CN113560638A - Polaroid processing equipment and polaroid processing technology - Google Patents

Abstract

The invention discloses polaroid processing equipment and a polaroid processing process using the same, wherein the polaroid processing equipment adopts a rack, a first driving piece of a milling pin assembly is arranged on the rack, a barrel milling cutter is connected to the first driving piece in a transmission manner, a second driving piece of a bearing assembly is arranged on the rack, a processing platform is connected to the second driving piece in a transmission manner and is positioned below the barrel milling cutter, the second driving piece drives the barrel milling cutter to rotate relative to the rack, a third driving piece of a compaction assembly is arranged on the rack, a pressure arm is connected to the third driving piece in a transmission manner, and the third driving piece drives the pressure arm to reciprocate relative to the processing platform and can abut against the middle part of the polaroid so as to press the polaroid on the processing platform. The polaroid processing equipment can grind and process the periphery of the polaroid at one time, and the processing efficiency and the processing precision of the polaroid are improved to a greater extent due to the omitted action of reversing the pressure arm.

Description

Polaroid processing equipment and polaroid processing technology

Technical Field

The invention relates to the technical field of polarizer processing, in particular to polarizer processing equipment and a polarizer processing technology.

Background

At present, in edging the polarizer, a side milling cutter is generally used to grind the edge of the polarizer, the edging generally comprises pressing one side of the polarizer by a pressing arm, processing the opposite side by the side milling cutter, turning the pressing arm or pressing the processed side of the polarizer by the pressing arm on the opposite side, and processing the opposite side by the side milling cutter. In the processing technology, the polarizer is pressed by changing the direction of the pressure arm, so that the processing efficiency is low, the polarizer slightly deviates in the process of changing the pressure arm, and the processing precision is reduced when the other side of the polarizer is processed.

Disclosure of Invention

The invention mainly aims to provide polaroid processing equipment, aiming at improving the processing efficiency and the processing precision of a polaroid.

In order to achieve the above object, the present invention provides a polarizer processing apparatus, comprising:

a frame;

the milling assembly comprises a first driving piece and a barrel milling cutter, the first driving piece is arranged on the rack, and the barrel milling cutter is in transmission connection with the first driving piece;

the bearing assembly comprises a second driving piece and a machining platform, the second driving piece is arranged on the rack, the machining platform is connected to the second driving piece in a transmission mode and located below the barrel milling cutter, and the second driving piece drives the barrel milling cutter to rotate relative to the rack;

the pressing assembly comprises a third driving piece and a pressing arm, the third driving piece is installed on the rack, the pressing arm is connected to the third driving piece in a transmission mode, the third driving piece drives the pressing arm to move to and fro relative to the machining platform and abuts against the middle of the polaroid to press the polaroid on the machining platform.

Optionally, the second driving part comprises a second driving motor and a mounting seat, the second driving motor is mounted on the frame, the mounting seat is in transmission connection with an output shaft of the second driving motor, and the machining platform is detachably connected to the mounting seat.

Optionally, the bearing assembly further includes a plurality of fixing screws, the mounting base is provided with a plurality of screw holes, the processing platform is provided with a plurality of connecting holes penetrating through two opposite surfaces of the processing platform, and one of the fixing screws penetrates through one of the connecting holes and one of the screw holes to connect and fix the processing platform and the mounting base.

Optionally, the first driving part includes a first driving motor, a transmission shaft and a transmission belt, the first driving motor is installed in the frame, the transmission shaft is rotatably connected to the frame, the transmission belt is connected to an output shaft of the first driving motor and the transmission shaft, and the barrel milling cutter is connected to the transmission shaft.

Optionally, the polarizer processing apparatus further comprises a positioning assembly, wherein the positioning assembly is arranged on the frame and used for positioning the polarizer on the processing platform.

Optionally, the positioning assembly includes a fourth driving element and at least one positioning block, the fourth driving element is mounted on the frame, the positioning block is connected to the fourth driving element in a transmission manner, and the fourth driving element drives the positioning block to abut against the edge of the polarizer.

Optionally, the fourth driving part includes two driving cylinders and two positioning blocks, the two driving cylinders are disposed on the frame, the first driving cylinder is connected to a telescopic rod of the driving cylinder in a positioning manner, and the two driving cylinders drive the two positioning blocks to abut against two adjacent edges of the polarizer.

