CN115477039A - Laminating equipment for touch screen production - Google Patents

Abstract

The invention relates to laminating equipment, in particular to laminating equipment for producing a touch screen. The laminating equipment for producing the touch screen is required to be designed, can efficiently laminate the touch screen and is not easy to generate bubbles. The utility model provides a laminating equipment is used in touch-sensitive screen production, is including installation chassis, drawing material gyro wheel and spacing cross axle, and installation chassis left part upside rotary type is equipped with spacing cross axle, and spacing cross axle middle part rigid coupling has draws the material gyro wheel. According to the invention, the servo motor is started, the material conveying roller rotates reversely to drive the touch screen to move leftwards, meanwhile, the material pulling roller rotates positively to pull the film material, the positioning cam rotates positively to drive the material smearing plate to move forwards and backwards through the limiting guide rod, the material smearing plate moves forwards and backwards to smear and press the film material on the touch screen, so that the film material is tightly attached to the surface of the screen, bubbles are not easily generated, and thus, the film can be efficiently coated on the touch screen, and the bubbles are not easily generated.

Description

Laminating equipment for touch screen production

Technical Field

The invention relates to laminating equipment, in particular to laminating equipment for producing a touch screen.

Background

With the development of science and technology and the progress of equipment, the application of various electronic products is more and more extensive, and the touch screen is as a commonly used electronic product components and parts, and the touch screen can carry out the tectorial membrane processing to it mostly before the transportation, ensures that it can not damaged in the in-process of transportation and packing.

Patent publication is CN 208429277U's patent, a touch-sensitive screen tectorial membrane device is published, including the tectorial membrane box, tectorial membrane box one side is equipped with the touch-sensitive screen import, and tectorial membrane box opposite side correspondence is equipped with the touch-sensitive screen export, be equipped with a plurality of parallel arrangement's conveying roller in the tectorial membrane box, the both ends of conveying roller respectively with the preceding tank wall and the back tank wall swivelling joint of tectorial membrane box, and external drive motor provides power for the conveying roller, a plurality of touch-sensitive screens are placed on the conveying roller, the touch-sensitive screen top and the bottom symmetry at tectorial membrane box middle part are equipped with and push down the membrane axle. Although the patent can realize covering the film on the touch screen, the film material is tightly pressed and attached on the touch screen through the film pressing shaft, so that bubbles are easily generated, and subsequent reworking is needed.

Based on the defects in the patent, the laminating equipment for producing the touch screen is provided, which can efficiently laminate the film on the touch screen and is not easy to generate bubbles.

Disclosure of Invention

In order to overcome the defect that bubbles are easily generated when a film material is tightly pressed and attached to a touch screen through a film pressing shaft, the invention provides film laminating equipment for producing the touch screen, which can efficiently laminate a film on the touch screen and is not easy to generate bubbles.

The technical scheme of the invention is as follows:

the utility model provides a laminating equipment is used in touch-sensitive screen production, including the installation chassis, draw material gyro wheel and spacing cross axle, installation chassis left part upside rotary type is equipped with spacing cross axle, spacing cross axle middle part rigid coupling has draws the material gyro wheel, still including actuating mechanism and laminating mechanism, be provided with the actuating mechanism who is used for providing power transportation touch-sensitive screen between spacing cross axle and the installation chassis, be provided with the laminating mechanism who is used for the touch-sensitive screen tectorial membrane between installation chassis and the spacing cross axle.

As the improvement of above-mentioned scheme, still including installation horizontal pole, rubber handle cover, rotation quarter butt and electronic cutter, the installation chassis upper portion right back side is rotated and is equipped with the rotation quarter butt, and the rigid coupling has the installation horizontal pole on the rotation quarter butt, and the anterior rigid coupling of installation horizontal pole has the rubber to hold the cover, and installation chassis left part upside is equipped with the electronic cutter that is used for the cutting of membrane material.

