Processing method based on the multi-functional processing unit (plant) for touch control film
Technical field
The present invention relates to a kind of processing methods based on the multi-functional processing unit (plant) for touch control film, belong to touch control film processing
Technical field.
Background technique
The products such as following wearable device, intelligent window, the smart home, demand to touch panel towards large scale,
Low priceization, flexible direction are developed, however traditional ito thin film is more crisp, should not be used in flexible application, on flexible parent metal
The essential problems such as electric conductivity and light transmittance are also not easily overcome.Silver nanowires conductive film because its flexibility, low cost, low resistance,
The high advantage of light transmittance has attracted more and more attention from people.
Nanometer touch film is the sensor film based on a kind of encapsulation nm-class conducting wire, collects precisely induction positioning, flexible, high transparency
Etc. multiple functions in one, for the accurate touch-control positioning of 10 inches or more touch screens, be also applied to accurate interaction and peace
Anti- positioning.Currently, there is not yet the equipment for capableing of independent completion Produce on a large scale nanometer touch film in the market, production also in
Bench scale stage, apparatus are mostly experimental precision equipment, expensive, high production cost, secondly as equipment
Limitation, operational sequence is more complicated, and flow line production is not easy, wasting manpower and material resources, and yield rate is not easy to control.
Summary of the invention
The object of the present invention is to provide a kind of processing methods based on the multi-functional processing unit (plant) for touch control film, this is based on
The processing method of multi-functional processing unit (plant) for touch control film can provide limit for nanoscale metal wire, so that metal wire is kept
Vertical state is contacted with the substrate of touch control film, is guaranteed the precision and quality processed to touch control film, and provide double shield, is prevented
Because a sensor fault causes the movable part of equipment to go out rack, guarantee the safety of equipment.
In order to achieve the above objectives, the technical solution adopted by the present invention is that:A kind of multi-functional processing based on for touch control film
The processing method of device, the multi-functional processing unit (plant) that the processing method is used for touch control film based on one, this is more for touch control film
Function processing unit (plant) includes rack, working panel, X-axis driving mechanism, Y-axis driving mechanism and Z-axis mechanism, the working panel water
Loaded in rack, the X-axis driving mechanism is installed in rack safety, and the Y-axis driving mechanism is movably installed on X-axis drive
On motivation structure, the Z-axis mechanism is flexibly connected by a mounting plate with Y-axis driving mechanism, this Z-axis mechanism with test mode with
Machining state is movably installed with measuring head on this Z-axis mechanism, when the Z axis machine when the Z-axis mechanism is in test mode
When structure is in machining state, printing head is movably installed on this Z-axis mechanism;
The printing head is the cylinder with center through hole, this cylindrical spray head lower end is taper, needle tubing insertion printing
It is closely connect in the center through hole of spray head and with printing head, printing head lower surface, this needle tubing are stretched out in the lower end of the needle tubing
Center is provided with the through-hole passed through for metal wire;
The Z-axis mechanism further comprises substrate, movable plate, motor and the mounting base for installing measuring head or printing head,
The movable plate is mobilizable to be installed on substrate, and the motor is fixedly connected with substrate, the mover portion of the motor and activity
Plate is fixedly connected, and the mounting base and movable plate installation are fixed, and correspondence is equipped with one group of grating scale on the substrate and movable plate,
The reading head of this grating scale is installed on substrate side surface, and the graduated scale of the grating scale is installed on movable plate, the reading head
It is arranged face-to-face with graduated scale;
The X-axis driving mechanism further comprises the first transmission wheel, the first support wheel, the second transmission wheel, the second support wheel and X-axis
Motor is connected with an X-axis driving wheel on the output shaft of the X-axis motor, this X-axis driving wheel passes through belt and an X-axis driven wheel
Transmission connection, the X-axis driven wheel one end connect with the first transmission wheel, the other end of this X-axis driven wheel pass through a synchronizing shaft and
The connection of second transmission wheel, first transmission wheel and the first support wheel are sequentially connected by the first conveyer belt, second transmission
