CN108788156B

CN108788156B - Processing method based on touch control film processing device with self-correcting function

Info

Publication number: CN108788156B
Application number: CN201810722870.8A
Authority: CN
Inventors: 刘泽江; 张军
Original assignee: UC Nano Technologies Inc
Current assignee: Hefei Yuandun Sensor Technology Co ltd
Priority date: 2018-07-04
Filing date: 2018-07-04
Publication date: 2020-05-12
Anticipated expiration: 2038-07-04
Also published as: CN108788156A; CN111633210A; CN111633210B

Abstract

The invention discloses a processing method based on a touch control film processing device with a self-correcting function, which is based on a touch control film processing device with a self-correcting function, and comprises a rack, a working panel, an X-axis driving mechanism, a Y-axis driving mechanism and a Z-axis mechanism, wherein the working panel is horizontally arranged on the rack, the X-axis driving mechanism is arranged on the rack, the Y-axis driving mechanism is movably arranged on the X-axis driving mechanism, the Z-axis mechanism has a testing state and a processing state, when the Z-axis mechanism is in the testing state, a testing head is movably arranged on the Z-axis mechanism, and when the Z-axis mechanism is in the processing state, a printing spray head is movably arranged on the Z-axis mechanism. The invention can simultaneously realize two functions of horizontal correction and processing and ensure that the distance between the printing spray head and the surface of the touch film substrate keeps a constant standard value, thereby overcoming the influence of the concave-convex of the processing panel on the processing process and ensuring the processing precision and quality.

Description

Processing method based on touch control film processing device with self-correcting function

Technical Field

The invention relates to a processing method based on a touch film processing device with a self-correcting function, and belongs to the technical field of touch film processing.

Background

The demand for touch panels of future wearable devices, smart windows, smart homes and other products is developing towards large size, low price and flexibility, however, the traditional ITO film is brittle and not suitable for flexible application, and the essential problems of conductivity, light transmittance and the like on the flexible substrate are not easily overcome. Silver nanowire conductive films are attracting more and more attention due to the advantages of flexibility, low cost, low resistance and high light transmittance.

The nanometer touch control film is an induction film mainly used for packaging nanometer wires, integrates multiple functions of accurate induction positioning, flexibility, high transparency and the like, is used for accurate touch control positioning of a touch control screen of more than 10 inches, and is also applied to accurate interactive projection and security positioning. At present, the equipment that can independent complete large-scale production nanometer touch membrane still does not exist in the market, and its production still is in the lab scale stage, and its equipment and instruments are mostly experimental precision equipment, and the price is expensive, and manufacturing cost is high, and secondly, because the limitation of equipment, operating procedure is more complicated, and assembly line production is difficult, extravagant manpower and materials, and the yield is difficult to control.

Disclosure of Invention

The invention aims to provide a processing method based on a touch film processing device with a self-correcting function, which can simultaneously realize two functions of horizontal correction and processing and ensure that the distance between a printing nozzle and the surface of a touch film substrate keeps a constant standard value, thereby overcoming the influence of the concave-convex of a processing panel on the processing process, ensuring the processing precision and quality, and avoiding the conditions of wire breakage and the like.

In order to achieve the purpose, the invention adopts the technical scheme that: a processing method based on a touch control film processing device with a self-correcting function is disclosed, the processing method is based on a touch control film processing device with a self-correcting function, the touch control film processing device with the self-correcting function comprises a rack, a working panel, an X-axis driving mechanism, a Y-axis driving mechanism and a Z-axis mechanism, the working panel is horizontally arranged on the rack, the X-axis driving mechanism is arranged on the rack, the Y-axis driving mechanism is movably arranged on the X-axis driving mechanism, the Z-axis mechanism is movably connected with the Y-axis driving mechanism through a mounting plate, the Z-axis mechanism has a testing state and a processing state, when the Z-axis mechanism is in the testing state, a testing head is movably arranged on the Z-axis mechanism, and when the Z-axis mechanism is in the processing state, a printing nozzle is movably arranged on the Z-axis mechanism;

the processing method based on the touch control film processing device with the self-correcting function comprises the following steps:

resetting a machining device, and placing the machining device in a test mode;

mounting the test head on the Z-axis mechanism, and adjusting the test head to enable the lower surface of the test head to be in contact with the upper surface of the working panel;