The invention also provides a polarizer processing technology based on the polarizer processing equipment, which comprises the following steps:

loading, namely placing a polaroid to be processed on a processing platform;

positioning, wherein two positioning blocks are abutted against two adjacent side edges of the polaroid;

pressing, wherein a pressing arm is abutted to the middle of the polaroid, and then the two positioning blocks move towards one side far away from the polaroid;

and processing, namely fitting a barrel milling cutter to the side edge of the polaroid and performing milling processing on the polaroid, and rotating the processing platform relative to the barrel milling cutter to realize milling processing on the outer side surface of the polaroid.

Optionally, in the feeding step, after the polarizer to be processed is placed on the processing platform, a protective layer is placed on the surface of the polarizer, so that the pressing arm abuts against the surface of the protective layer, and the polarizer is pressed and fixed on the surface of the processing platform.

Optionally, the outline of the protection layer is the same as that of the polarizer.

According to the technical scheme, the machine frame is adopted, the first driving piece of the milling assembly is arranged on the machine frame, the barrel milling cutter is connected to the first driving piece in a transmission mode, the second driving piece of the bearing assembly is arranged on the machine frame, the machining platform is connected to the second driving piece in a transmission mode and located below the barrel milling cutter, the second driving piece drives the barrel milling cutter to rotate relative to the machine frame, the third driving piece of the pressing assembly is installed on the machine frame, the pressing arm is connected to the third driving piece in a transmission mode, the third driving piece drives the pressing arm to reciprocate relative to the machining platform and can abut against the middle of the polaroid to press the polaroid on the machining platform.

In one embodiment, a plurality of polaroids to be processed are placed on the processing platform, the pressing arm is abutted to the middle of the polaroid under the driving of the third driving piece, the polaroid to be processed is pressed on the processing platform, the barrel milling cutter is used for grinding the edge of the polaroid under the driving of the second driving piece, and the second driving piece drives the processing platform to rotate relative to the barrel milling cutter in the processing process, so that the barrel milling cutter can grind the periphery of the polaroid at one time, and the processing efficiency and the processing precision of the polaroid are improved to a greater extent due to the omitted reversing action of the pressing arm.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a polarizer processing apparatus according to an embodiment of the present invention;

FIG. 2 is a flowchart illustrating steps of a polarizer processing process according to an embodiment of the present invention.

The reference numbers illustrate:

the implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1, the present invention provides a polarizer processing apparatus 100.

In an embodiment of the present invention, the polarizer processing apparatus 100 is configured to grind and process an edge of a polarizer 200, where the polarizer processing apparatus 100 includes a frame (not shown), the frame may be formed by splicing metal sections, the milling assembly 20 includes a first driving member 21 and a barrel milling cutter 22, the first driving member 21 is disposed on the frame, the barrel milling cutter 22 is connected to the first driving member 21 in a transmission manner, the bearing assembly 30 includes a second driving member and a processing platform 31, the second driving member is disposed on the frame, the processing platform 31 is connected to the second driving member in a transmission manner and is located below the barrel milling cutter 22, and the second driving member drives the barrel milling cutter 22 to rotate relative to the frame; the pressing assembly 40 includes a third driving member 41 and a pressing arm 42, the third driving member 41 is installed in the frame, the pressing arm 42 is connected to the third driving member 41 in a transmission manner, the third driving member 41 drives the pressing arm 42 to reciprocate relative to the processing platform 31 and abut against the middle of the polarizer 200, so as to press the polarizer 200 on the processing platform 31.

In an embodiment, a plurality of polarizers 200 to be processed are placed on the processing platform 31, the pressing arm 42 is abutted to the middle of the polarizer 200 under the driving of the third driving member 41, the polarizer 200 to be processed is pressed on the processing platform 31, the barrel milling cutter 22 is driven by the second driving member to grind the edge of the polarizer 200, and the second driving member drives the processing platform 31 to rotate relative to the barrel milling cutter 22 in the processing process, so that the barrel milling cutter 22 can grind the periphery of the polarizer 200 at one time, and the processing efficiency and the processing precision of the polarizer 200 are greatly improved due to the omitted reversing action of the pressing arm 42.

In an embodiment of the present invention, the second driving element includes a second driving motor and a mounting seat, wherein the second driving motor may be a servo motor or a stepping motor, the second driving motor is mounted on the frame, the mounting seat is connected to an output shaft of the second driving motor through a coupling, and the processing platform 31 is detachably connected to the mounting seat. In the invention, a plurality of polaroids 200 to be processed are stacked on the processing platform 31, the processing platform 31 is driven by the second driving motor, so that the polaroids 200 rotate relative to the barrel milling cutter 22, and the whole edge of the polaroid is further processed and formed at one time, the structure of the second driving piece is simple, and the processing efficiency and the accuracy of the polaroid 200 are higher.