Wheel, the second support wheel are sequentially connected by the second conveyer belt;
It is fixedly installed with an X-axis movable block, institute respectively on first conveyer belt and the respective upper layer conveyer belt of the second conveyer belt
It states Y-axis driving mechanism to be across above the first conveyer belt and the second conveyer belt, and the both ends of Y-axis driving mechanism are passed with first respectively
Band, the X-axis movable block on the second conveyer belt is sent to be fixedly connected, X-axis movable block upper surface is evenly arranged with and the first transmission
Band, the second conveyer belt the corresponding tooth socket of rack gear, first conveyer belt, the second conveyer belt rack gear be respectively embedded into X-axis activity
In the tooth socket of block, and it is locked by several tablettings and X-axis movable block;
First transmission wheel and the second transmission wheel pass through front-wheel seat installation respectively and fix, first support wheel and second
Support wheel is fixed by rear wheel seat installation respectively, and the opposite two sides of the rear wheel seat has a strip-shaped hole, and a shaft passes through the
One support wheel or the second support wheel center, and the both ends of shaft are respectively embedded into the strip-shaped hole of rear wheel seat, the both ends of the shaft
It is respectively provided with a mounting hole, a screw is embedded in rear wheel seat from the direction perpendicular to shaft respectively and is spirally connected with the mounting hole of shaft;
The two sides of the Z-axis mechanism along the y axis are respectively arranged with a first flap, the both ends difference of the Y-axis driving mechanism
At least two are fixedly installed for incuding the first sensor of first flap, is provided with a second gear in the Y-axis driving mechanism
Piece, the both ends of the X-axis driving mechanism in X direction are fixedly installed at least two respectively and sense for incuding the second of second flap
Device;
It is described to be included the following steps based on the processing method based on the multi-functional processing unit (plant) for touch control film:
Step 1: resetting processing unit (plant), processing unit (plant) is placed in test pattern;
Step 2: measuring head is installed on Z-axis mechanism, adjusts measuring head and make measuring head lower surface and working panel upper surface
Contact;
Step 3: drive Z-axis mechanism to move according to the track of setting by X-axis driving mechanism, Y-axis driving mechanism, motion process
In, measuring head remains under the action of Z-axis mechanism contacts with working panel upper surface and records different X, at Y location
Z axis data;
Step 4: Y, Z data calculates the elevation of water data of working panel by the X recorded in step 3;
Step 5: switching processing unit (plant) is installed on Z-axis mechanism to machining state and by printing head;
Step 6: driving Z-axis mechanism according to track movement, fortune required for processing by X-axis driving mechanism, Y-axis driving mechanism
During dynamic, Z-axis mechanism drives printing head or more according to the elevation of water data of the working panel obtained in step 4
Movement, the wire in printing head is connect with the substrate being set on working panel.
Further improved scheme is as follows in above-mentioned technical proposal:
1. in above scheme, the Y-axis driving mechanism further comprise bottom plate, y-axis motor, Y-axis driving wheel, Y-axis driven wheel and
The Y-axis conveyer belt of Y-axis driving wheel, Y-axis driven wheel is connected, the lower surface of base plate both ends are fixed with X-axis driving mechanism respectively to be connected
It connects, the Y-axis driving wheel, Y-axis driven wheel pass through a mounting base respectively and be installed on plate upper surface both ends, the y-axis motor
Output shaft is connect by a shaft coupling with Y-axis driving wheel, and a Y-axis movable block, this Y-axis are fixedly installed on the Y-axis conveyer belt
The Z-axis mechanism is fixed on movable block.
2. in above scheme, Y-axis movable block lower surface is connected at least one Y-axis sliding block, the insertion of this Y-axis sliding block
In one Y-axis sliding rail.
3. in above scheme, the motor is linear motor.
4. in above scheme, the motor is voice coil motor.
5. in above scheme, the substrate is fixedly connected by a horizontal mounting plate with the mounting plate, this is vertically-mounted
A gusset is connected between plate side and mounting plate upper surface.
6. in above scheme, a barrel seat is provided in the horizontal mounting plate and above substrate, on this barrel seat
One is equipped with for storing the barrel of metal wire.
7. in above scheme, the motor is connect by a support plate with substrate, this support plate is vertically arranged with substrate and and base
Plate is fixedly connected, and the motor is installed on support plate upper surface.
