprises the steps:

(1) starting power supply, the first shifting material assembly and second moves material assembly and is in original position；

(2) grating senses the product on incoming flow waterline, and feed station is shifted in the first feeding swing arm moving material assembly, passes downwardly through sucker and captures coating materials；

Coating materials is transplanted on the pressing mold station in the first die module or the second die module by (3) the first feeding swing arms moving material assembly, puts down coating materials, repeats step (2) and (3)；

Cover half assembly action in (4) first die module or the second die module, positions pressing mold position, and pressing mold drives Component driver die assembly action to complete coating materials processing；

(5) the second feeding swing arms moving material assembly are moved to the first die module or the second die module, pass downwardly through the coating materials after sucker captures processing；

Coating materials is transplanted on reactor effluent stream waterline by (6) the second feeding swing arms moving material assembly, puts down coating materials, repeats step (5) and (6).

The invention have the benefit that automatic film pressing machine disclosed by the invention adopts double; two pressing mold station and double-mechanical feeding swing arm to coordinate circulation operation, in conjunction with the electrified control mode such as servomotor, vacuum suction, the collaborative streamlined achieving coating materials under the control of PLC control system produces continuously；This invention ensures that production efficiency, save manpower；Operation interface adopts man machine interface, and overall structure is exquisite, stable and reliable for performance.

Accompanying drawing explanation

Fig. 1 is the structural representation of the full-automatic film laminator of the present invention.

Fig. 2 is the full-automatic film laminator superstructure enlarged drawing of the present invention.

Fig. 3 is the functional-block diagram of the full-automatic film laminator control method of the present invention.

In the drawings, 1, base 2, plate 3 fixed by column, light barrier holder 4, fixed cover 5, positioning sleeve 6, lock sleeve 7, column 8, guide rail fixed plate 9, air cylinder fixed plate 10, sucker 11, feeding swing arm 12, servomotor 13, display controller 14, first guide rail 15, pressing mold cylinder 16, second guide rail 17, grating 18, adjustable positioning expeller 19, positioning cylinder 20, base plate 21, cabling bar 22, fan hole 23, scalable feet 24, universal wheel 25, feeding drives cylinder 26 up and down, upper tool 27, air cylinder base 28, lower tool 29, tool base plate 30, upper tool fixes plate 31, be located by connecting plate.

Detailed description of the invention

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described further.

As depicted in figs. 1 and 2, the present invention is achieved like this, a kind of full-automatic film laminator, it includes base 1, is fixed on the base plate 20 of base 1 upper surface and arranges die module on the base plate 20, its structure is, it also includes expecting assembly for die module feeding with moving of discharging and controlling the control assembly being connected with die module and shifting material assembly；The present invention completes feeding and discharging by moving material assembly, completes press mold by die module, completes automated control operation by controlling assembly.

The present invention expects what assembly was realized in for realizing feeding with moving of discharging, it includes feeding swing arm 11, drives cylinder 25 up and down for capturing the sucker 10 of coating materials and fixing servomotor 12 on the base plate 20 and feeding, described sucker 10 is connected to one end of feeding swing arm 11, drives cylinder 25 to be all in transmission connection at the other end of feeding swing arm 11 up and down for servomotor 12 and the feeding driving feeding swing arm 11 to swing and to move up and down；Under the control controlling assembly, servomotor 12 controls feeding swing arm 11 and rotates to above coating materials, it is downward that feeding drives cylinder 25 to control feeding swing arm 11 up and down, and then capture coating materials by sucker 10, feeding drives cylinder 25 to control feeding swing arm 11 upwards return up and down, and then servomotor 12 controls to rotate to feeding swing arm 11 processing stations, sucker 10 discharging again, repeat aforesaid operations, it is achieved automatic continuous production.

Die module has also been innovated by the present invention, enables die module with moving and expects that assembly is supporting, and achieves automatic continuous production；Described die module includes die assembly, drives assembly for the cover half assembly and pressing mold positioning and driving die assembly pressing mold.

The detailed description of the invention of each key component is as follows with operation principle: described pressing mold drives assembly to include fixed cover 4, positioning sleeve 5, lock sleeve 6, guide rail fixed plate 8, air cylinder fixed plate 9, pressing mold cylinder the 15, second guide rail 16, the plate 31 that is located by connecting, the fixing plate 2 of column and lower end by the fixing column 7 on the base plate 20 of the fixing plate of column 2, and described column 7 is also associated with lock sleeve 6, positioning sleeve 5 and fixed cover 4 from the top down；One end of described air cylinder fixed plate 9 is fixed on the top of column 7, and the other end is connected to pressing mold cylinder 15；The upper end of described guide rail fixed plate 8 is fixed on the bottom surface of air cylinder fixed plate 9, and this guide rail fixed plate 8 is vertically arranged with the second guide rail 16, and the one end of the plate 31 that is located by connecting and the second guide rail 16 are slidably connected, and the other end is connected with the output shaft of pressing mold cylinder 15；By the structural design of be located by connecting plate 31 and the second guide rail 16, making the output shaft of pressing mold cylinder 15 keep pressing track under accurately, thus ensure that the precision of upper tool 26 pressing mold being connected with the plate 31 that is located by connecting by the fixing plate 30 of upper tool, improving yield rate.