driving the Z-axis mechanism to move according to a set track through the X-axis driving mechanism and the Y-axis driving mechanism, and in the moving process, the test head is always kept in contact with the upper surface of the working panel under the action of the Z-axis mechanism and records Z-axis data at different X, Y positions;

step four, calculating the horizontal plane height data of the working panel through the X, Y and Z data recorded in the step three;

switching the processing device to a processing state and installing the printing nozzle on the Z-axis mechanism;

and step six, driving the Z-axis mechanism to move according to a track required by processing through the X-axis driving mechanism and the Y-axis driving mechanism, driving the printing nozzle to move up and down by the Z-axis mechanism according to the horizontal height data of the working panel obtained in the step four in the moving process, and connecting the metal wire in the printing nozzle with the base material arranged on the working panel.

The further improved scheme in the technical scheme is as follows:

1. in the above scheme, the Z-axis mechanism further includes a substrate, a movable plate, a motor, and a mounting base for mounting the test head or the print head, the movable plate is movably mounted on the substrate, the motor is fixedly connected with the substrate, a rotor portion of the motor is fixedly connected with the movable plate, the mounting base is fixedly mounted on the movable plate, and a set of measuring devices is correspondingly mounted on the substrate and the movable plate.

2. In the above scheme, the measuring device is a grating ruler, a reading head of the grating ruler is installed on the side surface of the substrate, the graduated scale of the grating ruler is installed on the movable plate, and the reading head and the graduated scale are arranged in a face-to-face manner.

3. In the above scheme, the motor is a voice coil linear motor.

4. In the above scheme, the substrate is fixedly connected with the mounting plate through a vertical mounting plate, a charging barrel seat is arranged on the vertical mounting plate and above the substrate, and a charging barrel for storing metal wires is arranged on the charging barrel seat.

5. In the above scheme, the printing nozzle is provided with a central through hole, a needle tube is embedded into the central through hole of the printing nozzle and is tightly connected with the printing nozzle, the lower end of the needle tube extends out of the lower surface of the printing nozzle, and the center of the needle tube is provided with a through hole for the metal wire to pass through.

6. In the above scheme, the two sides of the Z-axis mechanism along the Y-axis direction are respectively provided with a first blocking piece, the two ends of the Y-axis driving mechanism are respectively and fixedly provided with at least two first sensors for sensing the first blocking pieces, the Y-axis driving mechanism is provided with a second blocking piece, and the two ends of the X-axis driving mechanism along the X-axis direction are respectively and fixedly provided with at least two second sensors for sensing the second blocking pieces.

7. In the above scheme, the track required for processing in the sixth step is a sine-wave track.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages:

1. the processing method based on the touch control film processing device with the self-correcting function can simultaneously realize two functions of horizontal correction and processing, firstly tests the working panel in a measuring mode and records the surface data of the panel, then switches to the processing state, drives the motor of the Z-axis mechanism to move up and down according to the surface data of the panel obtained in the testing state, and ensures that the distance between the printing nozzle and the surface of the touch control film substrate keeps a constant standard value, thereby overcoming the influence of the concave-convex of the processing panel on the processing process, ensuring the processing precision and quality, and avoiding the conditions of line breakage and the like.

2. The invention relates to a processing method based on a touch control film processing device with a self-correcting function, wherein a printing nozzle of the processing device is provided with a central through hole, a needle tube is embedded into the central through hole of the printing nozzle and is tightly connected with the printing nozzle, the lower end of the needle tube extends out of the lower surface of the printing nozzle, a through hole for a metal wire to pass through is formed in the center of the needle tube, the needle tube is arranged, the metal wire for processing firstly passes through the needle tube and then is gradually printed on a touch control film base material to be processed, and limit is provided for the nanoscale metal wire, so that the metal wire is kept in a vertical state to be contacted with the base material of the touch control film, and the processing precision.

3. The invention is based on the processing method of the touch film processing device with the self-correcting function, two sides of a Z-axis mechanism of the processing device along the Y-axis direction are respectively provided with a first baffle plate, two ends of a Y-axis driving mechanism are respectively and fixedly provided with at least two first sensors for sensing the first baffle plates, a second baffle plate is arranged on the Y-axis driving mechanism, two ends of the X-axis driving mechanism along the X-axis direction are respectively and fixedly provided with at least two second sensors for sensing the second baffle plates, the sensors are arranged for respectively providing initial positions for the Y-axis driving mechanism and the Z-axis mechanism in the X-axis direction and the Y-axis direction, namely providing an initial origin in the XY direction for the Z-axis mechanism, facilitating the resetting and correcting of the equipment, simultaneously playing a limiting role in the movement of the equipment in the X-axis direction and the Y-axis direction, and providing double guarantee by the arrangement of at least 2 sensors, the movable part of the equipment is prevented from being flushed out of the rack due to the fault of one sensor, and the safety of the equipment is ensured.

