CN208434192U - Process equipment for nanometer touch film - Google Patents

Abstract

The utility model discloses a kind of process equipment for nanometer touch film, including rack, working panel, X-axis driving mechanism, Y-axis driving mechanism and Z-axis mechanism, the working panel is horizontally installed in rack, the X-axis driving mechanism is installed in rack, the Y-axis driving mechanism is movably installed in X-axis driving mechanism, the Z-axis mechanism is flexibly connected by a mounting plate with Y-axis driving mechanism, a printing head is movably installed on the Z-axis mechanism, the printing head has a center through hole, it is closely connect in the center through hole of one needle tubing insertion printing head and with printing head, the Y-axis driving mechanism is across above the first conveyer belt and the second conveyer belt, and the both ends of Y-axis driving mechanism respectively with the first conveyer belt, X-axis movable block on second conveyer belt is fixedly connected.The utility model realizes the automatic operation that plain conductor is layed in this process on substrate in touch control film processing, and machining accuracy height, superior product quality, yield height while production efficiency with higher.

Description

Process equipment for nanometer touch film

Technical field

The utility model relates to a kind of process equipments for nanometer touch film, belong to technical field of touch control.

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 purpose of the utility model is to provide a kind of process equipments for nanometer touch film, this is used for nanometer touch film Process equipment realizes the automatic operation that plain conductor is layed in this process on substrate in touch control film processing, and processes essence Degree height, superior product quality.

In order to achieve the above objectives, the technical solution adopted in the utility model is: a kind of processing for nanometer touch film is set It is standby, including rack, working panel, X-axis driving mechanism, Y-axis driving mechanism and Z-axis mechanism, the working panel be horizontally installed to In rack, the X-axis driving mechanism is installed in rack, and the Y-axis driving mechanism is movably installed on X-axis driving mechanism On, the Z-axis mechanism is flexibly connected by a mounting plate with Y-axis driving mechanism, and a printing is movably installed on the Z-axis mechanism Spray head；

The printing head has a center through hole, and a needle tubing is embedded in the center through hole of printing head and and printing head Printing head lower surface is stretched out in the lower end of close connection, the needle tubing, this needle tubing center is provided with the through-hole passed through for metal wire；Institute Stating 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, An X-axis driving wheel is connected on the output shaft of the X-axis motor, this X-axis driving wheel is connected by belt and X-axis driven wheel transmission It connects, X-axis driven wheel one end is connect with the first transmission wheel, and the other end of this X-axis driven wheel is passed by a synchronizing shaft and second Wheel is sent to connect, first transmission wheel and the first support wheel are sequentially connected by the first conveyer belt, second transmission wheel, second Support wheel is sequentially connected by the second conveyer belt；On first conveyer belt and the respective upper layer conveyer belt of the second conveyer belt respectively It is fixedly installed with an X-axis movable block, the Y-axis driving mechanism is across above the first conveyer belt and the second conveyer belt, and Y-axis is driven The both ends of motivation structure are fixedly connected with the X-axis movable block on the first conveyer belt, the second conveyer belt respectively, on the X-axis movable block Surface is evenly arranged with tooth socket corresponding with the rack gear of the first conveyer belt, the second conveyer belt, first conveyer belt, the second transmission The rack gear of band is respectively embedded into the tooth socket of X-axis movable block, and is locked by several tablettings and X-axis movable block.

Further improved scheme is as follows in above-mentioned technical proposal:

1. in above scheme, first conveyer belt and the second conveyer belt are arranged in parallel and are located at rack two sides.

2. in above scheme, the ratio of the driven wheel diameter of the X-axis and the first transmission wheel diameter is 1:2~5.

3. in above scheme, the Z-axis mechanism further comprises substrate, movable plate, motor and sprays for installing printing The mounting base of head, the movable plate is mobilizable to be installed on substrate, and the motor is fixedly connected with substrate, and the motor moves Sub-portion is fixedly connected with movable plate, and the mounting base and movable plate installation are fixed.

4. in above scheme, the motor is linear motor.

5. in above scheme, the motor is voice coil motor.

6. 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.

7. in above scheme, being provided with a barrel seat above the substrate, one is equipped on this barrel seat for storing gold Belong to the barrel of line.

Due to the application of the above technical scheme, the utility model has the advantage that compared with prior art

1, the utility model is used for the process equipment of nanometer touch film, realizes and spreads plain conductor in touch control film processing It is set on the substrate the automatic operation of this process, and machining accuracy height, superior product quality, yield height while life with higher Produce efficiency.Secondly, its described printing head have a center through hole, a needle tubing insertion printing head center through hole in and with beat Print spray head closely connects, printing head lower surface is stretched out in the lower end of the needle tubing, this needle tubing center is provided with to be passed through for metal wire Through-hole；The setting of needle tubing, so that the metal wire of processing initially passes through needle tubing and is gradually printed to touch-control film base material to be processed again, 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 touch-control The precision and quality of film processing.