In an embodiment of the present invention, the bearing assembly 30 further includes a plurality of fixing screws, the mounting base is provided with a plurality of screw holes, the processing platform 31 is provided with a plurality of connecting holes penetrating through two opposite surfaces thereof, and one of the fixing screws penetrates through one of the connecting holes and one of the screw holes to connect and fix the processing platform 31 and the mounting base. Through set screw with mount pad and processing platform 31 connection fixed in this application, so processing platform 31's dismouting is comparatively simple, makes things convenient for the operation person to change the processing platform 31 of different models in order to adapt to the processing production of different model sizes's polaroid 200. Of course, the mounting seat and the processing platform 31 may also adopt a detachable connection structure such as a buckle and a pin, which is not described in detail herein.

In an embodiment of the present invention, the first driving member 21 includes a first driving motor 211, a transmission shaft 212 and a transmission belt 213, wherein the first driving motor 211 is mounted on the frame, the transmission shaft 212 is rotatably connected to the frame and is disposed opposite to an output shaft of the first driving motor 211, belt pulleys are sleeved on the output shaft of the first driving motor 211 and the end portions of the transmission shaft 212, the transmission belt 213 is sleeved on the outer sides of the two belt pulleys to drivingly connect the first driving motor 211 and the transmission shaft 212, and the barrel milling cutter 22 is connected to the transmission shaft 212 through a cutter clamp. In this application, first driving piece 21's simple structure to drive a section of thick bamboo milling cutter 22 through the conveyer belt and rotate, make a section of thick bamboo milling cutter 22's rotation comparatively smooth and easy, be difficult to take place to shake in the course of working to polaroid 200, further improve polaroid 200's machining precision.

It can be understood that the barrel milling cutter 22 can grind the edges of a plurality of stacked polarizers 200, where the length of the barrel milling cutter 22 is L, L is greater than or equal to 150mm, and preferably, the length of the barrel milling cutter 22 is 150mm, so that the barrel milling cutter 22 can process as many polarizers 200 as possible at one time, thereby further improving the processing efficiency of the polarizers 200.

In an embodiment of the present invention, the polarizer further includes a positioning assembly, and the positioning assembly is disposed on the frame and is used to position the polarizer 200 on the processing platform 31.

Particularly, locating component includes fourth drive spare and at least a locating piece, wherein, in this application, the fourth drive spare includes two drive actuating cylinders and two locating pieces components, two drive actuating cylinders install in the frame, one the locating piece transmission is connected in one drive actuating cylinder, two drive actuating cylinder drive two the locating piece butt in two adjacent edges of polaroid 200, through two locating piece butts in two adjacent angles of rectangle polaroid 200 promptly, be located polaroid 200 in processing platform 31. Certainly, the fourth driving part can also be a driving cylinder and a positioning block, the shape of the positioning block is adapted to the outline of the polarizer 200, and the polarizer 200 is positioned through the positioning block in the application, so that the processing precision of the polarizer 200 is improved.

Referring to fig. 2, the present invention further provides a polarizer processing process based on the polarizer processing apparatus 100, where the polarizer processing process includes the following steps:

s10: and loading, and placing the polarizer 200 to be processed on the processing platform 31.

S20: positioning, wherein two positioning blocks are abutted against two adjacent side edges of the polarizer 200; specifically, the two positioning blocks move towards two adjacent sides of the polarizer 200 under the driving of the fourth driving part and abut against the two sides, and the polarizer 200 is positioned by the shape of the positioning blocks, so that the processing precision of the polarizer 200 is improved.

S30: and (4) pressing, wherein the pressing arm 42 abuts against the middle part of the polarizer 200, and then the two positioning blocks move towards the side far away from the polarizer 200.

S40: and processing, wherein the barrel milling cutter 22 is attached to the side edge of the polarizer 200 and is used for milling the polarizer 200, and meanwhile, the processing platform 31 rotates relative to the barrel milling cutter 22 to realize milling of the outer side surface of the polarizer 200. Specifically, after the pressing arm 42 abuts against the middle of the polarizer 200, the barrel milling cutter 22 performs milling processing on the outer side surface of the polarizer 200, and the processing platform 31 rotates relative to the barrel milling cutter 22 during the processing process, so that all the side edges of the polarizer 200 are cut by the barrel milling cutter 22.

The processing technology of the polaroid adopts the processing platform to rotate relative to the barrel milling cutter 22, so that the barrel milling cutter 22 can grind and process the periphery of the polaroid 200 at one time, and the omitted reversing action of the pressure arm 42 greatly improves the processing efficiency and the processing precision of the polaroid 200.

