CN218928007U - Device for removing hole scraps after cutting of optical film reflecting film - Google Patents

Abstract

The utility model relates to the technical field of hole debris removing devices, in particular to a hole debris removing device after an optical film reflecting film is cut; including support frame, first conveyer belt, second conveyer belt, shake mechanism, the mounting bracket, a plurality of first ion fans, the dirty tank, a plurality of second ion fans, support and dust sticking mechanism, place the optics diaphragm reflectance coating after cutting on first conveyer belt, carry the inside to shake the district through first conveyer belt, utilize shake mechanism to drive light diaphragm reflectance coating and shake in the in-process of carrying, and start first ion fan and corresponding second ion fan in proper order, clear away the sweeps in the through-hole of optics diaphragm reflectance coating, when optics diaphragm reflectance coating carries to the below of dust sticking mechanism, start dust sticking mechanism, the dirty foreign matter of no shake on the adhesion optics diaphragm reflectance coating, adopt above-mentioned structure, clear away the sweeps in the through-hole of optics diaphragm reflectance coating, cleaner.

Description

Device for removing hole scraps after cutting of optical film reflecting film

Technical Field

The utility model relates to the technical field of hole debris removal devices, in particular to a hole debris removal device for an optical film reflection film after cutting.

Background

In the existing forming device of the porous reflective optical film, a cutting machine is needed, and a coiled material of the reflective film is cut into the porous reflective film at one time through a cutting die. However, the porous reflective optical film from the production line often adheres to the cut fine scraps at the through holes, and cannot fall off by itself.

At present, the method for cleaning the holes of the cut porous optical reflection film is still that after manual inspection, an air gun is used for blowing tiny scraps, but the tiny scraps are difficult to clean completely due to electrostatic adsorption and the like, and the porous optical reflection film adhered with the scraps cannot be used normally.

Disclosure of Invention

The utility model aims to provide a device for removing pore scraps after cutting an optical film reflection film, which solves the problems that in the prior art, a method for removing pores after cutting a porous reflection optical film is still used for manually checking and blowing tiny scraps by an air gun, but the tiny scraps are difficult to completely remove due to electrostatic adsorption and the like, and the porous optical reflection film adhered with the scraps cannot be normally used.

In order to achieve the above purpose, the utility model provides a device for removing hole scraps after optical film reflection film cutting, which comprises a supporting frame, a first transmission belt, a second transmission belt, a shaking mechanism, a mounting frame, a plurality of first ion fans, a waste trough, a plurality of second ion fans, a support and a dust adhering mechanism, wherein the first transmission belt and the second transmission belt are arranged on the upper surface of the supporting frame, the first transmission belt and the second transmission belt are respectively positioned at two ends of the upper surface of the supporting frame, a shaking area is arranged between the first transmission belt and the second transmission belt, the shaking mechanism is arranged in the shaking area, the mounting frame is detachably connected with the supporting frame and is positioned on the upper surface of the shaking area, the plurality of first ion fans are uniformly distributed on the mounting frame, the waste trough is detachably connected with the supporting frame and is positioned at the bottom of the shaking area, the plurality of second ion fans are uniformly distributed in the inner part of the shaking trough, each second ion fan is respectively connected with the second ion fans, and the second ion fans are correspondingly arranged on the second support and the dust adhering mechanism is arranged on the optical film reflection film.

The shaking mechanism comprises two mounting shafts, a plurality of shaking rubber bands, a driving motor, a driving shaft, a driving belt, a plurality of transmission shafts and a plurality of shaking components, wherein the mounting shafts are arranged at two ends of a shaking area, a plurality of shaking rubber bands are uniformly arranged between the two mounting shafts, the driving shaft and the plurality of transmission shafts are further rotationally connected to the supporting frame, the driving shaft and the plurality of transmission shafts are located below the shaking rubber bands, the driving motor is further arranged on the side face of the supporting frame, the driving motor is mechanically transmitted with the driving shaft through a coupler, one end of the driving shaft is provided with a driving wheel, one end of each driving shaft is provided with a driving wheel, the driving wheel and the plurality of driving wheels are sleeved with the driving belt, and each driving wheel is provided with the shaking components.