Described die assembly includes tool 26 and the lower tool 28 corresponding with upper tool 26, upper tool 26 by the fixing plate 30 of upper tool be connected to described in be located by connecting on plate 31, lower tool 28 is fixed on tool base plate 29.It is accurately positioned to realize lower tool 28 clamping, described cover half assembly is designed as several, and it is symmetricly set on tool base plate 29 periphery, this cover half assembly includes positioning cylinder 19, air cylinder base the 27, first guide rail 14 and is slidably connected at the adjustable positioning expeller 18 on the first guide rail 14, adjustable positioning expeller 18 for localization tool base plate 29 is in transmission connection with positioning cylinder 19, and positioning cylinder 19 is fixing on the base plate 20 by air cylinder base 27；When moving material assembly and being placed on lower tool 26 by coating materials, positioning cylinder 19 action of described cover half assembly so that adjustable positioning expeller 18 slides along the first guide rail 14, lower tool 28 is fixed in location.

Described control assembly includes the cabling bar 21 being fixed on base plate 20 center and the light barrier holder 3 being fixed on base plate 20 edge, the top of described cabling bar 21 is connected to display controller 13, light barrier holder 3 is fixed with the grating 17 for monitoring station action, operator can pass through display controller 13 and monitor the working condition of whole film laminator, revise in time, one people can monitor multiple stage machine simultaneously and complete press mold, both human cost, improving product production efficiency had been reduced, unmanned Radix Talini Paniculati and pressing mold process, solve use potential safety hazard again.

The base 1 of the present invention is Integrated design, described base 1 sidepiece is provided with the fan hole 22 of heat transmission and is fixed on bottom base 1 for supporting and move scalable feet 23 and the universal wheel 24 of film laminator, easily film laminator can be moved by universal wheel 24, when needs are fixing, the fixing support of film laminator can be realized by the rising of scalable feet 23.

In order to improve production efficiency, improve cooperation in production simultaneously, especially feeding and discharging equipment is collaborative, currently preferred film laminator includes two set die module and two sets move material assembly, two set die module include about symmetrically arranged first die module of cabling bar 21 and the second die module, and two sets move material assembly and also include about symmetrically arranged the first shifting material assembly for feeding of cabling bar 21 and move material assembly for the second of blanking；As it is shown on figure 3, wherein, the first feeding swing arm 11 moving material assembly is 1# feeding swing arm to its specific works principle, and the second feeding swing arm 11 moving material assembly is 2# feeding swing arm；The pressing mold station of the first die module is 1# station, and the pressing mold station of the second die module is 2# station；This control method comprises the steps:

(1) starting power supply, the first shifting material assembly and second moves material assembly and is in original position；

(2) grating 17 senses the product on incoming flow waterline, and feed station is shifted in the first feeding swing arm 11 moving material assembly, passes downwardly through sucker 10 and captures coating materials；

Coating materials is transplanted on the pressing mold station in the first die module or the second die module by (3) the first feeding swing arms 11 moving material assembly, puts down coating materials, repeats step (2) and (3)；

Cover half assembly action in (4) first die module or the second die module, positions pressing mold position, and pressing mold drives Component driver die assembly action to complete coating materials processing；

(5) the second feeding swing arms 11 moving material assembly are moved to the first die module or the second die module, pass downwardly through the coating materials after sucker (10) captures processing；

Coating materials is transplanted on reactor effluent stream waterline by (6) the second feeding swing arms 11 moving material assembly, puts down coating materials, repeats step (5) and (6).

Above-mentioned control method adopts double, two pressing mold station and double-mechanical feeding swing arm to coordinate circulation operation, wherein two sets move and expect that assembly includes about symmetrically arranged the first shifting material assembly for feeding of cabling bar 21 and moves material assembly for the second of blanking, they each moving regions being responsible within the scope of 180 degree, coating materials can be delivered to pressing mold station or deliver to reactor effluent stream waterline from pressing mold station discharging by side-to-side movement 90 degree, this collaborative setting is effectively increased production efficiency with control method and reduces control difficulty, arrange compacter than two-track material assembly townhouse arranged side by side, in hgher efficiency, this invention ensures that production efficiency, save manpower；Operation interface adopts man machine interface, and overall structure is exquisite, stable and reliable for performance.