As the improvement of the scheme, the driving mechanism comprises a servo motor, a worm wheel and material conveying rollers, the servo motor is fixedly connected to the lower left portion of the outer front side face of the installation underframe, the worm is rotatably arranged in the middle left portion of the outer front side face of the installation underframe, spiral teeth on the left side and the right side of the worm are opposite, the worm and an output shaft of the servo motor are in synchronous belt transmission, six material conveying rollers are rotatably arranged on the lower portion of the installation underframe at intervals, the material conveying rollers are in synchronous belt transmission, the worm wheel is fixedly connected to the front portion of the second material conveying roller from left to right, the worm wheel is also fixedly connected to the front portion of the limiting transverse shaft, and the worm wheels on the left side and the right side are respectively meshed with the worm.

As the improvement of the scheme, the film coating mechanism comprises a positioning cam, a limiting guide rod, a smearing plate, a limiting guide frame and a reset spring, the positioning cam is arranged on the rotary type of the upper left side of the rear part of the installation underframe, the positioning cam and the limiting cross shaft are in synchronous belt transmission, the limiting guide rod is arranged on the sliding type of the upper left side of the rear part of the installation underframe, a bump is fixedly connected to the rear side of the limiting guide rod, the positioning cam can be in contact with the bump of the limiting guide rod in a rotating manner, the limiting guide frame is fixedly connected between the upper left parts of the front side surface and the lower side surface in the installation underframe, the smearing plate is arranged on the limiting guide frame in a sliding manner and is fixedly connected with the limiting guide rod, and the two reset springs are connected between the smearing plate and the limiting guide frame.

The touch screen positioning device comprises a positioning chassis, a positioning cross shaft, a reset short plate, a limiting spring, a threaded sleeve, a positioning guide frame and a clamping plate, wherein the positioning cross shaft is arranged on the lower portion of an installation chassis in a left-right symmetrical rotating mode, the middle of each of the left and right positioning cross shafts is fixedly connected with the limiting chassis, the reset short plate is fixedly connected to the rear portion of the left positioning cross shaft, the reset short plate is fixedly connected to the front portion of the right positioning cross shaft, the limiting spring is connected between each of the front and rear reset short plates and the installation chassis, the threaded sleeve is fixedly connected to the front portion of the left positioning cross shaft, the threaded sleeve is fixedly connected to the rear portion of the right positioning cross shaft, the positioning guide frames are symmetrically arranged in a front-back sliding mode between the left and right positioning cross shafts, the front and rear positioning guide frames are respectively in threaded connection with the front and rear threaded sleeves, and the upper portions of the front and rear positioning guide frames are fixedly connected with the clamping plate for positioning the touch screen.

The improved structure comprises an ash removal mechanism for cleaning dust on the surface of the touch screen, wherein the ash removal mechanism comprises an air inlet fan, a guide pipe, a columnar disc, a slotted base, a perforated guide pipe and an air inlet pipe, the upper side of the right part of an installation underframe is fixedly connected with the perforated guide pipe, the bottom of the perforated guide pipe is provided with a strip-shaped groove, the upper right part of the outer front side surface of the installation underframe is fixedly connected with the air inlet fan, two air inlet pipes are connected between the air inlet fan and the perforated guide pipe, the guide pipe is sleeved on the perforated guide pipe in a rotating mode at the right side of the inner top of the installation underframe, the rear part of the guide pipe is fixedly connected with the slotted base, the columnar disc is rotatably arranged at the upper middle upper side of the rear part of the installation underframe, a columnar disc is fixedly connected with a columnar sliding shaft at the eccentric position of the front side surface of the columnar disc, the slotted base is sleeved on the columnar sliding shaft of the columnar disc, the slotted base is slidably connected with the columnar disc, and the rear side of a limiting transverse shaft are in a synchronous belt transmission mode.

As the improvement of above-mentioned scheme, still including the double-layered material mechanism that is used for improving touch-sensitive screen tectorial membrane effect, double-layered material mechanism is equipped with the location horizontal pole including location horizontal pole, clamp flitch and torque spring, installation chassis left part upside rotary type, and front and back symmetric connection has torque spring between location horizontal pole and the installation chassis, and the interval rigid coupling has five clamp flitchs that are used for hugging closely the touch-sensitive screen surface with the membrane material on the horizontal pole of location.

