CN209971538U - Automatic laminating equipment of ultra-thin PI membrane - Google Patents

Abstract

The utility model relates to a pad pasting processing field discloses an automatic laminating equipment of ultra-thin PI membrane. The equipment comprises a workbench, wherein a press fit component, a first pulling mechanism, a second pulling mechanism, a first guide component and a second guide component are arranged at the top of the workbench, the first pulling mechanism and the first guide component are respectively positioned at the left side and the right side of the press fit component, the second pulling mechanism and the second guide component are respectively positioned at the front side and the rear side of the press fit component, a waste discharge component is further arranged between the press fit component and the first pulling mechanism, and a discharge component is further arranged at the rear side of the second guide component. The utility model provides an automatic laminating equipment of ultra-thin PI membrane can realize stabilizing and accurate rubberizing work to ultrathin membrane, avoids producing the pincher trees and the laminating condition such as position inaccuracy to guaranteed the quality of product, saved the cost of manufacturing, in addition, still improved the efficiency of pad pasting processing through the mode of automatic rubberizing.

Description

Automatic laminating equipment of ultra-thin PI membrane

Technical Field

The utility model relates to a pad pasting processing field, in particular to automatic laminating equipment of ultra-thin PI membrane.

Background

In the process of processing and manufacturing some metal workpieces, a film pasting procedure is often needed. Generally, a method for laminating a film on a metal workpiece includes positioning the metal workpiece to be laminated by using a single jig, arranging the film on the jig through a positioning hole of the film, laminating the workpiece and the film by using an air cylinder and the like, so as to stably laminate the film on the workpiece, finally removing the workpiece after the film is laminated, and removing an auxiliary film and the like for auxiliary positioning.

The film pasting method can be used for pasting most common films, but the film pasting work of films with small sizes is carried out, for example, ultrathin PI films with the thickness of 0.01mm are pasted on mobile phone antenna support parts, and if the method is used for pasting, wrinkles and inaccurate pasting positions are often caused due to reasons such as too small thickness of the films, so that the pasting precision is difficult to guarantee, the product quality is influenced, and the production and manufacturing cost is increased. In addition, the above-mentioned bonding method often requires manual operation, and thus the film-bonding processing efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides an automatic laminating equipment of ultra-thin PI membrane.

According to the utility model discloses an aspect provides an automatic laminating equipment of ultra-thin PI membrane, including a workstation, the top of workstation is equipped with pressing components, first drawing material mechanism, second and draws material mechanism, first leading positive subassembly and second and lead positive subassembly, first drawing material mechanism and first leading positive subassembly are located respectively pressing components's the left and right sides, and the second draws material mechanism and second to lead positive subassembly and then be located respectively pressing components's front and back both sides, wherein, and pressing components with first drawing still is equipped with a waste discharge subassembly between the material mechanism, the rear side that positive subassembly was led to the second still is equipped with a blowing subassembly.

The utility model provides an automatic laminating equipment of ultra-thin PI membrane can realize stabilizing and accurate rubberizing work to ultrathin membrane, avoids producing the pincher trees and laminating position condition such as inaccurate because the thickness of membrane is less when the pad pasting to guaranteed the quality of product, saved the cost of manufacturing, in addition, still improved the efficiency of pad pasting processing through the mode of automatic rubberizing.

In some embodiments, a side surface of the workbench is provided with a sensing assembly, and the sensing assembly is positioned below the outer side of the first pilot assembly. Thus, when the material belt is laid, the sensing component can sense the existence of the material belt and adjust the position of the material belt.

In some embodiments, the sensing assembly is provided with a movable material guiding adjusting block, and a proximity switch is mounted at the tail end of the material guiding adjusting block. From this, set up the concrete structure of perception subassembly, when proximity switch senses the material area and is close, can control the motion of guide regulating block and adjust the position in material area.

In some embodiments, a horizontal base plate is laid on the top of the workbench, a vertical back plate is arranged on the rear side edge of the base plate, and vertical side plates are arranged on the edges of the left side and the right side. From this, set up the structure at workstation top, base plate, backplate and each curb plate have formed a workspace jointly, have reduced the interference of external environment to equipment.