It should be noted that, the pressing arm 42 and the third driving component 41 may be connected and fixed by a rotating shaft or a driving motor, that is, after the pressing arm 42 abuts against the surface of the polarizer 200, when the processing platform 31 rotates, the pressing arm 42 may also rotate with the processing platform 31 at the same rotating speed, so as to avoid the influence of the speed difference between the two on the processing of the polarizer 200.

In an embodiment of the present invention, in the feeding step, after the polarizer 200 to be processed is placed on the processing platform 31, a protective layer is placed on the surface of the polarizer 200, specifically, the profile of the protective layer is the same as the profile of the polarizer 200, the protective layer may be made of elastic silica gel or rubber material, the protective layer is placed on the surface of the polarizer 200, and when the pressing arm 42 abuts against the surface of the protective layer, the acting force of the pressing arm 42 is applied to the polarizer 200 through the protective layer, so as to press and fix the polarizer 200 on the surface of the processing platform 31. Therefore, the polarizer 200 is stable on the processing platform 31, and the protection layer can prevent the polarizer 200 from being cracked, thereby improving the yield of processing the polarizer 200.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A polarizer processing apparatus, comprising:

a frame;

the milling assembly comprises a first driving piece and a barrel milling cutter, the first driving piece is arranged on the rack, and the barrel milling cutter is in transmission connection with the first driving piece;

the bearing assembly comprises a second driving piece and a machining platform, the second driving piece is arranged on the rack, the machining platform is connected to the second driving piece in a transmission mode and located below the barrel milling cutter, and the second driving piece drives the barrel milling cutter to rotate relative to the rack;

the pressing assembly comprises a third driving piece and a pressing arm, the third driving piece is installed on the rack, the pressing arm is connected to the third driving piece in a transmission mode, the third driving piece drives the pressing arm to move to and fro relative to the machining platform and abuts against the middle of the polaroid to press the polaroid on the machining platform.

2. The polarizer processing apparatus of claim 1, wherein the second driving member comprises a second driving motor and a mounting base, the second driving motor is mounted to the frame, the mounting base is drivingly connected to an output shaft of the second driving motor, and the processing platform is detachably connected to the mounting base.

3. The polarizer processing apparatus of claim 2, wherein the bearing assembly further comprises a plurality of fixing screws, the mounting base defines a plurality of screw holes, the processing platform defines a plurality of connecting holes penetrating through two opposite surfaces of the processing platform, and one of the fixing screws penetrates through one of the connecting holes and one of the screw holes to fixedly connect the processing platform and the mounting base.

4. The polarizer processing apparatus of claim 1, wherein the first driving member comprises a first driving motor, a transmission shaft, and a transmission belt, the first driving motor is mounted to the frame, the transmission shaft is rotatably connected to the frame, the transmission belt connects an output shaft of the first driving motor and the transmission shaft, and the barrel cutter is connected to the transmission shaft.

5. The polarizer processing apparatus of any of claims 1 to 4, further comprising a positioning assembly disposed on the frame for positioning the polarizer on the processing platform.

6. The polarizer processing apparatus of claim 5, wherein the positioning assembly comprises a fourth driving member and at least one positioning block, the fourth driving member is mounted on the frame, the positioning block is in transmission connection with the fourth driving member, and the fourth driving member drives the positioning block to abut against the edge of the polarizer.

7. The polarizer processing apparatus of claim 6, wherein the fourth driving member comprises two driving cylinders and two positioning blocks, the two driving cylinders are disposed on the frame, one of the driving cylinders is connected to a telescopic rod of the driving cylinder, and the two driving cylinders drive the two positioning blocks to abut against two adjacent edges of the polarizer.

8. A polarizer processing process based on the polarizer processing equipment of claim 7, wherein the polarizer processing process comprises the following steps:

loading, namely placing a polaroid to be processed on a processing platform;

positioning, wherein two positioning blocks are abutted against two adjacent side edges of the polaroid;

pressing, wherein a pressing arm is abutted to the middle of the polaroid, and then the two positioning blocks move towards one side far away from the polaroid;

and processing, namely fitting a barrel milling cutter to the side edge of the polaroid and performing milling processing on the polaroid, and rotating the processing platform relative to the barrel milling cutter to realize milling processing on the outer side surface of the polaroid.

9. The polarizer processing process according to claim 8, wherein in the feeding step, after the polarizer to be processed is placed on the processing platform, a protective layer is placed on the surface of the polarizer, so that the pressing arm abuts against the surface of the protective layer, and the polarizer is pressed and fixed on the surface of the processing platform.

10. The polarizer processing process according to claim 9, wherein the protective layer has the same profile as the polarizer.

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