CN220098030U - Deviation rectifying and positioning device for optical film production - Google Patents

Abstract

The utility model belongs to the technical field of deviation correcting and positioning, and particularly relates to a deviation correcting and positioning device for optical film production, which comprises a dividing and cutting machine main body, wherein two first brackets are fixedly arranged on the left wall of the dividing and cutting machine main body in a front-back symmetrical structure, an unreeling device is arranged on the left side of the dividing and cutting machine main body, the front end and the rear end of the unreeling device are rotationally connected with the first brackets, two second brackets are fixedly arranged on the right wall of the dividing and cutting machine main body in a front-back symmetrical structure, a winding device is arranged on the right side of the dividing and cutting machine main body, the front end and the rear end of the winding device are rotationally connected with the second brackets, an optical film main body is arranged above the dividing and cutting machine main body, two groups of guide rods are in friction contact with the optical film main body in a left-right symmetrical structure, the right end of the dividing and cutting machine main body is provided with a sliding groove on the top surface of the dividing and cutting machine main body. The optical film correction and positioning device has the advantages that correction and positioning are carried out on the optical film in the conveying process, waste of cut materials is reduced, production resources of the optical film are saved, correction is convenient, rapid, time-saving and labor-saving, and production and use of the optical film are facilitated.

Description

Deviation rectifying and positioning device for optical film production

Technical Field

The utility model relates to the technical field of deviation rectifying and positioning, in particular to a deviation rectifying and positioning device for optical film production.

Background

The optical film is made of thin layered medium, and propagates the optical medium material of the kind of light beam through the interface, the optical film device includes reflecting film, antireflection film, polarizing film, interference filter, spectroscope, etc.;

in the prior art, the optical film is required to be cut to a proper size in the production process, the optical film is conveyed by a plurality of conveying rollers during cutting, the position of the optical film is easy to deviate in the conveying process, the deviation of the cutting size of the optical film after deviation is large, the material waste is caused by unqualified cutting size, and the production and the use of the optical film are not facilitated.

Disclosure of Invention

Based on the technical problems that in the production process of the existing optical film, the optical film needs to be cut to a proper size, the optical film is conveyed through more conveying rollers when being cut, the position of the optical film is easy to deviate in the conveying process, and the deviation of the cut size of the optical film after deviation is larger, so that the material waste is caused by the unqualified cut size, and the production and the use of the optical film are not facilitated, the utility model provides a deviation correcting and positioning device for the optical film production.

The utility model provides an optical film production is with positioner that rectifies, includes the cutting machine main part, the cutting machine main part left wall is front and back symmetric structure and has set firmly two first supports, cutting machine main part left side is equipped with unreels the device, both ends all rotate with first support around unreeling the device and be connected, cutting machine main part right wall is front and back symmetric structure and has set firmly two second supports, cutting machine main part right side is equipped with the coiling mechanism, both ends all rotate with the second support and be connected around the coiling mechanism, cutting machine main part top is equipped with the optical film body, be bilateral symmetry structure frictional contact on the optical film body and have two sets of guide bars, cutting machine main part right-hand member is equipped with cutting device, the spout has been seted up to cutting machine main part top surface, the inside symmetrical structure sliding connection has two sliders around being of spout, the slider top surface has set firmly the push block that rectifies, the symmetrical structure sliding connection has two sensors around being on the slide rail about being on the cutting machine main part top.

Preferably, the guide rod is provided with two upper and lower symmetrical structures, the front end and the rear end of the guide rod at the left end are rotationally connected with the first bracket, the front end and the rear end of the guide rod at the right end are rotationally connected with the second bracket, and the outer wall of the guide rod is in frictional contact with the outer wall of the optical film body.

Through the technical scheme, the guide rod facilitates movement of the optical film body, and improves conveying stability.

Preferably, the push block of rectifying is C shape, the push block inner wall of rectifying is the structure of evenly arranging and inlays and is equipped with a plurality of balls, the cylinder is all installed through the mount pad to wall around the cutting machine main part, the piston rod inner wall and the slider outer wall connection of cylinder are fixed, the push block of rectifying and optical film body clearance fit.

Through the technical scheme, the correction pushing block is convenient for correcting and positioning the optical film body which is deviated.