Each shaking assembly comprises two mounting pieces and three shaking rollers, the two mounting pieces are sleeved outside the transmission shaft, each mounting piece is in an equilateral triangle structure, and the shaking rollers are arranged between each end angle of each mounting piece.

The dust adhering mechanism comprises a motor, a rotating shaft and dust adhering rollers, the motor is arranged on one side of the support, the rotating shaft is movably connected with the support, the output end of the motor is mechanically driven with the rotating shaft through a coupler, the dust adhering rollers are sleeved outside the rotating shaft and used for adhering foreign matters on the optical film reflecting film conveyed on the second conveying belt.

The bottom of the waste tank is further provided with a plurality of through hole groups, and each through hole group corresponds to one second ion fan respectively.

The wind power intensity of the plurality of first ion fans is sequentially weakened from the direction from the first conveying belt to the second conveying belt.

The utility model discloses a device for removing scraps after cutting an optical film reflecting film, which comprises a supporting frame, a first conveying belt, a second conveying belt, a shaking mechanism, a mounting frame, a plurality of first ion fans, a waste tank, a plurality of second ion fans, a support and a dust adhering mechanism, wherein the optical film reflecting film after cutting is placed on the first conveying belt and conveyed to the inside of a shaking area through the first conveying belt, the shaking mechanism is utilized to drive the light film reflecting film to shake in the conveying process, the first ion fans and the corresponding second ion fans are sequentially started in the shaking process, so that scraps in through holes of the optical film reflecting film are removed, and when the optical film reflecting film is conveyed to the second conveying belt and conveyed to the lower part of the dust adhering mechanism through the second conveying belt, the dust adhering mechanism is started to adhere uncluttered foreign matters on the optical film conveyed on the second conveying belt.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of the device for removing the hole debris after cutting the reflective film of the optical film.

Fig. 2 is an enlarged view of a partial structure at a of fig. 1 provided by the present utility model.

Fig. 3 is a schematic diagram of a part of the structure of the device for removing the hole debris after cutting the reflective film of the optical film.

Fig. 4 is a schematic structural diagram of a dithering mechanism provided by the present utility model.

Fig. 5 is an enlarged view of a partial structure at B of fig. 4 provided by the present utility model.

101-supporting frame, 102-first conveyer belt, 103-second conveyer belt, 104-shake mechanism, 105-mounting frame, 106-first ion fan, 107-waste tank, 108-second ion fan, 109-support, 110-dust sticking mechanism, 111-shake area, 112-installation axle, 113-shake rubber band, 114-driving motor, 115-driving axle, 116-driving belt, 117-driving axle, 118-shake subassembly, 119-driving wheel, 120-driving wheel, 121-installation piece, 122-shake roller, 123-motor, 124-axis of rotation, 125-dust sticking roller, 126-through hole group.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

Referring to fig. 1 to 5, the utility model provides a device for removing hole debris after cutting an optical film reflection film, which comprises a supporting frame 101, a first transmission belt 102, a second transmission belt 103, a shaking mechanism 104, a mounting frame 105, a plurality of first ion fans 106, a waste tank 107, a plurality of second ion fans 108, a bracket 109 and a dust adhering mechanism 110, wherein the first transmission belt 102 and the second transmission belt 103 are arranged on the upper surface of the supporting frame 101, the first transmission belt 102 and the second transmission belt 103 are respectively positioned at two ends of the upper surface of the supporting frame 101, a shaking area 111 is arranged between the first transmission belt 102 and the second transmission belt 103, the shaking mechanism 104 is arranged in the shaking area 111, the mounting frame 105 is detachably connected with the supporting frame 101, the plurality of first ion fans 106 are uniformly distributed on the mounting frame 105, the waste tank 107 is detachably connected with the supporting frame 101, the second ion fans 108 are uniformly distributed on the bottom of the supporting frame 101, the second ion fans 108 are uniformly distributed on the inner side of the supporting frame 103, and the second ion fans 109 are respectively adhered to the inner side of the supporting frame 101, and the second ion fans 110 are uniformly distributed on the bottom of the supporting frame 109, and the ion fans 110 are respectively arranged on the supporting frame 101.