8. in above scheme, a sliding rail is provided on the substrate, be embedded with a sliding block on this sliding rail, the movable plate with
Sliding block is fixedly connected.
9. in above scheme, the mounting base is fixedly connected by a right angle mounting plate with movable plate.
Due to the application of the above technical scheme, the present invention has following advantages compared with prior art:
1, the present invention is based on the processing method of the multi-functional processing unit (plant) for touch control film, can be realized simultaneously level correction and
Two kinds of functions are processed, first working panel is tested in measurement mode and records panel surface data, then switches to processing
State drives the motor of Z-axis mechanism to move up and down according to the panel surface data obtained under test mode, guarantees printing head
The standard value that the distance between touch control film substrate surface is kept constant, to overcome the bumps of panel machining itself to processing
Situations such as influence of process guarantees the precision and quality of processing, avoids the occurrence of broken string;Secondly, the printing head of its processing unit (plant)
For the cylinder with center through hole, this cylindrical spray head lower end is taper, and a needle tubing is embedded in the center through hole of printing head
And closely connect with printing head, printing head lower surface is stretched out in the lower end of the needle tubing, this needle tubing center is provided with for metal wire
The through-hole passed through, the setting of needle tubing, so that the metal wire of processing initially passes through needle tubing and gradually printed again to touch control film to be processed
On substrate, limit is provided for nanoscale metal wire, so that metal wire keeps vertical state to contact with the substrate of touch control film, is guaranteed
To the precision and quality of touch control film processing.
2, the present invention is based on the processing method of the multi-functional processing unit (plant) for touch control film, the X-axis of processing unit (plant) is driven
Mechanism further comprises the first transmission wheel, the first support wheel, the second transmission wheel, the second support wheel and X-axis motor, the X-axis electricity
An X-axis driving wheel is connected on the output shaft of machine, this X-axis driving wheel is sequentially connected by belt and an X-axis driven wheel, the X
Axis driven wheel one end is connect with the first transmission wheel, and the other end of this X-axis driven wheel is connect by a synchronizing shaft with the second transmission wheel,
First transmission wheel and the first support wheel are sequentially connected by the first conveyer belt, and second transmission wheel, the second support wheel are logical
The transmission connection of the second conveyer belt is crossed, the setting of synchronizing shaft can make the two conveyer belt movements of a motor while driving first,
Secondly it can guarantee the synchronism of two conveyer belts movement, to guarantee to remain in Y-axis driving mechanism motion process and X-axis
Orthogonal, the precision of guarantee printing head motion profile in direction;Secondly, the first conveyer belt and the second conveyer belt of its processing unit (plant)
Be fixedly installed with an X-axis movable block on respective upper layer conveyer belt respectively, the Y-axis driving mechanism be across the first conveyer belt and
Above second conveyer belt, and the both ends of Y-axis driving mechanism are solid with the X-axis movable block on the first conveyer belt, the second conveyer belt respectively
Fixed connection, X-axis movable block upper surface are evenly arranged with tooth socket corresponding with the rack gear of the first conveyer belt, the second conveyer belt,
First conveyer belt, the second conveyer belt rack gear be respectively embedded into the tooth socket of X-axis movable block, and pass through several tablettings and X-axis
Movable block is locked, and movable block and conveyer belt firm locking are allowed movable block that Y-axis is driven to drive by the setting of tabletting
Mechanism stable movement, the setting of tooth socket ensure that the tight type and stability connected between movable block and conveyer belt, prevent activity
Block is opposite to shift and misplaces with conveyer belt, avoids conveyer belt occurs skidding, guarantee the stability of total system with
The precision of processing.