Preferably, the inner end of the correction sensor is in clearance fit with the front end and the rear end of the optical film body, the top surface of the correction sensor at the left end is fixedly connected with the top surface of the correction sensor at the right end through a connecting rod, and a fixing block is fixedly arranged on the left wall of the correction sensor at the left end.

Through the technical scheme, the connecting rod enables the deviation correcting sensors at the left end and the right end to synchronously move.

Preferably, the left end of the main body of the splitting machine is provided with two supporting blocks in a front-back symmetrical structure, a bidirectional screw rod is sleeved between the two supporting blocks, and the bidirectional screw rod is rotationally connected with the supporting blocks.

Preferably, the fixed blocks are in threaded connection with the bidirectional screw rod through threaded holes, a motor is installed on the front wall of each fixed block at the front end through an installation seat, and an output shaft of the motor is coaxially connected with the bidirectional screw rod.

Preferably, the deviation correcting sensor is a photoelectric deviation correcting device, and the connecting rod is in clearance fit with the deviation correcting pushing block.

Through above-mentioned technical scheme, through two-way lead screw rotation, conveniently drive the sensor of rectifying and reciprocate, made things convenient for the skew of optical film body to monitor.

Compared with the prior art, the utility model has the advantages that:

1. the optical film body is unreeled through the unreeling device, the optical film body moves from left to right and passes between the two groups of guide rods, the optical film body is rolled up on the rolling device, the optical film body is driven to be conveyed through the unreeling device and the rolling device, meanwhile, the optical film body is cut through the slitting device, when the optical film body is detected to deviate through the deviation correcting sensor in the moving process, the sliding block is pushed by the air cylinder to slide along the sliding groove, the deviation correcting push block corrects the deviated optical film body, the slitting effect of the optical film body is improved, waste of the optical film body in slitting is reduced, the outer wall of the optical film body is in friction contact with balls at the inner end of the deviation correcting push block during deviation correcting, the damage of the deviation correcting push block to the optical film body is reduced through the balls, the friction force of the deviation correcting push block and the optical film body is reduced, and the integrity of the optical film body is protected. The optical film correction and positioning device has the advantages that correction and positioning are carried out on the optical film in the conveying process, waste of cut materials is reduced, production resources of the optical film are saved, correction is convenient, rapid, time-saving and labor-saving, and production and use of the optical film are facilitated.

2. The output shaft of the motor drives the bidirectional screw rod to rotate along the supporting block, the bidirectional screw rod drives the fixed block to move back and forth, the deviation correcting sensor is pushed to slide along the sliding rail, the deviation correcting sensors at the left end and the right end are synchronously moved through the connecting rod, the deviation correcting sensor is conveniently moved to a proper monitoring position, and the deviation of the optical film body is conveniently monitored.

3. The optical film body is pushed to move through the correction push block, correction adjustment is facilitated, the use of balls is matched, damage of the correction push block to the optical film body is reduced, and the integrity of the optical film body is protected.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a cross-sectional view of a first bracket structure of the present utility model;

FIG. 3 is a cross-sectional view of a chute structure according to the present utility model;

FIG. 4 is a cross-sectional view of a deviation correcting push block according to the present utility model;

fig. 5 is a schematic structural diagram of the deviation correcting sensor according to the present utility model.

In the figure: 1. a slitter body; 2. a first bracket; 3. an unreeling device; 4. a second bracket; 5. a winding device; 6. an optical film body; 7. a guide rod; 8. a slitting device; 9. a correction pushing block; 91. a ball; 92. a cylinder; 10. a slide rail; 11. a correction sensor; 12. a chute; 13. a slide block; 14. a connecting rod; 15. a fixed block; 16. a support block; 17. a two-way screw rod; 18. and a motor.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Example 1