As an improvement of the scheme, the device also comprises a supporting mechanism for facilitating feeding and discharging of the touch screen, the supporting mechanism comprises a supporting bottom frame and a power-assisted roller, the lower parts of the left side and the right side of the mounting bottom frame are fixedly connected with the supporting bottom frame, and the middle parts of the supporting bottom frames of the left side and the right side are rotatably provided with the power-assisted roller for facilitating feeding and discharging of the touch screen.

The invention has the beneficial effects that:

1. according to the invention, the servo motor is started, the material conveying roller rotates reversely to drive the touch screen to move leftwards, meanwhile, the material pulling roller rotates forwards to pull the film material, the positioning cam rotates forwards to drive the material smearing plate to move forwards and backwards through the limiting guide rod, and the material smearing plate moves forwards and backwards to smear and press the film material on the touch screen, so that the film material is tightly attached to the surface of the screen and bubbles are not easily generated.

2. Under clamping mechanism's effect, both sides clamp plate inwards movement around the both sides location guide frame inwards moves around driving respectively, and both sides clamp plate inwards movement is effectively fixed a position to the touch-sensitive screen around to avoid the membrane material to cause at attached in-process touch-sensitive screen crooked, influence tectorial membrane effect, so, the touch-sensitive screen causes crooked influence tectorial membrane effect when avoiding the tectorial membrane.

2. Under the effect of deashing mechanism, start the fan that admits air, the fan that admits air blows in the trompil pipe with the air current through controlling both sides intake pipe in, the stand pipe horizontal hunting makes the air current blow to the touch-sensitive screen surface afterwards, so, can effectively get rid of touch-sensitive screen surface dust, avoids influencing follow-up tectorial membrane.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a first partial cross-sectional structural schematic of the present invention.

Fig. 3 is a partial sectional structural schematic view of the drive mechanism of the present invention.

FIG. 4 is a schematic view of a film-coating mechanism of the present invention in a partial cross-sectional structure.

FIG. 5 is a second partial sectional structural view of the present invention.

Fig. 6 is a first partially sectional structural view of the clamping mechanism of the present invention.

Fig. 7 is a second partial cross-sectional structural schematic view of the clamping mechanism of the present invention.

FIG. 8 is a first partial cross-sectional structural schematic view of the ash removal mechanism of the present invention.

FIG. 9 is a second partial cross-sectional structural schematic view of the ash removal mechanism of the present invention.

Fig. 10 is a third partial sectional structural schematic of the present invention.

Fig. 11 is a partial sectional structural schematic view of the material clamping mechanism of the present invention.

Fig. 12 is an enlarged schematic view of part a of the present invention.

Fig. 13 is a partial sectional structural schematic view of the support mechanism of the present invention.

Number designation in the figures: 1. the device comprises a mounting base frame, a mounting cross rod, a 21, a rubber grip, a 3, a rotating short rod, a 4, a pulling roller, a 5, a limiting transverse shaft, a 6, an electric cutter, a 7, a driving mechanism, a 71, a servo motor, a 72, a worm, a 73, a worm wheel, a 74, a conveying roller, a 8, a film coating mechanism, an 81, a positioning cam, a 82, a limiting guide rod, an 83, a material smearing plate, an 84, a limiting guide frame, an 85, a reset spring, a 9, a clamping mechanism, a 91, a limiting base frame, a 92, a positioning transverse shaft, a 93, a resetting short plate, a 94, a limiting spring, a 95, a threaded sleeve, a 96, a positioning guide frame, a 97, a clamping plate, a 10, an ash removing mechanism, 101, an air inlet fan, a 102, a guide pipe, a 103, a belt column disc, a 104, a slotted base, a 105, a perforated guide pipe, a 106, an air inlet pipe, an 11, a clamping mechanism, a 111, a positioning transverse rod, a 112, a clamping plate, a 113, a torsion spring, a 12, a supporting mechanism, a supporting base frame, a 122 and an auxiliary moving roller.