3, the present invention is based on the processing method of the multi-functional processing unit (plant) for touch control film, the first transmission of processing unit (plant)
Wheel and the second transmission wheel pass through front-wheel seat installation fixation respectively, after first support wheel and the second support wheel pass through one respectively
Wheel seat installation is fixed, and the opposite two sides of the rear wheel seat has strip-shaped hole, and a shaft passes through the first support wheel or second
Wheel center is supportted, and the both ends of shaft are respectively embedded into the strip-shaped hole of rear wheel seat, the both ends of the shaft are respectively provided with a mounting hole,
One screw is embedded in rear wheel seat from the direction perpendicular to shaft respectively and is spirally connected with the mounting hole of shaft, and the setting of strip-shaped hole provides
Adjustable space, can in real time be adjusted the direction of support wheel, guarantee that support wheel remains parallel with transmission wheel,
To avoid the conveyer belt between support wheel and transmission wheel from deviating with side contact wear, belt was not only damaged, but also can generate miscellaneous
Matter powder, influences product quality;Secondly, the two sides of the Z-axis mechanism of its processing unit (plant) along the y axis are respectively arranged with a first gear
Piece, the both ends of the Y-axis driving mechanism be fixedly installed respectively at least two for incude first flap first sensor, it is described
A second flap is provided in Y-axis driving mechanism, the both ends of the X-axis driving mechanism in X direction are fixedly installed at least respectively
Two second sensors for incuding second flap, the setting of sensor are respectively Y-axis driving mechanism in X-axis and Y direction
There is provided initial position with Z-axis mechanism, as Z-axis mechanism provides the initial origin on the direction XY, convenient reset to equipment and
Correction, while position-limiting action is played to the movement of equipment in X-axis and Y direction, the setting of at least two sensor then provides
Double shield prevents from causing the movable part of equipment to go out rack because of a sensor fault, guarantees the safety of equipment.
Detailed description of the invention
Attached drawing 1 is the multi-functional processing unit (plant) structural schematic diagram that touch control film is used in the present invention;
Attached drawing 2 is Z-axis mechanism structural schematic diagram under multi-functional processing unit (plant) test mode in the present invention;
Attached drawing 3 is Z-axis mechanism partial structural diagram under multi-functional processing unit (plant) test mode in the present invention;
Attached drawing 4 is Z-axis mechanism structural schematic diagram under multi-functional processing unit (plant) machining state in the present invention;
Attached drawing 5 is the multi-functional processing unit (plant) partial structural diagram that touch control film is used in the present invention;
Attached drawing 6 is X-axis driving mechanism structure schematic diagram in multi-functional processing unit (plant) in the present invention;
Attached drawing 7 is the multi-functional processing unit (plant) partial structurtes decomposition diagram that touch control film is used in the present invention;
Attached drawing 8 is X-axis driving mechanism partial structural diagram in multi-functional processing unit (plant) in the present invention;
Attached drawing 9 is Y-axis driving mechanism structure schematic diagram in multi-functional processing unit (plant) in the present invention;
Attached drawing 10 is printing head structural decomposition diagram in multi-functional processing unit (plant) in the present invention.
In the figures above:1, rack;2, working panel;3, X-axis driving mechanism;301, the first transmission wheel;302, it second passes
Send wheel;303, X-axis motor;304, X-axis driving wheel;305, X-axis driven wheel;307, synchronizing shaft;308, the first support wheel;309,
Two support wheels;310, the first conveyer belt;311, the second conveyer belt;312, X-axis movable block;313, tooth socket;314, tabletting;319, preceding
Wheel seat;320, rear wheel seat;321, strip-shaped hole;322, shaft;323, mounting hole;324, screw;4, Y-axis driving mechanism;401, bottom
Plate;402, y-axis motor;403, Y-axis driving wheel;404, Y-axis driven wheel;405, Y-axis conveyer belt;406, Y-axis movable block;407,Y
Axis sliding block;408, Y-axis sliding rail;5, Z-axis mechanism;501, substrate;502, movable plate;503, motor;504, Y mounting base;505, it reads
Several heads;506, graduated scale;507, horizontal mounting plate;508, support plate;509, sliding rail;510, sliding block;511, right angle mounting plate;6, pacify
Loading board;7, measuring head;8, printing head;801, center through hole;802, needle tubing;9, gusset;10, barrel seat;11, metal wire;12,
Barrel;13, first flap;14, first sensor;15, second flap;16, second sensor.