Claims (10)

1. a full-automatic film laminator, it includes base (1), is fixed on the base plate (20) of base (1) upper surface and is arranged on the die module on base plate (20), it is characterized in that, it also includes expecting assembly for die module feeding with moving of discharging and controlling the control assembly being connected with die module and shifting material assembly.

2. full-automatic film laminator as claimed in claim 1, it is characterized in that, the described material assembly that moves includes feeding swing arm (11), drives cylinder (25) up and down for the sucker (10) that captures coating materials and the servomotor (12) and the feeding that are fixed on base plate (20), described sucker (10) is connected to one end of feeding swing arm (11), and the servomotor (12) and the feeding that are used for driving feeding swing arm (11) to swing and moving up and down drive cylinder (25) to be all in transmission connection at the other end of feeding swing arm (11) up and down.

3. full-automatic film laminator as claimed in claim 2, it is characterised in that described die module includes die assembly, drives assembly for the cover half assembly and pressing mold positioning and driving die assembly pressing mold.

4. full-automatic film laminator as claimed in claim 3, it is characterized in that, described pressing mold drives assembly to include fixed cover (4), positioning sleeve (5), lock sleeve (6), guide rail fixed plate (8), air cylinder fixed plate (9), pressing mold cylinder (15), second guide rail (16), be located by connecting plate (31), the column (7) that plate (2) and lower end are fixed on base plate (20) by the fixing plate (2) of column fixed by column, described column (7) is also associated with lock sleeve (6) from the top down, positioning sleeve (5) and fixed cover (4)；

One end of described air cylinder fixed plate (9) is fixed on the top of column (7), and the other end is connected to pressing mold cylinder (15)；

The upper end of described guide rail fixed plate (8) is fixed on the bottom surface of air cylinder fixed plate (9), this guide rail fixed plate (8) is vertically arranged with the second guide rail (16), one end and second guide rail (16) of plate (31) of being located by connecting is slidably connected, and the other end is connected with the output shaft of pressing mold cylinder (15).

5. full-automatic film laminator as claimed in claim 4, it is characterized in that, described die assembly includes tool (26) and the lower tool (28) corresponding with upper tool (26), upper tool (26) by the fixing plate (30) of upper tool be connected to described in be located by connecting on plate (31), lower tool (28) is fixed on tool base plate (29).

6. full-automatic film laminator as claimed in claim 5, it is characterized in that, described cover half assembly is several, and it is symmetricly set on tool base plate (29) periphery, this cover half assembly includes positioning cylinder (19), air cylinder base (27), first guide rail (14) and be slidably connected at the adjustable positioning expeller (18) on the first guide rail (14), adjustable positioning expeller (18) and positioning cylinder (19) for localization tool base plate (29) are in transmission connection, positioning cylinder (19) is fixed on base plate (20) by air cylinder base (27).

7. full-automatic film laminator as described in any one in claim 2-6, it is characterized in that, described control assembly includes the cabling bar (21) being fixed on base plate (20) center and the light barrier holder (3) being fixed on base plate (20) edge, the top of described cabling bar (21) is connected to display controller (13), and light barrier holder (3) is fixed with the grating (17) for monitoring station action.

8. full-automatic film laminator as claimed in claim 7, it is characterized in that, described base (1) sidepiece is provided with the fan hole (22) of heat transmission and is fixed on base (1) bottom for supporting and move scalable feet (23) and the universal wheel (24) of film laminator.

9. full-automatic film laminator as claimed in claim 8, it is characterized in that, described full-automatic film laminator includes two set die module and two sets move material assembly, two set die module include about symmetrically arranged first die module of cabling bar (21) and the second die module, and two sets move material assembly and also include about symmetrically arranged the first shifting material assembly for feeding of cabling bar (21) and move material assembly for the second of blanking.

10. the control method of a full-automatic film laminator, it is characterised in that this control method is the control method of the full-automatic film laminator described in claim 9, and it comprises the steps:

(1) starting power supply, the first shifting material assembly and second moves material assembly and is in original position；

(2) grating (17) senses the product on incoming flow waterline, and feed station is shifted in the first feeding swing arm (11) moving material assembly, passes downwardly through sucker (10) and captures coating materials；

Coating materials is transplanted on the pressing mold station in the first die module or the second die module by (3) the first feeding swing arms (11) moving material assembly, puts down coating materials, repeats step (2) and (3)；

Cover half assembly action in (4) first die module or the second die module, positions pressing mold position, and pressing mold drives Component driver die assembly action to complete coating materials processing；

(5) the second feeding swing arms (11) moving material assembly are moved to the first die module or the second die module, pass downwardly through the coating materials after sucker (10) captures processing；

Coating materials is transplanted on reactor effluent stream waterline by (6) the second feeding swing arms (11) moving material assembly, puts down coating materials, repeats step (5) and (6).