Drawings

FIG. 1 is a schematic structural diagram of a touch film processing apparatus with a self-calibration function according to the present invention;

FIG. 2 is a schematic structural diagram of a Z-axis mechanism of the touch film processing device in a test state;

FIG. 3 is a schematic view of a local structure of a Z-axis mechanism in a test state of the touch film processing apparatus according to the present invention;

FIG. 4 is a schematic structural view of a Z-axis mechanism of the touch film processing apparatus of the present invention in a processing state;

FIG. 5 is a schematic view of a local structure of a touch film processing apparatus with a self-calibration function according to the present invention;

fig. 6 is a schematic view of a partial structure extension of the touch film processing apparatus according to the present invention.

In the above drawings: 1. a frame; 2. a working panel; 3. an X-axis drive mechanism; 4. a Y-axis drive mechanism; 5. a Z-axis mechanism; 501. a substrate; 502. a movable plate; 503. a motor; 504. a Y mounting seat; 505. a reading head; 506. a graduated scale; 507. a vertical mounting plate; 6. mounting a plate; 7. a test head; 8. printing a spray head; 801. a central through hole; 802. a needle tube; 10. a charging barrel seat; 11. a metal wire; 12. a charging barrel; 13. A first baffle plate; 14. a first sensor; 15. a second baffle plate; 16. a second sensor.

Detailed Description

Example 1: a processing method based on a touch control film processing device with a self-correcting function is based on the touch control film processing device with the self-correcting function, the touch control film processing device with the self-correcting function comprises a machine frame 1, a working panel 2, an X-axis driving mechanism 3, a Y-axis driving mechanism 4 and a Z-axis mechanism 5, the working panel 2 is horizontally arranged on the frame 1, the X-axis driving mechanism 3 is arranged on the frame 1, the Y-axis driving mechanism 4 is movably arranged on the X-axis driving mechanism 3, the Z-axis mechanism 5 is movably connected with the Y-axis driving mechanism 4 through a mounting plate 6, the Z-axis mechanism 5 has a testing state and a processing state, when the Z-axis mechanism 5 is in a testing state, the Z-axis mechanism 5 is movably provided with a testing head 7, when the Z-axis mechanism 5 is in a processing state, the printing nozzle 8 is movably arranged on the Z-axis mechanism 5;

resetting a machining device, and placing the machining device in a test mode;

step two, mounting the test head 7 on the Z-axis mechanism 5, and adjusting the test head 7 to enable the lower surface of the test head 7 to be in contact with the upper surface of the working panel 2;

driving the Z-axis mechanism 5 to move according to a set track through the X-axis driving mechanism 3 and the Y-axis driving mechanism 4, wherein in the moving process, the test head 7 is always kept in contact with the upper surface of the working panel 2 under the action of the Z-axis mechanism 5 and records Z-axis data at different X, Y positions;

step four, calculating the height data of the horizontal plane of the working panel 2 according to the X, Y and Z data recorded in the step three;

switching the processing device to a processing state and installing the printing nozzle 8 on the Z-axis mechanism 5;

and step six, driving the Z-axis mechanism 5 to move according to a track required by processing through the X-axis driving mechanism 3 and the Y-axis driving mechanism 4, driving the printing spray head 8 to move up and down by the Z-axis mechanism 5 according to the horizontal height data of the working panel 2 obtained in the step four in the moving process, and connecting the metal wire in the printing spray head 8 with the base material arranged on the working panel 2.