Specific embodiment
Embodiment 1:A kind of processing method based on the multi-functional processing unit (plant) for touch control film, the processing method are based on
One be used for touch control film multi-functional processing unit (plant), this for touch control film multi-functional processing unit (plant) include rack 1, working panel 2,
X-axis driving mechanism 3, Y-axis driving mechanism 4 and Z-axis mechanism 5, the working panel 2 are horizontally installed in rack 1, and the X-axis is driven
Motivation structure 3 is installed in rack 1, and the Y-axis driving mechanism 4 is movably installed in X-axis driving mechanism 3, the Z-axis mechanism
5 are flexibly connected by a mounting plate 6 with Y-axis driving mechanism 4, this Z-axis mechanism 5 has test mode and machining state, as the Z
When axis mechanism 5 is in test mode, it is movably installed with measuring head 7 on this Z-axis mechanism 5, when the Z-axis mechanism 5 is in processing shape
When state, printing head 8 is movably installed on this Z-axis mechanism 5;
The printing head 8 is the cylinder with center through hole 801, this cylindrical spray head lower end is taper, and a needle tubing 802 is embedding
Enter in the center through hole 801 of printing head 8 and closely connect with printing head 8, printing head is stretched out in the lower end of the needle tubing 802
8 lower surfaces, this 802 center of needle tubing are provided with the through-hole passed through for metal wire 11;
The Z-axis mechanism 5 further comprises substrate 501, movable plate 502, motor 503 and sprays for installing measuring head 7 or printing
First 8 mounting base 504, the movable plate 502 is mobilizable to be installed on substrate 501, and the motor 503 and substrate 501 are fixed
Connection, the mover portion of the motor 503 are fixedly connected with movable plate 502, and the mounting base 504 is fixed with the installation of movable plate 502,
Correspondence is equipped with one group of grating scale on the substrate 501 and movable plate 502, and the reading head 505 of this grating scale is installed on substrate 501
The graduated scale 506 of side surface, the grating scale is installed on movable plate 502, and the reading head 505 and graduated scale 506 are face-to-face
Setting;
The X-axis driving mechanism 3 further comprises the first transmission wheel 301, the first support wheel 308, the second transmission wheel 302, second
Support wheel 309 and X-axis motor 303 are connected with an X-axis driving wheel 304, the driving of this X-axis on the output shaft of the X-axis motor 303
Wheel 304 is sequentially connected by belt and an X-axis driven wheel 305, and described 305 one end of X-axis driven wheel and the first transmission wheel 301 connect
It connects, the other end of this X-axis driven wheel 305 is connect by a synchronizing shaft 307 with the second transmission wheel 302, first transmission wheel 301
It is sequentially connected with the first support wheel 308 by the first conveyer belt 310, second transmission wheel 302, the second support wheel 309 pass through
The transmission connection of second conveyer belt 311;
It is fixedly installed with an X-axis activity respectively on first conveyer belt 310 and the respective upper layer conveyer belt of the second conveyer belt 311
Block 312, the Y-axis driving mechanism 4 are across above the first conveyer belt 310 and the second conveyer belt 311, and Y-axis driving mechanism 4
Both ends are fixedly connected with the X-axis movable block 312 on the first conveyer belt 310, the second conveyer belt 311 respectively, the X-axis movable block
312 upper surfaces are evenly arranged with tooth socket 313 corresponding with the rack gear of the first conveyer belt 310, the second conveyer belt 311, and described first
Conveyer belt 310, the second conveyer belt 311 rack gear be respectively embedded into the tooth socket 313 of X-axis movable block 312, and pass through several tablettings