Detailed Description

The above-described scheme is further illustrated below with reference to specific examples. It should be understood that these examples are for illustrative purposes and are not intended to limit the scope of the present application. The conditions used in the examples may be further adjusted according to the conditions of the particular manufacturer, and the conditions not specified are generally the conditions in routine experiments.

Example 1

A laminating device for touch screen production comprises an installation bottom frame 1, an installation cross rod 2, a rubber holding sleeve 21, a rotating short rod 3, a pulling roller 4, a limiting cross shaft 5, an electric cutter 6, a driving mechanism 7 and a laminating mechanism 8, please refer to fig. 1-4, the right rear side of the upper portion of the installation bottom frame 1 is rotatably provided with the rotating short rod 3, the installation cross rod 2 is fixedly connected onto the rotating short rod 3, the rubber holding sleeve 21 is fixedly connected to the front portion of the installation cross rod 2, the limiting cross shaft 5 is rotatably arranged on the upper side of the left portion of the installation bottom frame 1, the pulling roller 4 is fixedly connected to the middle portion of the limiting cross shaft 5, the electric cutter 6 is arranged on the upper side of the left portion of the installation bottom frame 1, the electric cutter 6 can cut a film, the driving mechanism 7 is arranged between the limiting cross shaft 5 and the installation bottom frame 1, the driving mechanism 7 can provide power for transporting a touch screen, the laminating mechanism 8 is arranged between the installation bottom frame 1 and the limiting cross shaft 5, and the laminating mechanism 8 can realize laminating the touch screen.

The driving mechanism 7 includes a servo motor 71, a worm 72, a worm wheel 73 and material conveying rollers 74, please refer to fig. 2 and fig. 3, the servo motor 71 is fixedly connected to the lower left portion of the outer front side of the mounting chassis 1, the worm 72 is rotatably arranged in the middle left portion of the outer front side of the mounting chassis 1, the spiral teeth of the left and right sides of the worm 72 are opposite, the worm 72 and the output shaft of the servo motor 71 are driven by a synchronous belt, six material conveying rollers 74 are rotatably arranged at intervals on the lower portion of the mounting chassis 1, the material conveying rollers 74 are driven by the synchronous belt, the worm wheel 73 is fixedly connected to the front portion of the second material conveying roller 74 from left to right, the worm wheel 73 is also fixedly connected to the front portion of the limiting cross shaft 5, and the worm wheels 73 on the left and right sides are respectively meshed with the worm 72.

The film covering mechanism 8 includes a positioning cam 81, a limiting guide rod 82, a material smearing plate 83, a limiting guide frame 84 and a return spring 85, as shown in fig. 2 and 4, the positioning cam 81 is rotatably disposed on the upper left side of the rear portion of the installation chassis 1, the positioning cam 81 and the limiting cross shaft 5 are driven by a synchronous belt, the limiting guide rod 82 is slidably disposed on the upper left side of the rear portion of the installation chassis 1, a bump is fixedly connected to the rear side of the limiting guide rod 82, the positioning cam 81 can be in contact with the bump of the limiting guide rod 82 by rotation, the limiting guide frame 84 is fixedly connected between the upper left portions of the front and rear side faces in the installation chassis 1, the material smearing plate 83 is slidably disposed on the limiting guide frame 84, the material smearing plate 83 is fixedly connected to the limiting guide rod 82, and two return springs 85 are connected between the material smearing plate 83 and the limiting guide frame 84.