In some embodiments, the bottom of the back plate and the bottom of the side plate are both provided with through holes. Therefore, the second material pulling mechanism, the first guide assembly, the second guide assembly and other structures can be arranged to penetrate through the through holes, so that the back plate and the side edge can normally operate under the condition that the back plate and the side edge exist.

In some embodiments, the pressing assembly includes a fixed bracket, a pressing cylinder is disposed on a top of the fixed bracket, and a mold is disposed inside the fixed bracket, wherein a telescopic rod of the pressing cylinder penetrates through the fixed bracket and is connected to an upper mold base of the mold. From this, set up pressing components's concrete structure, it can carry out pressfitting pad pasting work to the work piece that sets up on the material area and the film of waiting to paste.

In some embodiments, the upper part of the waste discharge assembly is provided with two material coiling devices, the middle part of the waste discharge assembly is respectively connected with two material pressing shafts extending forwards through two movable adjusting rods, and the lower part of the waste discharge assembly is provided with a supporting frame, wherein the material pressing shafts are positioned right above the supporting frame. Therefore, the waste discharge assembly is provided with a specific structure, and waste materials after film pasting processing on the workpiece can be discharged in a mode of film coating from the upper part.

In some embodiments, a control assembly is further disposed on the worktable, and a touch screen is disposed on the control assembly. From this, can carry out automatic control to the function of mechanism such as lamination assembly, each draw material mechanism and waste discharge assembly through control assembly to the laminating work to whole laminating equipment is controlled.

Drawings

Fig. 1 is a schematic view of a front structure of an automatic ultra-thin PI film laminating apparatus according to an embodiment of the present invention;

fig. 2 is a schematic structural view of the rear portion of the automatic ultra-thin PI film laminating apparatus shown in fig. 1;

FIG. 3 is a schematic view of the pressing assembly shown in FIG. 1;

fig. 4 is a schematic structural view of the waste discharge assembly shown in fig. 1.

In the figure: the automatic material feeding device comprises a workbench 1, a pressing component 2, a first material pulling mechanism 3, a second material pulling mechanism 4, a first guide component 5, a second guide component 6, a waste discharge component 7, a material discharging component 8, a sensing component 9, a control component 10, a base plate 11, a back plate 12, a side plate 13, a fixed support 21, a pressing air cylinder 22, a mold 23, an upper plate 24, a lower plate 25, a vertical plate 70, a material rolling device 71, an adjusting rod 72, a material pressing shaft 73, a support frame 74, a material guiding adjusting block 91 and a proximity switch 92.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 schematically shows a front structure of an automatic ultra-thin PI film laminating apparatus according to an embodiment of the present invention, and fig. 2 shows a rear structure of the automatic ultra-thin PI film laminating apparatus of fig. 1. As shown in fig. 1-2, the device includes a working platform 1, a substantially rectangular horizontal base plate 11 is laid on the top of the working platform 1, a vertical back plate 12 is arranged on the rear side edge of the base plate 11, vertical side plates 13 are arranged on the left and right edges, and the base plate 11, the back plate 12 and the side plates 13 together form a working space, so that the interference of the external environment to the device is reduced. Most of the mechanisms and components of the apparatus are disposed on the base plate 11, and therefore, through-holes are provided at the bottom of the back plate 12 and the side plate 13 to allow the mechanisms and components to be smoothly installed and disposed. In addition, all be equipped with a supporting part in each angle of the bottom of workstation 1, and the supporting part then comprises stabilizer blade and the gyro wheel that can switch over each other to conveniently transport and place equipment.

A pressing component 2 is arranged on the top of the workbench 1, specifically on the top of the substrate 11, wherein the pressing component 2 is a core component of the device and is used for pressing and pasting a film on a workpiece to be pasted with a film.

The top of the workbench 1 is also provided with a first material pulling mechanism 3, a second material pulling mechanism 4, a first guide component 5 and a second guide component 6. The first material pulling mechanism 3 and the first guide component 5 are respectively positioned at the left side and the right side of the pressing component 2 and are jointly used for guiding and pulling a material belt bearing a workpiece to be laminated; and the second draws material mechanism 4 and second to lead positive subassembly 6 and then lie in the front and back both sides of pressing components 2 respectively, is used for treating the film and leads just and draw the material jointly, and wherein, the material area can be followed the left and right sides and upwards pass through pressing components 2 when drawing the material, and treats that the film can pass through pressing components 2 from the front and back to be located the top in material area when drawing the material.