314 are locked with X-axis movable block 312;
First transmission wheel 301 and the second transmission wheel 302 are fixed by a front-wheel seat 319 installation respectively, first support
Wheel 308 and the second support wheel 309 are fixed by a rear wheel seat 320 installation respectively, and the opposite two sides of the rear wheel seat 320 is opened respectively
There is strip-shaped hole 321, a shaft 322 passes through 309 center of the first support wheel 308 or the second support wheel, and the both ends difference of shaft 322
It is embedded in the strip-shaped hole 321 of rear wheel seat 320, the both ends of the shaft 322 are respectively provided with a mounting hole 323, a screw 324 difference
Rear wheel seat 320 is embedded in from the direction perpendicular to shaft 322 and is spirally connected with the mounting hole of shaft 322 323;
The two sides of the Z-axis mechanism 5 along the y axis are respectively arranged with a first flap 13, the both ends of the Y-axis driving mechanism 4
It is fixedly installed at least two respectively for incuding the first sensor 14 of first flap 13, is provided in the Y-axis driving mechanism 4
One second flap 15, the both ends of the X-axis driving mechanism 3 in X direction are fixedly installed at least two for incuding second gear respectively
The second sensor 16 of piece 15;
The processing method based on the multi-functional processing unit (plant) for touch control film includes the following steps:
Step 1: resetting processing unit (plant), processing unit (plant) is placed in test pattern;
Step 2: measuring head 7 is installed on Z-axis mechanism 5, adjusts measuring head 7 and make 7 lower surface of measuring head and working panel 2
Upper surface contact;
Step 3: driving Z-axis mechanism 5 to move according to the track of setting by X-axis driving mechanism 3, Y-axis driving mechanism 4, it is moved through
Cheng Zhong, measuring head 7 remained under the action of Z-axis mechanism 5 contact and record with 2 upper surface of working panel it is X, Y different
Set the Z axis data at place;
Step 4: Y, Z data calculates the elevation of water data of working panel 2 by the X recorded in step 3;
Step 5: switching processing unit (plant) is installed on Z-axis mechanism 5 to machining state and by printing head 8;
Step 6: drive Z-axis mechanism 5 to move according to track required for processing by X-axis driving mechanism 3, Y-axis driving mechanism 4,
In motion process, Z-axis mechanism 5 drives printing head according to the elevation of water data of the working panel 2 obtained in step 4
8 move up and down, and the wire in printing head 8 is connect with the substrate being set on working panel 2.
Above-mentioned Y-axis driving mechanism 4 further comprises bottom plate 401, y-axis motor 402, Y-axis driving wheel 403, Y-axis driven wheel
404 and connection Y-axis driving wheel 403, Y-axis driven wheel 404 Y-axis conveyer belt 405, above-mentioned 401 lower surface both ends of bottom plate respectively with X
Axis driving mechanism 3 is fixedly connected, and above-mentioned Y-axis driving wheel 403, Y-axis driven wheel 404 are installed on bottom plate by a mounting base respectively
The output shaft of 401 upper surfaces both ends, above-mentioned y-axis motor 402 is connect by a shaft coupling with Y-axis driving wheel 403, and above-mentioned Y-axis passes
It send and is fixedly installed with a Y-axis movable block 406 on band 405, above-mentioned Z-axis mechanism 5 is fixed on this Y-axis movable block 406;Above-mentioned Y-axis
406 lower surface of movable block is connected at least one Y-axis sliding block 407, this Y-axis sliding block 407 is embedded in a Y-axis sliding rail 408;Above-mentioned electricity
Machine 503 is linear motor;Above-mentioned motor 503 is connect by a support plate 508 with substrate 501, this support plate 508 is vertical with substrate 501
It is arranged and is fixedly connected with substrate 501, above-mentioned motor 503 is installed on 508 upper surface of support plate.