2, the utility model is used for the process equipment of nanometer touch film, and the X-axis driving mechanism further comprises first Transmission wheel, the first support wheel, the second transmission wheel, the second support wheel and X-axis motor are connected on the output shaft of the X-axis motor One X-axis driving wheel, this X-axis driving wheel are sequentially connected by belt and an X-axis driven wheel, X-axis driven wheel one end and first Transmission wheel connection, the other end of this X-axis driven wheel are connect by a synchronizing shaft with the second transmission wheel, first transmission wheel and the One support wheel is sequentially connected by the first conveyer belt, and second transmission wheel, the second support wheel are connected by the second transmission V belt translation It connects, the setting of synchronizing shaft, the two conveyer belt movements of a motor while driving can be made first, secondly can guarantee two biographies The synchronism with movement is sent, to guarantee to remain orthogonal with X-direction in Y-axis driving mechanism motion process, guarantee is beaten Print the precision of spray head motion profile.

3, the utility model is used for the process equipment of nanometer touch film, and first conveyer belt and the second conveyer belt are respectively Upper layer conveyer belt on be fixedly installed with an X-axis movable block respectively, the Y-axis driving mechanism is across the first conveyer belt and second Above conveyer belt, and the both ends of Y-axis driving mechanism are fixed with the X-axis movable block on the first conveyer belt, the second conveyer belt connect respectively It connects, X-axis movable block upper surface is evenly arranged with tooth socket corresponding with the rack gear of the first conveyer belt, the second conveyer belt, described 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 activity Block is locked, the setting of tabletting, by movable block and conveyer belt firm locking, movable block is allowed to drive Y-axis driving mechanism Stable motion, the setting of tooth socket ensure that the tight type and stability connected between movable block and conveyer belt, prevent movable block phase To shifting and misplacing with conveyer belt, avoid guaranteeing the stability and processing of total system there is a situation where conveyer belt skidding Precision；Secondly, the ratio of the driven wheel diameter of its described X-axis and the first transmission wheel diameter is 1:2~5, with small wheel drive bull wheel, Stability is good, and precision is high.

Detailed description of the invention

Attached drawing 1 is the process equipment structural schematic diagram that the utility model is used for nanometer touch film；

Attached drawing 2 is the utility model for Z-axis mechanism structural schematic diagram in the process equipment of nanometer touch film；

Attached drawing 3 is X-axis driving mechanism structure schematic diagram in the utility model processing sets up；

Attached drawing 4 is the process equipment partial structurtes decomposition diagram that the utility model is used for nanometer touch film；

Attached drawing 5 is printing head structural decomposition diagram in the utility model processing sets up.

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；4, Y-axis Driving mechanism；5, Z-axis mechanism；501, substrate；502, movable plate；503, motor；504, Y mounting base；507, horizontal mounting plate；6, Mounting plate；8, printing head；801, center through hole；802, needle tubing；9, gusset；10, barrel seat；11, metal wire；12, barrel.

Specific embodiment

Embodiment 1: a kind of process equipment for nanometer touch film, including 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 driving mechanism 3 is installed In in rack 1, the Y-axis driving mechanism 4 is movably installed in X-axis driving mechanism 3, and the Z-axis mechanism 5 passes through an installation Plate 6 is flexibly connected with Y-axis driving mechanism 4, and a printing head 8 is movably installed on the Z-axis mechanism 5；

The printing head 8 has a center through hole 801, and a needle tubing 802 is embedded in the center through hole 801 of printing head 8 And closely connect with printing head 8,8 lower surface of printing head is stretched out in the lower end of the needle tubing 802, this 802 center of needle tubing is provided with The through-hole passed through for metal wire 11；The X-axis driving mechanism 3 further comprises the first transmission wheel 301, the first support wheel 308, Two transmission wheels 302, the second support wheel 309 and X-axis motor 303 are connected with X-axis driving on the output shaft of the X-axis motor 303 Wheel 304, this X-axis driving wheel 304 are sequentially connected by belt and an X-axis driven wheel 305, described 305 one end of X-axis driven wheel and the The other end of the connection of one transmission wheel 301, this X-axis driven wheel 305 is connect by a synchronizing shaft 307 with the second transmission wheel 302, described First transmission wheel 301 and the first support wheel 308 are sequentially connected by the first conveyer belt 310, second transmission wheel 302, second Support wheel 309 is sequentially connected by the second conveyer belt 311；First conveyer belt 310 and the respective upper layer of the second conveyer belt 311 An X-axis movable block 312 is fixedly installed on conveyer belt respectively, the Y-axis driving mechanism 4 is across the first conveyer belt 310 and The top of two conveyer belt 311, and the both ends of Y-axis driving mechanism 4 respectively with the X-axis on the first conveyer belt 310, the second conveyer belt 311 Movable block 312 is fixedly connected, and 312 upper surface of X-axis movable block is evenly arranged with and the first conveyer belt 310, the second conveyer belt The corresponding tooth socket 313 of 311 rack gear, first conveyer belt 310, the second conveyer belt 311 rack gear be respectively embedded into X-axis movable block In 312 tooth socket 313, and it is locked by several tablettings 314 with X-axis movable block 312.