The top of the workbench 1 is also provided with a waste discharge assembly 7, wherein the waste discharge assembly 7 is positioned between the press-fit assembly 2 and the first material pulling mechanism 3, and the material belt can continuously pass through the waste discharge assembly 7 after passing through the press-fit assembly 2 when being pulled.

And the rear part of the workbench 1 is also provided with a discharging assembly 8, wherein the discharging assembly 8 is positioned at the right rear side of the second guiding assembly 6 and is used for placing the film to be pasted and discharging the film to the second guiding assembly 6 during material pulling.

The side of workstation 1 is equipped with a perception subassembly 9, and wherein, perception subassembly 9 and first leading positive subassembly 5 setting are in the homonymy of workstation 1 to be located the outside below of first leading positive subassembly 5. The sensing assembly 9 is provided with a material guiding adjusting block 91 capable of movably rotating, and a proximity switch 92 is installed at the tail end of the material guiding adjusting block 91. The perception subassembly 9 is used for carrying out the perception to the material area, when proximity switch 92 perception material area was close, then can control the activity of guide regulating block 91 to the position of adjustment material area makes it lay smoothly on parts such as first leading positive subassembly 5.

In addition, still be equipped with a control assembly 10 on workstation 1, can carry out automatic control to the operation of mechanism such as lamination assembly 2, drawing material mechanism and waste discharge subassembly 7 through control assembly 10 to control the laminating work of whole laminating equipment, preferably, can set up the touch-sensitive screen on the system subassembly and carry out operation control.

Figure 2 shows the construction of the compression assembly of figure 1. As shown in fig. 2, the pressing assembly 2 includes a fixing bracket 21, a square upper plate 24 and a square lower plate 25 are respectively disposed above and below the fixing bracket 21, and are connected by a vertical pillar at each corner of the two flat plates, a pressing cylinder 22 is installed at the top of the upper plate 24, and a mold 23 is installed at the top of the lower plate 25, wherein a telescopic rod of the pressing cylinder 22 is vertically downward, penetrates through the top of the upper plate 24 and is connected with an upper mold seat of the mold 23, and can drive the upper mold to move.

When the laminating assembly 2 is used for laminating a workpiece, a strip of material passes through the upper die and the lower die of the die 23 of the laminating assembly 2, the material is pulled, and then the workpiece is loaded on the carrier tape; meanwhile, compounding the film with a release film, and then passing the composite film through an upper die and a lower die of the die 23 and pulling the composite film, wherein the composite film is crossed with the material belt and is positioned above the workpiece; then, the pressing cylinder 22 controls the upper die base to press down, so as to press the film onto the workpiece and cut off, and then controls the upper die base to ascend, so that the material belt drives the film-coated workpiece to move away from the pressing assembly 2.

Fig. 3 shows the structure of the waste assembly of fig. 1. As shown in fig. 3, the waste discharging assembly 7 comprises a square vertical plate 70, two winders 71 are arranged on the upper part of the vertical plate 70, and the winders 71 can be communicated with a motor arranged on the back of the vertical plate 70 and rotate under the control of the motor; two adjusting rods 72 capable of rotating in a vertical plane are arranged in the middle of the vertical plate 70, and two pressing shafts 73 extending forward are connected to the two rotating rods respectively. A support frame 74 is provided at the lower part of the waste discharging assembly 7, and the top of the support frame 74 is a plane, wherein, when the adjusting rod 72 rotates to the lower part, the two pressing shafts 73 are both slightly higher than the support frame 74 and are positioned right above the center of the support frame 74.