The Z-axis mechanism 5 further includes a substrate 501, a movable plate 502, a motor 503, and a mounting base 504 for mounting the test head 7 or the print head 8, wherein the movable plate 502 is movably mounted on the substrate 501, the motor 503 is fixedly connected to the substrate 501, a mover of the motor 503 is fixedly connected to the movable plate 502, the mounting base 504 is fixedly mounted to the movable plate 502, and a set of measuring devices is correspondingly mounted on the substrate 501 and the movable plate 502; the measuring device is a grating scale, a reading head 505 of the grating scale is installed on the side surface of the substrate 501, a scale 506 of the grating scale is installed on the movable plate 502, and the reading head 505 and the scale 506 are arranged in a face-to-face manner; the motor 503 is a voice coil linear motor; the base plate 501 is fixedly connected with the mounting plate 6 through a vertical mounting plate 507, a material cylinder base 10 is arranged on the vertical mounting plate 507 and above the base plate 501, and a material cylinder 12 for storing metal wires 11 is arranged on the material cylinder base 10; and the track required by the processing in the sixth step is a sine-wave-shaped track.

Example 2: a processing method based on a touch control film processing device with a self-correcting function is based on the touch control film processing device with the self-correcting function, the touch control film processing device with the self-correcting function comprises a machine frame 1, a working panel 2, an X-axis driving mechanism 3, a Y-axis driving mechanism 4 and a Z-axis mechanism 5, the working panel 2 is horizontally arranged on the frame 1, the X-axis driving mechanism 3 is arranged on the frame 1, the Y-axis driving mechanism 4 is movably arranged on the X-axis driving mechanism 3, the Z-axis mechanism 5 is movably connected with the Y-axis driving mechanism 4 through a mounting plate 6, the Z-axis mechanism 5 has a testing state and a processing state, when the Z-axis mechanism 5 is in a testing state, the Z-axis mechanism 5 is movably provided with a testing head 7, when the Z-axis mechanism 5 is in a processing state, the printing nozzle 8 is movably arranged on the Z-axis mechanism 5;

resetting a machining device, and placing the machining device in a test mode;

The motor 503 is a voice coil linear motor; the base plate 501 is fixedly connected with the mounting plate 6 through a vertical mounting plate 507, a material cylinder base 10 is arranged on the vertical mounting plate 507 and above the base plate 501, and a material cylinder 12 for storing metal wires 11 is arranged on the material cylinder base 10; the printing nozzle 8 has a central through hole 801. a needle tube 802 is embedded in the central through hole 801 of the printing nozzle 8 and is tightly connected with the printing nozzle 8, the lower end of the needle tube 802 extends out of the lower surface of the printing nozzle 8, and the center of the needle tube 802 is provided with a through hole for the metal wire 11 to pass through; two sides of the Z-axis mechanism 5 along the Y-axis direction are respectively provided with a first blocking piece 13, two ends of the Y-axis driving mechanism 4 are respectively and fixedly provided with at least two first sensors 14 for sensing the first blocking pieces 13, the Y-axis driving mechanism 4 is provided with a second blocking piece 15, and two ends of the X-axis driving mechanism 3 along the X-axis direction are respectively and fixedly provided with at least two second sensors 16 for sensing the second blocking pieces 15; and the track required by the processing in the sixth step is a sine-wave-shaped track.

By adopting the processing method based on the touch control film processing device with the self-correcting function, two functions of horizontal correction and processing can be simultaneously realized, the working panel is tested in a measuring mode and the surface data of the panel is recorded, then the panel is switched to a processing state, and according to the surface data of the panel obtained in the testing state, the motor of the Z-axis mechanism is driven to move up and down, so that the distance between the printing nozzle and the surface of the touch control film substrate is kept at a constant standard value, the influence of the concave-convex of the processing panel on the processing process is overcome, the processing precision and quality are ensured, and the situations of line breakage and the like are avoided; secondly, the needle tubes are arranged, so that metal wires for processing penetrate through the needle tubes and then are printed on a touch control film substrate to be processed step by step, limit is provided for the nano-scale metal wires, the metal wires are enabled to be in contact with the substrate of the touch control film in a vertical state, and the processing precision and quality of the touch control film are guaranteed; thirdly, the setting of its sensor provides initial position for Y axle actuating mechanism and Z axle mechanism respectively in X axle and Y axle direction, provides the initial origin in the XY side for Z axle mechanism promptly, conveniently to the restoration and the correction of equipment, plays limiting displacement to the motion of equipment in X axle and the Y axle direction simultaneously, the setting of 2 at least sensors, then provides dual guarantee, prevents to dash out the frame because of a sensor trouble leads to the movable part of equipment, guarantees the security of equipment.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. A processing method based on a touch control film processing device with a self-correcting function is characterized in that: the processing method is based on a touch control film processing device with a self-correcting function, the touch control film processing device with the self-correcting function comprises a rack (1), a working panel (2), an X-axis driving mechanism (3), a Y-axis driving mechanism (4) and a Z-axis mechanism (5), wherein the working panel (2) is horizontally arranged on the rack (1), the X-axis driving mechanism (3) is arranged on the rack (1), the Y-axis driving mechanism (4) is movably arranged on the X-axis driving mechanism (3), the Z-axis mechanism (5) is movably connected with the Y-axis driving mechanism (4) through a mounting plate (6), the Z-axis mechanism (5) has a testing state and a processing state, when the Z-axis mechanism (5) is in the testing state, a testing head (7) is movably arranged on the Z-axis mechanism (5), and when the Z-axis mechanism (5) is in the processing state, the Z-axis mechanism (5) is movably provided with a printing nozzle (8);