Firstly, an operator pulls the installation cross rod 2 to swing upwards through the rubber holding sleeve 21, then film materials are sleeved on the installation cross rod 2, the installation cross rod 2 is pulled to swing downwards to reset, then the installation cross rod 2 is fixed on the installation underframe 1 through bolts, the tail end of the film materials is pulled to pass through the lower parts of the material pulling roller 4 and the material smearing plate 83, a touch screen is placed on the right side of the installation underframe 1 and is in contact with the material conveying roller 74, the servo motor 71 is started, the servo motor 71 drives the worm 72 to rotate through synchronous belt transmission, the worm 72 drives the left worm wheel 73 to rotate reversely, the left worm wheel 73 reversely rotates to drive the second material conveying roller 74 from left to right, and the synchronous belt transmission enables all the material conveying rollers 74 to start to rotate reversely, the material conveying rollers 74 reversely rotate to drive the touch screen to move leftwards, meanwhile, the worm 72 rotates to drive the right worm wheel 73 to rotate positively, the right worm wheel 73 drives the positive rotation limiting transverse shaft 5, the limiting transverse shaft 5 positively rotates to drive the material pulling roller 4 to positively rotate, the material pulling roller 4 positively rotates to pull the film material to ensure normal feeding, the limiting transverse shaft 5 positively rotates to drive the positioning cam 81 to positively rotate, the positioning cam 81 positively rotates to drive the limiting guide rod 82 to move back and forth due to the action of the reset spring 85, the limiting guide rod 82 moves back and forth to drive the smearing plate 83 to move back and forth, the smearing plate 83 moves back and forth to smear the film material on the touch screen, so that the film material is tightly attached to the surface of the screen, bubbles are not easy to generate, then the material conveying roller 74 reversely rotates to continuously drive the touch screen to move left, the touch screen moves left to be sent out, the electric cutter 6 is started to operate to cut the film material once, the touch screen is taken up to be subjected to subsequent treatment, the film can be continuously coated on the touch screen repeatedly, after all the film coating on the touch screen is finished, the servo motor 71 is turned off, and the material conveying roller 74 stops reversely rotating, and the troweling plate 83 stops moving back and forth.

Example 2

On the basis of embodiment 1, the clamping device 9 is further included, the clamping device 9 includes a limiting chassis 91, a positioning horizontal shaft 92, a short resetting plate 93, a limiting spring 94, a threaded sleeve 95, a positioning guide frame 96 and a clamping plate 97, as shown in fig. 5-7, the positioning horizontal shaft 92 is rotatably arranged at the lower part of the mounting chassis 1 in a left-right symmetric manner, the limiting chassis 91 is fixedly connected to the middle parts of the left and right positioning horizontal shafts 92, the short resetting plate 93 is fixedly connected to the rear part of the left positioning horizontal shaft 92, the short resetting plate 93 is fixedly connected to the front part of the right positioning horizontal shaft 92, the front and rear side reset short plates 93 are connected with a limiting spring 94 between the mounting underframe 1, the front part of the left positioning transverse shaft 92 is fixedly connected with a threaded sleeve 95, the rear part of the right positioning transverse shaft 92 is also fixedly connected with the threaded sleeve 95, the front and rear symmetrical sliding type positioning guide frames 96 between the left and right positioning transverse shafts 92 are provided with the front and rear side positioning guide frames 96, the front and rear side positioning guide frames 96 are respectively in threaded connection with the front and rear side threaded sleeve 95, the upper parts of the front and rear side positioning guide frames 96 are fixedly connected with a clamping plate 97, and the clamping plate 97 can realize the positioning of the touch screen.

The dust cleaning device further comprises a dust cleaning mechanism 10, wherein the dust cleaning mechanism 10 comprises an air inlet fan 101, a guide pipe 102, a columnar disc 103, a slotted base 104, a perforated guide pipe 105 and an air inlet pipe 106, please refer to fig. 5, fig. 8 and fig. 9, the upper right side of the installation chassis 1 is fixedly connected with the perforated guide pipe 105, the bottom of the perforated guide pipe 105 is provided with a strip-shaped groove, the upper right part of the outer front side surface of the installation chassis 1 is fixedly connected with the air inlet fan 101, two air inlet pipes 106 are connected between the air inlet fan 101 and the perforated guide pipe 105, the guide pipe 102 is rotatably arranged on the right side of the inner top of the installation chassis 1, the rear part of the guide pipe 102 is fixedly connected with the slotted base 104, the upper middle of the rear part of the installation chassis 1 is rotatably provided with the columnar disc 103, the front side surface of the columnar disc 103 is fixedly connected with a columnar sliding shaft, the slotted base 104 is sleeved on the columnar sliding shaft of the columnar disc 103, the slotted base 104 is slidably connected with the columnar sliding shaft of the columnar disc 103, and the rear side of the limiting transverse shaft 5 are in synchronous belt transmission.