In this embodiment, the cut optical film reflection film is placed on the first conveying belt 102, and conveyed to the inside of the shaking area 111 through the first conveying belt 102, the shaking mechanism 104 is used to drive the optical film reflection film to shake in the conveying process, in the shaking process, the first ion blower 106 and the corresponding second ion blower 108 are sequentially started, so that scraps in the through holes of the optical film reflection film are removed, when the optical film reflection film is conveyed to the second conveying belt 103, and conveyed to the lower side of the dust adhering mechanism 110 through the second conveying belt 103, the dust adhering mechanism 110 is started to adhere impurities on the conveyed optical film reflection film on the second conveying belt 103, and by adopting the above structure, scraps in the through holes of the optical film reflection film are removed more cleanly.

Further, the shaking mechanism 104 includes two mounting shafts 112, a plurality of shaking rubber bands 113, a driving motor 114, a driving shaft 115, a driving belt 116, a plurality of driving shafts 117 and a plurality of shaking components 118, two ends of the shaking area 111 are respectively provided with the mounting shafts 112, a plurality of shaking rubber bands 113 are uniformly arranged between the two mounting shafts 112, the driving shaft 115 and the plurality of driving shafts 117 are further rotatably connected to the supporting frame 101, the driving shaft 115 and the plurality of driving shafts 117 are respectively positioned below the shaking rubber bands 113, the driving motor 114 is further arranged on the side surface of the supporting frame 101, the driving motor 114 is mechanically driven with the driving shaft 115 through a coupler, one end of the driving shaft 115 is provided with a driving wheel 119, one end of each driving shaft 117 is provided with a driving wheel 120, the driving belt 116 is sleeved outside the driving wheel 119 and the driving wheels 120, and each driving wheel 120 is provided with the shaking components 118.

In this embodiment, the driving motor 114 is started to drive the driving shaft 115 to rotate through a coupling, and the driving belt 116 is sleeved outside the driving wheel 119 and the driving wheels 120, so that the driving shaft 117 is driven to rotate by matching with the driving wheels 120 through the driving belt 116, and in the rotating process of the rotating shaft 124, the shaking assembly 118 is utilized to shake the shaking rubber band 113, so that the optical film reflective film conveyed to the shaking rubber band 113 is conveyed to the direction of the second conveying belt 103 in the shaking process.

Further, each shaking component 118 includes two mounting members 121 and three shaking rollers 122, two mounting members 121 are all sleeved outside the transmission shaft 117, each mounting member 121 is in an equilateral triangle structure, and each shaking roller 122 is arranged between each end angle of each mounting member 121.

In this embodiment, since the mounting member 121 is sleeved on the outside of the driving shaft 117, the mounting member 121 is in an equilateral triangle structure, and the driving shaft 117 is located at the center of the mounting member 121, so that the driving shaft 117 rotates while sequentially dithering the dithering rubber band 113 by using the three dithering rolls 122 disposed at the end corners of the mounting frame 105, thereby increasing the dithering frequency of the dithering rubber band 113.

Further, the dust adhering mechanism 110 includes a motor 123, a rotating shaft 124 and a dust adhering roller 125, the motor 123 is mounted on one side of the support 109, the rotating shaft 124 is movably connected with the support 109, an output end of the motor 123 is mechanically driven with the rotating shaft 124 through a coupling, the dust adhering roller 125 is sleeved outside the rotating shaft 124, and the dust adhering roller 125 is used for adhering to foreign matters on the reflective film of the optical film conveyed on the second conveying belt 103.

In this embodiment, when the optical film reflective film is conveyed below the dust-sticking roller 125, the motor 123 is started, and the rotation shaft 124 is driven to rotate by the coupling, so that the dust-sticking roller 125 is used to adhere the foreign matters on the conveyed optical film reflective film on the second conveying belt 103.