resetting a machining device, and placing the machining device in a test mode;

step two, mounting the test head (7) on the Z-axis mechanism (5), and adjusting the test head (7) to enable the lower surface of the test head (7) to be in contact with the upper surface of the working panel (2);

driving the Z-axis mechanism (5) to move according to a set track through the X-axis driving mechanism (3) and the Y-axis driving mechanism (4), and in the moving process, keeping the test head (7) in contact with the upper surface of the working panel (2) all the time under the action of the Z-axis mechanism (5) and recording Z-axis data at different X, Y positions;

step four, calculating the horizontal height data of the working panel (2) according to the X, Y and Z data recorded in the step three;

switching the processing device to a processing state and installing the printing nozzle (8) on the Z-axis mechanism (5);

and sixthly, driving the Z-axis mechanism (5) to move according to a track required by processing through the X-axis driving mechanism (3) and the Y-axis driving mechanism (4), wherein in the moving process, the Z-axis mechanism (5) drives the printing nozzle (8) to move up and down according to the horizontal height data of the working panel (2) obtained in the fourth step, and the metal wire in the printing nozzle (8) is connected with the base material arranged on the working panel (2).

2. The processing method based on the touch film processing device with the self-correcting function according to claim 1, wherein: z axle mechanism (5) further includes base plate (501), fly leaf (502), motor (503) and is used for installing test head (7) or printing mount pad (504) of shower nozzle (8), fly leaf (502) mobilizable the installation on base plate (501), motor (503) and base plate (501) fixed connection, the sub-portion of moving of motor (503) and fly leaf (502) fixed connection, mount pad (504) and fly leaf (502) installation are fixed, correspond on base plate (501) and fly leaf (502) and install a set of measuring device.

3. The processing method based on the touch film processing device with the self-correcting function according to claim 2, characterized in that: the measuring device is a grating scale, a reading head (505) of the grating scale is arranged on the side surface of the substrate (501), a graduated scale (506) of the grating scale is arranged on the movable plate (502), and the reading head (505) and the graduated scale (506) are arranged in a face-to-face mode.

4. The processing method based on the touch film processing device with the self-correcting function according to claim 2, characterized in that: the motor (503) is a voice coil linear motor.

5. The processing method based on the touch film processing device with the self-correcting function according to claim 2, characterized in that: the base plate (501) through a vertical mounting panel (507) with mounting panel (6) fixed connection, just be located base plate (501) top on vertical mounting panel (507) and be provided with a feed cylinder seat (10), install a feed cylinder (12) that are used for storing metal wire (11) on this feed cylinder seat (10).

6. The processing method based on the touch film processing device with the self-correcting function according to claim 1, wherein: the printing spray head (8) is provided with a central through hole (801), a needle tube (802) is embedded into the central through hole (801) of the printing spray head (8) and is tightly connected with the printing spray head (8), the lower end of the needle tube (802) extends out of the lower surface of the printing spray head (8), and the center of the needle tube (802) is provided with a through hole for the metal wire (11) to pass through.

7. The processing method based on the touch film processing device with the self-correcting function according to claim 1, wherein: z axle mechanism (5) are provided with a first separation blade (13) respectively along the both sides of Y axle direction, the both ends of Y axle actuating mechanism (4) are fixed respectively and are provided with first sensor (14) of two at least confession response first separation blades (13), be provided with a second separation blade (15) on Y axle actuating mechanism (4), X axle actuating mechanism (3) are fixed respectively along the both ends of X direction and are provided with two at least second sensors (16) that supply response second separation blade (15).

8. The processing method of claim 1, wherein the processing method comprises: and the track required by the processing in the sixth step is a sine-wave-shaped track.