When the material conveying roller 74 drives the touch screen to move leftwards, the touch screen is in contact with the left and right side limiting bottom frames 91, the touch screen enables the left and right side limiting bottom frames 91 to swing downwards, the left and right side limiting bottom frames 91 swing downwards to respectively drive the left and right side positioning cross shafts 92 to rotate, the left and right side positioning cross shafts 92 rotate to respectively drive the front and rear side positioning short plates 93 to swing upwards, the limiting springs 94 are compressed, meanwhile, the left and right side positioning cross shafts 92 rotate to respectively drive the front and rear side threaded sleeves 95 to rotate, the front and rear side threaded sleeves 95 rotate to respectively drive the front and rear side positioning guide frames 96 to move inwards, the front and rear side positioning guide frames 96 move inwards to respectively drive the front and rear side clamping plates 97 to move inwards, the front and rear side clamping plates 97 move inwards to effectively position the touch screen, therefore, the situation that the touch screen is inclined in the attaching process to avoid influencing the film laminating effect is avoided, and then when the material conveying roller 74 continues to move leftwards, the touch screen moves leftwards and breaks away from the left side limiting bottom frames 91, and the film laminating effect is avoided because of the front and rear side positioning short plates 93 move outwards.

When the material conveying roller 74 drives the touch screen to move leftwards, the air inlet fan 101 is started, the air inlet fan 101 blows air flow into the perforated guide pipe 105 through the left and right air inlet pipes 106, meanwhile, the positive rotation of the limiting cross shaft 5 drives the belt column disc 103 to rotate positively through the synchronous belt, the belt column disc 103 drives the slotted base 104 to swing upwards and downwards, the slotted base 104 swings upwards and downwards to drive the guide pipe 102 to swing leftwards and rightwards, the guide pipe 102 swings leftwards and rightwards to enable the air flow to blow to the surface of the touch screen, dust on the surface of the touch screen is effectively removed, subsequent film covering is prevented from being influenced, after all the film covering of the touch screen is completed, the air inlet fan 101 is closed, the limiting cross shaft 5 stops driving the belt column disc 103 to rotate positively through the synchronous belt, and the guide pipe 102 also stops swinging leftwards and rightwards.

Example 3

Based on the embodiments 1 and 2, the touch screen further includes a material clamping mechanism 11, the material clamping mechanism 11 includes a positioning cross bar 111, a material clamping plate 112 and a torsion spring 113, as shown in fig. 10-12, the positioning cross bar 111 is rotatably disposed on the upper side of the left portion of the installation chassis 1, the torsion springs 113 are symmetrically connected between the positioning cross bar 111 and the installation chassis 1 in front and back, five material clamping plates 112 are fixedly connected to the positioning cross bar 111 at intervals, and the material clamping plates 112 can enable the film material to be tightly attached to the surface of the touch screen.

The touch screen material feeding and discharging device further comprises a supporting mechanism 12, wherein the supporting mechanism 12 comprises a supporting bottom frame 121 and an auxiliary roller 122, please refer to fig. 10 and 13, the supporting bottom frame 121 is fixedly connected to the lower portions of the left side and the right side of the mounting bottom frame 1, the auxiliary roller 122 is rotatably arranged in the middle of the supporting bottom frame 121 of the left side and the right side, and the auxiliary roller 122 can facilitate feeding and discharging of the touch screen.