Further, a plurality of through hole groups 126 are further disposed at the bottom of the waste tank 107, and each through hole group 126 corresponds to one of the second ion fans 108.

In this embodiment, since the plurality of through hole groups 126 provided at the bottom of the waste tank 107 correspond to one of the second ion fans 108, respectively, the wind fluidity is increased, so that the effect of removing the waste in the through holes of the reflective film of the optical film is better.

Further, the wind power of the plurality of first ion fans 106 is sequentially weakened from the first conveyor belt 102 to the second conveyor belt 103.

In this embodiment, the wind power of the plurality of first ion fans 106 is sequentially reduced, so that the wind power is reduced.

The above disclosure is only a preferred embodiment of the present utility model, and it should be understood that the scope of the utility model is not limited thereto, and those skilled in the art will appreciate that all or part of the procedures described above can be performed according to the equivalent changes of the claims, and still fall within the scope of the present utility model.

Claims (6)

1. A device for removing hole scraps after cutting an optical film reflection film is characterized in that,

including support frame, first transmission band, second transmission band, shake mechanism, mounting bracket, a plurality of first ion fans, waste bin, a plurality of second ion fans, support and bonding dirt mechanism, the upper surface of support frame is provided with first transmission band with the second transmission band, first transmission band with the second transmission band is located respectively the both ends of the upper surface of support frame, first transmission band with be provided with the shake district between the second transmission band, be provided with in the shake district shake mechanism, the mounting bracket with the support frame is dismantled and is connected, and be located the upper surface in shake district, evenly distributed has a plurality of first ion fans on the mounting bracket, the waste bin with the support frame is dismantled and is connected, and be located the bottom in shake district, the inside evenly distributed of waste bin has a plurality of second ion fans, every second ion fans respectively with first ion fans corresponds, the support frame with the support frame is dismantled and is connected, and is located the top of second transmission band, the bonding dirt film is used for the second on the adhesive film of the adhesive dirt mechanism.

2. The post-cutting chad removal device for optical film reflective film according to claim 1, wherein,

the shaking mechanism comprises two mounting shafts, a plurality of shaking rubber bands, a driving motor, a driving shaft, a transmission belt, a plurality of transmission shafts and a plurality of shaking components, wherein the mounting shafts are arranged at two ends of a shaking area, a plurality of shaking rubber bands are uniformly arranged between the two mounting shafts, the driving shaft and the plurality of transmission shafts are further rotationally connected to the supporting frame, the driving shaft and the plurality of transmission shafts are located below the shaking rubber bands, the driving motor is further arranged on the side face of the supporting frame, the driving motor is mechanically transmitted with the driving shaft through a coupler, a driving wheel is arranged at one end of the driving shaft, a driving wheel is arranged at one end of each transmission shaft, the driving wheel and the plurality of driving wheels are sleeved with the transmission belt, and the shaking components are arranged on each driving wheel.

3. The post-cutting chad removal device for optical film reflective film according to claim 2, wherein,

every shake subassembly all includes two installed parts and three shake roller, two the outside of transmission shaft is established to the equal cover of installed part, every the installed part all is equilateral triangle structure setting, two all be provided with between every end angle of installed part shake the roller.

4. The post-cutting chad removal device for optical film reflective film according to claim 1, wherein,

the dust adhering mechanism comprises a motor, a rotating shaft and dust adhering rollers, the motor is arranged on one side of the support, the rotating shaft is movably connected with the support, the output end of the motor is mechanically driven with the rotating shaft through a coupler, the dust adhering rollers are sleeved outside the rotating shaft and are used for adhering foreign matters on the conveyed optical film reflecting film on the second conveying belt.

5. The post-cutting chad removal device for optical film reflective film according to claim 1, wherein,

the bottom of the waste tank is also provided with a plurality of through hole groups, and each through hole group corresponds to one second ion fan respectively.

6. The post-cutting chad removal device for optical film reflective film according to claim 1, wherein,

the wind power intensity of the plurality of first ion fans is sequentially weakened from the direction from the first conveying belt to the second conveying belt.

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