Referring to fig. 1, fig. 2, fig. 3 and fig. 4, a deviation rectifying and positioning device for optical film production, including splitting machine main body 1, splitting machine main body 1 left wall is around symmetrical structure and has set firmly two first supports 2, splitting machine main body 1 left side is equipped with unwinding device 3, both ends all rotate with first support 2 around unwinding device 3 are connected, splitting machine main body 1 right wall is around symmetrical structure and has set firmly two second supports 4, splitting machine main body 1 right side is equipped with coiling mechanism 5, both ends all rotate with second support 4 around coiling mechanism 5 and are connected, splitting machine main body 1 top is equipped with optical film body 6, be bilateral symmetry structure frictional contact on optical film body 6 and have two sets of guide bars 7, splitting machine main body 1 right-hand member is equipped with splitting device 8, splitting machine main body 1 top surface has seted up spout 12, spout 12 inside is around symmetrical structure sliding connection has two sliders 13, the top surface of slider 13 has set firmly rectifying push block 9, splitting machine main body 1 top is personally submitted bilateral symmetry structure and has set firmly two slide rails 10, be in front and back symmetrical structure sliding connection has two sensors 11.

The two guide rods 7 are in an up-down symmetrical structure, the front end and the rear end of the guide rod 7 at the left end are rotationally connected with the first bracket 2, the front end and the rear end of the guide rod 7 at the right end are rotationally connected with the second bracket 4, and the outer wall of the guide rod 7 is in friction contact with the outer wall of the optical film body 6; the guide rod 7 facilitates the movement of the optical film body 6 and improves the conveying stability.

The deviation correcting push block 9 is C-shaped, the inner wall of the deviation correcting push block 9 is uniformly arranged and embedded with a plurality of balls 91, the front wall and the rear wall of the dividing and cutting machine main body 1 are respectively provided with an air cylinder 92 through a mounting seat, the inner wall of a piston rod of the air cylinder 92 is fixedly connected with the outer wall of the sliding block 13, and the deviation correcting push block 9 is in clearance fit with the optical film main body 6; the deviation rectifying push block 9 is convenient for rectifying and positioning the optical film body 6 which is deviated.

The working principle of the utility model is as follows: firstly, the outside rolled optical film body 6 is sleeved on the unreeling device 3, the unreeling device 3 is used for unreeling the optical film body 6, the optical film body 6 moves from left to right and passes between two groups of guide rods 7 to be rolled on the reeling device 5, the unreeling device 3 and the reeling device 5 drive the optical film body 6 to be conveyed, meanwhile, the slitting device 8 is used for slitting, when the optical film body 6 is detected to deviate through the deviation correcting sensor 11 in the moving process, the air cylinder 92 is used for pushing the sliding block 13 to slide along the sliding groove 12, the deviation correcting push block 9 is used for correcting and positioning the deviated optical film body 6, the slitting effect of the optical film body 6 is improved, the waste of the optical film body 6 in slitting is reduced, the outer wall of the optical film body 6 is in friction contact with the balls 91 at the inner ends of the deviation correcting push block 9 during the deviation correcting, the damage of the optical film body 6 to the deviation correcting push block 9 is reduced through the balls 91, the friction between the deviation correcting push block 9 and the optical film body 6 is reduced, and the integrity of the optical film body 6 is protected.

Example two

Referring to fig. 3 and 5, on the basis of the first embodiment, the inner end of the deviation correcting sensor 11 is matched with the front end and the rear end of the optical film body 6, the top surface of the deviation correcting sensor 11 positioned at the left end is fixedly connected with the top surface of the deviation correcting sensor 11 positioned at the right end through a connecting rod 14, and a fixing block 15 is fixedly arranged on the left wall of the deviation correcting sensor 11 positioned at the left end; the connecting rod 14 moves the correction sensors 11 at the left and right ends in synchronization.

The left end of the dividing and cutting machine main body 1 is provided with two supporting blocks 16 in a front-back symmetrical structure, a bidirectional screw rod 17 is sleeved between the two supporting blocks 16, the bidirectional screw rod 17 is rotationally connected with the supporting blocks 16, the fixed blocks 15 are all in threaded connection with the bidirectional screw rod 17 through threaded holes, the front wall of the fixed block 15 positioned at the front end is provided with a motor 18 through a mounting seat, an output shaft of the motor 18 is coaxially connected with the bidirectional screw rod 17, a deviation correcting sensor 11 is a photoelectric deviation corrector, and a connecting rod 14 is in clearance fit with a deviation correcting push block 9; the bidirectional screw rod 17 rotates, so that the deviation correcting sensor 11 is conveniently driven to move forwards and backwards, and the deviation of the optical film body 6 is conveniently monitored.