When servo motor 71 during operation, the corotation of spacing cross axle 5 drives draws material gyro wheel 4 corotation, draws material gyro wheel 4 corotation to drag the coating material, simultaneously, because of torsion spring 113's effect, clamp plate 97 is the downswing all the time and is sticis the coating material on the touch-sensitive screen, improves the tectorial membrane effect, so, can improve the touch-sensitive screen tectorial membrane effect.

When the touch screen enters and exits the installation chassis 1, the auxiliary roller 122 can guide the touch screen, so that the smoothness of feeding and discharging of the touch screen is ensured, and the touch screen can conveniently feed and discharge materials.

Although the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made herein without departing from the principles and spirit of the invention as defined by the appended claims. Therefore, the detailed description of the embodiments of the present disclosure is to be construed as merely illustrative, and not limitative of the remainder of the disclosure, but rather to limit the scope of the disclosure to the full extent set forth in the appended claims.

Claims (8)

1. The utility model provides a laminating equipment is used in touch-sensitive screen production, including installation chassis (1), draw material gyro wheel (4) and spacing cross axle (5), installation chassis (1) left part upside rotary type is equipped with spacing cross axle (5), spacing cross axle (5) middle part rigid coupling has draws material gyro wheel (4), a serial communication port, still including actuating mechanism (7) and laminating mechanism (8), be provided with actuating mechanism (7) that are used for providing power transportation touch-sensitive screen between spacing cross axle (5) and installation chassis (1), be provided with between installation chassis (1) and the spacing cross axle (5) and be used for laminating mechanism (8) to the touch-sensitive screen tectorial membrane.

2. The laminating device for producing the touch screen is characterized by further comprising an installation transverse rod (2), a rubber holding sleeve (21), a rotating short rod (3) and an electric cutter (6), wherein the rotating short rod (3) is rotatably arranged on the right rear side of the upper portion of the installation bottom frame (1), the installation transverse rod (2) is fixedly connected onto the rotating short rod (3), the rubber holding sleeve (21) is fixedly connected to the front portion of the installation transverse rod (2), and the electric cutter (6) used for cutting a film material is arranged on the upper side of the left portion of the installation bottom frame (1).

3. The laminating device for the touch screen production, according to claim 2, characterized in that the driving mechanism (7) comprises a servo motor (71), a worm (72), a worm wheel (73) and material conveying rollers (74), the servo motor (71) is fixedly connected to the lower left portion of the outer front side of the mounting chassis (1), the worm (72) is rotatably arranged in the middle left portion of the outer front side of the mounting chassis (1), the spiral teeth on the left side and the right side of the worm (72) are opposite, the worm (72) and the output shaft of the servo motor (71) are in synchronous belt transmission, six material conveying rollers (74) are rotatably arranged on the lower portion of the mounting chassis (1) at intervals, the material conveying rollers (74) are in synchronous belt transmission, the worm wheel (73) is fixedly connected to the front portion of the second material conveying roller (74) from left to right, the worm wheel (73) is also fixedly connected to the front portion of the limiting transverse shaft (5), and the worm wheels (73) on the left side and the right side are respectively meshed with the worm (72).

4. The laminating device for producing the touch screen as claimed in claim 3, wherein the laminating mechanism (8) comprises a positioning cam (81), a limiting guide rod (82), a material smearing plate (83), a limiting guide frame (84) and a reset spring (85), the positioning cam (81) is rotatably arranged on the upper left side of the rear portion of the installation bottom frame (1), the positioning cam (81) is in synchronous belt transmission with the limiting transverse shaft (5), the limiting guide rod (82) is slidably arranged on the upper left side of the rear portion of the installation bottom frame (1), a bump is fixedly connected to the rear side of the limiting guide rod (82), the positioning cam (81) can be in rotating contact with the bump of the limiting guide rod (82), the limiting guide frame (84) is fixedly connected between the upper left portions of the front side surface and the rear side surface in the installation bottom frame (1), the material smearing plate (83) is slidably arranged on the limiting guide frame (84), the material smearing plate (83) is fixedly connected with the limiting guide rod (82), and the two reset springs (85) are connected between the material smearing plate (83) and the limiting guide frame (84).