Embodiment 2:A kind of processing method based on the multi-functional processing unit (plant) for touch control film, the processing method are based on
One be used for touch control film multi-functional processing unit (plant), this for touch control film multi-functional processing unit (plant) include rack 1, working panel 2,
X-axis driving mechanism 3, Y-axis driving mechanism 4 and Z-axis mechanism 5, the working panel 2 are horizontally installed in rack 1, and the X-axis is driven
Motivation structure 3 is installed in rack 1, and the Y-axis driving mechanism 4 is movably installed in X-axis driving mechanism 3, the Z-axis mechanism
5 are flexibly connected by a mounting plate 6 with Y-axis driving mechanism 4, this Z-axis mechanism 5 has test mode and machining state, as the Z
When axis mechanism 5 is in test mode, it is movably installed with measuring head 7 on this Z-axis mechanism 5, when the Z-axis mechanism 5 is in processing shape
When state, printing head 8 is movably installed on this Z-axis mechanism 5;
The printing head 8 is the cylinder with center through hole 801, this cylindrical spray head lower end is taper, and a needle tubing 802 is embedding
Enter in the center through hole 801 of printing head 8 and closely connect with printing head 8, printing head is stretched out in the lower end of the needle tubing 802
8 lower surfaces, this 802 center of needle tubing are provided with the through-hole passed through for metal wire 11;
The Z-axis mechanism 5 further comprises substrate 501, movable plate 502, motor 503 and sprays for installing measuring head 7 or printing
First 8 mounting base 504, the movable plate 502 is mobilizable to be installed on substrate 501, and the motor 503 and substrate 501 are fixed
Connection, the mover portion of the motor 503 are fixedly connected with movable plate 502, and the mounting base 504 is fixed with the installation of movable plate 502,
Correspondence is equipped with one group of grating scale on the substrate 501 and movable plate 502, and the reading head 505 of this grating scale is installed on substrate 501
The graduated scale 506 of side surface, the grating scale is installed on movable plate 502, and the reading head 505 and graduated scale 506 are face-to-face
Setting;
The X-axis driving mechanism 3 further comprises the first transmission wheel 301, the first support wheel 308, the second transmission wheel 302, second
Support wheel 309 and X-axis motor 303 are connected with an X-axis driving wheel 304, the driving of this X-axis on the output shaft of the X-axis motor 303
Wheel 304 is sequentially connected by belt and an X-axis driven wheel 305, and described 305 one end of X-axis driven wheel and the first transmission wheel 301 connect
It connects, the other end of this X-axis driven wheel 305 is connect by a synchronizing shaft 307 with the second transmission wheel 302, first transmission wheel 301
It is sequentially connected with the first support wheel 308 by the first conveyer belt 310, second transmission wheel 302, the second support wheel 309 pass through
The transmission connection of second conveyer belt 311;
It is fixedly installed with an X-axis activity respectively on first conveyer belt 310 and the respective upper layer conveyer belt of the second conveyer belt 311
Block 312, the Y-axis driving mechanism 4 are across above the first conveyer belt 310 and the second conveyer belt 311, and Y-axis driving mechanism 4
Both ends are fixedly connected with the X-axis movable block 312 on the first conveyer belt 310, the second conveyer belt 311 respectively, the X-axis movable block
312 upper surfaces are evenly arranged with tooth socket 313 corresponding with the rack gear of the first conveyer belt 310, the second conveyer belt 311, and described first
Conveyer belt 310, the second conveyer belt 311 rack gear be respectively embedded into the tooth socket 313 of X-axis movable block 312, and pass through several tablettings
314 are locked with X-axis movable block 312;
First transmission wheel 301 and the second transmission wheel 302 are fixed by a front-wheel seat 319 installation respectively, first support
Wheel 308 and the second support wheel 309 are fixed by a rear wheel seat 320 installation respectively, and the opposite two sides of the rear wheel seat 320 is opened respectively
There is strip-shaped hole 321, a shaft 322 passes through 309 center of the first support wheel 308 or the second support wheel, and the both ends difference of shaft 322
It is embedded in the strip-shaped hole 321 of rear wheel seat 320, the both ends of the shaft 322 are respectively provided with a mounting hole 323, a screw 324 difference
Rear wheel seat 320 is embedded in from the direction perpendicular to shaft 322 and is spirally connected with the mounting hole of shaft 322 323;
The two sides of the Z-axis mechanism 5 along the y axis are respectively arranged with a first flap 13, the both ends of the Y-axis driving mechanism 4
It is fixedly installed at least two respectively for incuding the first sensor 14 of first flap 13, is provided in the Y-axis driving mechanism 4
One second flap 15, the both ends of the X-axis driving mechanism 3 in X direction are fixedly installed at least two for incuding second gear respectively
The second sensor 16 of piece 15;
The processing method based on the multi-functional processing unit (plant) for touch control film includes the following steps:
Step 1: resetting processing unit (plant), processing unit (plant) is placed in test pattern;
Step 2: measuring head 7 is installed on Z-axis mechanism 5, adjusts measuring head 7 and make 7 lower surface of measuring head and working panel 2
Upper surface contact;
Step 3: driving Z-axis mechanism 5 to move according to the track of setting by X-axis driving mechanism 3, Y-axis driving mechanism 4, it is moved through
Cheng Zhong, measuring head 7 remained under the action of Z-axis mechanism 5 contact and record with 2 upper surface of working panel it is X, Y different
Set the Z axis data at place;
Step 4: Y, Z data calculates the elevation of water data of working panel 2 by the X recorded in step 3;
Step 5: switching processing unit (plant) is installed on Z-axis mechanism 5 to machining state and by printing head 8;
Step 6: drive Z-axis mechanism 5 to move according to track required for processing by X-axis driving mechanism 3, Y-axis driving mechanism 4,
In motion process, Z-axis mechanism 5 drives printing head according to the elevation of water data of the working panel 2 obtained in step 4
8 move up and down, and the wire in printing head 8 is connect with the substrate being set on working panel 2.