During the use, the sensor 11 rectifies, drive two-way lead screw 17 along supporting shoe 16 rotation through the output shaft of motor 18, two-way lead screw 17 drives fixed block 15 back-and-forth movement, promotes to rectify the sensor 11 and slides along slide rail 10, makes the sensor 11 synchronization that rectifies of both ends remove about through connecting rod 14, conveniently removes the sensor 11 that rectifies to suitable monitoring position, conveniently monitors the skew of optical film body 6.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (7)

1. The utility model provides an optical film production is with positioner that rectifies, includes cutting machine main part (1), its characterized in that: the utility model provides a sliding rail type automatic correction device for the sliding rail type automatic correction device, which comprises a slitting machine main body (1), wherein two first supports (2) are fixedly arranged on the left wall of the slitting machine main body (1) in a front-back symmetrical structure, unwinding devices (3) are arranged on the left side of the slitting machine main body (1), two ends of the unwinding devices (3) are rotationally connected with the first supports (2), two second supports (4) are fixedly arranged on the right wall of the slitting machine main body (1) in a front-back symmetrical structure, a winding device (5) is arranged on the right side of the slitting machine main body (1), two ends of the winding device (5) are rotationally connected with the second supports (4), two groups of guide rods (7) are arranged on the optical film main body (6) in a friction contact mode in a left-right symmetrical structure, a slitting device (8) is arranged on the right end of the slitting machine main body (1), a sliding groove (12) is formed in the top surface of the slitting machine main body (1), two sliding blocks (13) are fixedly connected with the sliding structures in a front-back symmetrical structure in a sliding mode, the sliding blocks (13) are fixedly arranged on the top surface of the sliding blocks (1), and two sliding rails (10) are fixedly connected with the sliding rails (10).

2. The deviation correcting and positioning device for optical film production according to claim 1, wherein: the utility model discloses a solar cell module, including optical film body (6), guide bar (7), first support (2), second support (4), guide bar (7) are about symmetrical structure is equipped with two, is located the left end both ends all around guide bar (7) are connected with first support (2) rotation, are located the right-hand member both ends all are connected with second support (4) rotation around guide bar (7), guide bar (7) outer wall all with optical film body (6) outer wall friction contact.

3. The deviation correcting and positioning device for optical film production according to claim 1, wherein: the utility model discloses a cutting machine, including cutting machine main part (1), piston rod inner wall, slider (13) outer wall connection, rectifying push block (9) and optical film body (6) clearance fit, rectifying push block (9) are C shape, rectifying push block (9) inner wall is the even arrangement structure and inlays and be equipped with a plurality of balls (91), cylinder (92) are all installed through the mount pad to wall around cutting machine main part (1), piston rod inner wall and slider (13) outer wall connection of cylinder (92) are fixed.

4. The deviation correcting and positioning device for optical film production according to claim 1, wherein: the inner end of the deviation correcting sensor (11) is matched with the front end and the rear end of the optical film body (6), the top surface of the deviation correcting sensor (11) at the left end is fixedly connected with the top surface of the deviation correcting sensor (11) at the right end through a connecting rod (14), and a fixing block (15) is fixedly arranged on the left wall of the deviation correcting sensor (11) at the left end.

5. The deviation correcting and positioning device for optical film production according to claim 4, wherein: two supporting blocks (16) are fixedly arranged at the left end of the dividing and cutting machine main body (1) in a front-back symmetrical structure, a bidirectional screw rod (17) is sleeved between the two supporting blocks (16), and the bidirectional screw rod (17) is rotationally connected with the supporting blocks (16).

6. The deviation correcting and positioning device for optical film production according to claim 5, wherein: the fixed block (15) is in threaded connection with the bidirectional screw rod (17) through a threaded hole, a motor (18) is installed on the front wall of the fixed block (15) at the front end through a mounting seat, and an output shaft of the motor (18) is coaxially connected with the bidirectional screw rod (17).

7. The deviation correcting and positioning device for optical film production according to claim 6, wherein: the deviation correcting sensor (11) is a photoelectric deviation correcting device, and the connecting rod (14) is in clearance fit with the deviation correcting pushing block (9).