When the waste discharge assembly 7 is used for discharging waste of the film-pasted workpiece, a material belt bearing the workpiece passes through the top of the support frame 74, a roll of adhesive silicone film is used for sequentially bypassing one material winding device 71, two material pressing shafts 73 and the other material winding device 71, the position of the material pressing shafts 73 is adjusted by the adjusting rod 72 until the adhesive silicone film between the two material pressing shafts 73 is pressed onto the workpiece, the adhesive silicone film can paste the release film remained on the workpiece after film pasting, and then the motor is operated to control the material winding device 71 to rotate so as to pull the adhesive silicone film, so that the release film can be separated from the workpiece.

When the movable laminating equipment of the utility model is used, the material belt is laid from the outer side of the workbench 1 and extends to the first material drawing mechanism 3 through the first guiding component 5 and the pressing component 2; meanwhile, a composite film of the film and the release film is laid from a discharging mechanism and extends to a second material pulling mechanism 4 through a second guide assembly 6, a pressing assembly 2 and a waste discharge assembly 7; the operation control assembly 10 starts the equipment, the first material pulling mechanism 3 pulls the material belt, the second material pulling mechanism 4 pulls the composite film, the pressing assembly 2 presses and pastes the film on the workpiece and the composite film in due time, and the waste discharge assembly 7 removes the release film remained on the workpiece after film pasting; and finally, receiving the workpiece after the film is pasted, and thus, a receiving area can be arranged at a proper position according to the requirement.

The utility model provides an automatic laminating equipment of ultra-thin PI membrane can realize stabilizing and accurate rubberizing work to ultrathin membrane, avoids producing the pincher trees and laminating position condition such as inaccurate because the thickness of membrane is less when the pad pasting to guaranteed the quality of product, saved the cost of manufacturing, in addition, still improved the efficiency of pad pasting processing through the mode of automatic rubberizing.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (8)

1. The utility model provides an automatic laminating equipment of ultra-thin PI membrane which characterized in that: the automatic material guide device is characterized by comprising a workbench (1), wherein a press fit component (2), a first material guide mechanism (3), a second material guide mechanism (4), a first guide component (5) and a second guide component (6) are arranged at the top of the workbench (1), the first material guide mechanism (3) and the first guide component (5) are respectively positioned at the left side and the right side of the press fit component (2), the second material guide mechanism (4) and the second guide component (6) are respectively positioned at the front side and the rear side of the press fit component (2), a waste discharge component (7) is further arranged between the press fit component (2) and the first material guide mechanism (3), and a material discharge component (8) is further arranged at the rear side of the second guide component (6).

2. The automatic ultra-thin PI film laminating equipment of claim 1, wherein: the side of the workbench (1) is provided with a sensing assembly (9), and the sensing assembly (9) is positioned below the outer side of the first guide assembly (5).

3. The automatic ultra-thin PI film laminating equipment of claim 2, wherein: the sensing assembly (9) is provided with a movable material guide adjusting block (91), and the tail end of the material guide adjusting block (91) is provided with a proximity switch (92).

4. The automatic ultra-thin PI film laminating equipment of claim 1, wherein: a horizontal base plate (11) is laid at the top of the workbench (1), a vertical back plate (12) is arranged at the rear side edge of the base plate (11), and vertical side plates (13) are arranged at the edges of the left side and the right side.

5. The automatic ultra-thin PI film laminating equipment of claim 4, wherein: the bottom of the back plate (12) and the bottom of the side plate (13) are both provided with through holes.

6. The automatic ultra-thin PI film laminating equipment of claim 1, wherein: the pressing assembly (2) comprises a fixed support (21), a pressing air cylinder (22) is arranged at the top of the fixed support (21), a mold (23) is arranged inside the pressing air cylinder, and a telescopic rod of the pressing air cylinder (22) penetrates through the fixed support (21) and is connected with an upper mold base of the mold (23).

7. The automatic ultra-thin PI film laminating equipment of claim 1, wherein: the upper part of the waste discharge assembly (7) is provided with two material coiling devices (71), the middle part of the waste discharge assembly is respectively connected with two material pressing shafts (73) extending forwards through two movable adjusting rods (72), the lower part of the waste discharge assembly is provided with a supporting frame (74), and the material pressing shafts (73) are positioned right above the supporting frame (74).

8. The automatic ultra-thin PI film laminating equipment of claim 1, wherein: the workbench (1) is also provided with a control assembly (10), and the control assembly (10) is provided with a touch screen.

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