Above-mentioned motor 503 is voice coil motor;Aforesaid substrate 501 passes through a horizontal mounting plate 507 and above-mentioned mounting plate 6
It is fixedly connected, is connected with a gusset 9 between this 6 upper surface of 507 side of horizontal mounting plate and mounting plate;Above-mentioned horizontal mounting plate
It is provided with a barrel seat 10 on 507 and above substrate 501, one is equipped on this barrel seat 10 for storing metal wire 11
Barrel 12;Be provided with a sliding rail 509 on aforesaid substrate 501, be embedded with a sliding block 510 on this sliding rail 509, above-mentioned movable plate 502 with
Sliding block 510 is fixedly connected;Above-mentioned mounting base 504 is fixedly connected by a right angle mounting plate 511 with movable plate 502.
Using the above-mentioned multi-functional processing unit (plant) for touch control film, it can be realized simultaneously two kinds of function of level correction and processing
Can, first working panel is tested in measurement mode and records panel surface data, then switches to machining state, according to survey
The panel surface data obtained under examination state drive the motor of Z-axis mechanism to move up and down, and guarantee printing head and touch-control film base material
The standard value that the distance between surface is kept constant, so that the concave-convex influence to process of panel machining itself is overcome,
Situations such as guaranteeing the precision and quality processed, avoiding the occurrence of broken string;Secondly, the setting of its needle tubing, so that the metal wire of processing
It initially passes through needle tubing gradually to print again to touch-control film base material to be processed, limit is provided for nanoscale metal wire, so that metal
Line keeps vertical state to contact with the substrate of touch control film, guarantees the precision and quality processed to touch control film;Again, synchronizing shaft
Setting can make the two conveyer belt movements of a motor while driving first, secondly can guarantee two conveyer belt movements
Synchronism guarantees printing head movement to guarantee to remain orthogonal with X-direction in Y-axis driving mechanism motion process
The precision of track;Again, movable block and conveyer belt firm locking are allowed movable block that Y-axis is driven to drive by the setting of tabletting
Motivation structure stable motion, the setting of tooth socket ensure that the tight type and stability connected between movable block and conveyer belt, prevent from living
Motion block is opposite to shift and misplaces with conveyer belt, avoids guaranteeing the stability of total system there is a situation where conveyer belt skidding
With the precision of processing;Again, the setting of strip-shaped hole provides adjustable space, can in real time to the direction of support wheel into
Row is adjusted, and guarantees that support wheel remains parallel with transmission wheel, so that the conveyer belt between support wheel and transmission wheel be avoided to deviate
And with side contact wear, belt was not only damaged, but also impurity powder can be generated, and had influenced product quality;Again, sensor is set
It sets, is respectively that Y-axis driving mechanism and Z-axis mechanism provide initial position in X-axis and Y direction, as Z-axis mechanism provides XY
Initial origin on direction, convenient reset and correction to equipment, while limit is played to the movement of equipment in X-axis and Y direction
Position effect, the setting of at least two sensor then provide double shield, prevent from leading to the work of equipment because of a sensor fault
Dynamic component goes out rack, guarantees the safety of equipment.
The above embodiments merely illustrate the technical concept and features of the present invention, and its object is to allow person skilled in the art
Scholar cans understand the content of the present invention and implement it accordingly, and it is not intended to limit the scope of the present invention.It is all according to the present invention
Equivalent change or modification made by Spirit Essence, should be covered by the protection scope of the present invention.