5. The laminating device for producing the touch screen as claimed in claim 4, further comprising a clamping mechanism (9) for positioning the touch screen, wherein the clamping mechanism (9) comprises a limiting bottom frame (91), a positioning cross shaft (92), a reset short plate (93), a limiting spring (94), a threaded sleeve (95), a positioning guide frame (96) and a clamping plate (97), the lower portion of the installation bottom frame (1) is provided with the positioning cross shaft (92) in a left-right symmetrical rotating manner, the middle portions of the left and right positioning cross shafts (92) are fixedly connected with the limiting bottom frame (91), the rear portion of the left positioning cross shaft (92) is fixedly connected with the reset short plate (93), the front portion of the right positioning cross shaft (92) is also fixedly connected with the reset short plate (93), the front and rear portions of the front and rear side reset short plates (93) are connected with the installation bottom frame (1) through the limiting spring (94), the front portion of the left positioning cross shaft (92) is fixedly connected with the threaded sleeve (95), the rear portion of the right positioning cross shaft (92) is also fixedly connected with the threaded sleeve (95), the front and rear portions of the left and right positioning cross shafts (92) are symmetrically provided with the positioning guide frame (96), the front and rear positioning guide frame (96), and rear positioning guide frame (96) are connected with the front and rear portions of the front and rear side positioning guide frame (97) for positioning guide frame (96), and rear side of the sliding type touch screen.

6. The laminating equipment for producing the touch screen, according to claim 5, characterized by further comprising a dust cleaning mechanism (10) for cleaning dust on the surface of the touch screen, wherein the dust cleaning mechanism (10) comprises an air inlet fan (101), a guide pipe (102), a disc with a column (103), a slotted base (104), a perforated guide pipe (105) and an air inlet pipe (106), the upper right side of the installation chassis (1) is fixedly connected with a perforated guide pipe (105), the bottom of the perforated guide pipe (105) is provided with a strip-shaped groove, the upper right part of the outer front side of the installation chassis (1) is fixedly connected with the air inlet fan (101), two air inlet pipes (106) are connected between the air inlet fan (101) and the perforated guide pipe (105), the guide pipe (102) is rotatably arranged on the right side of the inner top of the installation chassis (1), the guide pipe (102) is sleeved on the perforated guide pipe (105), the rear part of the guide pipe (102) is fixedly connected with the slotted base (104), the upper middle upper side of the rear part of the installation chassis (1) is rotatably provided with the disc with the column (103), the disc with the column (103) at the eccentric position of the front side of the disc with the column (103), the disc with the column, the disc with the sliding shaft (104) through a column, the sliding shaft, and the sliding shaft of the sliding transmission mechanism, the sliding mechanism (5) are connected with the cylindrical disc with the column (103) through the sliding mechanism (103).

7. The laminating device for producing the touch screen as claimed in claim 6, further comprising a clamping mechanism (11) for improving the laminating effect of the touch screen, wherein the clamping mechanism (11) comprises a positioning cross rod (111), a clamping plate (112) and a torsion spring (113), the positioning cross rod (111) is rotatably arranged on the upper side of the left portion of the installation chassis (1), the torsion spring (113) is symmetrically connected between the positioning cross rod (111) and the installation chassis (1) in the front-back direction, and five clamping plates (112) for tightly attaching the film to the surface of the touch screen are fixedly connected to the positioning cross rod (111) at intervals.

8. The laminating device for touch screen production according to claim 7, further comprising a supporting mechanism (12) for facilitating feeding and discharging of the touch screen, wherein the supporting mechanism (12) comprises a supporting bottom frame (121) and an assisting roller (122), the supporting bottom frame (121) is fixedly connected to the lower portions of the left side and the right side of the installation bottom frame (1), and the assisting roller (122) for facilitating feeding and discharging of the touch screen is rotatably arranged in the middle of the supporting bottom frame (121) on the left side and the right side.

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