Above-mentioned first conveyer belt 310 and the second conveyer belt 311 are arranged in parallel and are located at 1 two sides of rack；Above-mentioned X-axis from The ratio of 301 diameter of 305 diameter of driving wheel and the first transmission wheel is 1:4；Above-mentioned Z-axis mechanism 5 further comprises substrate 501, activity Plate 502, motor 503 and the mounting base 504 for installing printing head 8, above-mentioned movable plate 502 is mobilizable to be installed on substrate On 501, above-mentioned motor 503 is fixedly connected with substrate 501, and the mover portion of above-mentioned motor 503 is fixedly connected with movable plate 502, on It states mounting base 504 and the installation of movable plate 502 is fixed；Above-mentioned motor 503 is linear motor.

Embodiment 2: a kind of process equipment for nanometer touch film, including 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 driving mechanism 3 is installed In in rack 1, the Y-axis driving mechanism 4 is movably installed in X-axis driving mechanism 3, and the Z-axis mechanism 5 passes through an installation Plate 6 is flexibly connected with Y-axis driving mechanism 4, and a printing head 8 is movably installed on the Z-axis mechanism 5；

The printing head 8 has a center through hole 801, and a needle tubing 802 is embedded in the center through hole 801 of printing head 8 And closely connect with printing head 8,8 lower surface of printing head is stretched out in the lower end of the needle tubing 802, this 802 center of needle tubing is provided with The through-hole passed through for metal wire 11；The X-axis driving mechanism 3 further comprises the first transmission wheel 301, the first support wheel 308, Two transmission wheels 302, the second support wheel 309 and X-axis motor 303 are connected with X-axis driving on the output shaft of the X-axis motor 303 Wheel 304, this X-axis driving wheel 304 are sequentially connected by belt and an X-axis driven wheel 305, described 305 one end of X-axis driven wheel and the The other end of the connection of one transmission wheel 301, this X-axis driven wheel 305 is connect by a synchronizing shaft 307 with the second transmission wheel 302, described First transmission wheel 301 and the first support wheel 308 are sequentially connected by the first conveyer belt 310, second transmission wheel 302, second Support wheel 309 is sequentially connected by the second conveyer belt 311；First conveyer belt 310 and the respective upper layer of the second conveyer belt 311 An X-axis movable block 312 is fixedly installed on conveyer belt respectively, the Y-axis driving mechanism 4 is across the first conveyer belt 310 and The top of two conveyer belt 311, and the both ends of Y-axis driving mechanism 4 respectively with the X-axis on the first conveyer belt 310, the second conveyer belt 311 Movable block 312 is fixedly connected, and 312 upper surface of X-axis movable block is evenly arranged with and the first conveyer belt 310, the second conveyer belt The corresponding tooth socket 313 of 311 rack gear, first conveyer belt 310, the second conveyer belt 311 rack gear be respectively embedded into X-axis movable block In 312 tooth socket 313, and it is locked by several tablettings 314 with X-axis movable block 312.

Above-mentioned motor 503 is linear motor；Above-mentioned motor 503 is voice coil motor；Aforesaid substrate 501 is vertical by one Mounting plate 507 is fixedly connected with above-mentioned mounting plate 6, is connected with one between this 6 upper surface of 507 side of horizontal mounting plate and mounting plate Gusset 9；It is provided with a barrel seat 10 above aforesaid substrate 501, one is equipped on this barrel seat 10 for storing metal wire 11 Barrel 12.

When using the above-mentioned process equipment for nanometer touch film, realizes and be laid with plain conductor in touch control film processing In the automatic operation of this process on substrate, and machining accuracy height, superior product quality, yield be high while production with higher Efficiency；Secondly, the setting of its needle tubing, so that the metal wire of processing initially passes through needle tubing and is 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；Again, the setting of synchronizing shaft can both make two biographies of a motor while driving It send band to move, and can guarantee the synchronism of two conveyer belts movement, to guarantee to protect always in Y-axis driving mechanism motion process Hold orthogonal with X-direction, the precision of guarantee printing head motion profile；Again, the setting of tabletting, by movable block and transmission Band firm locking, allows movable block to drive Y-axis driving mechanism stable motion, and the setting of tooth socket ensure that movable block and pass The tight type and stability connected between band is sent, prevents movable block is opposite from shifting and misplacing with conveyer belt, avoids passing The case where sending band to skid, guarantees the stability of total system and the precision of processing；Again, with small wheel drive bull wheel, stability It is good, and precision is high.

The above embodiments are only for explaining the technical ideas and features of the present invention, and its object is to allow be familiar with technique Personage can understand the content of the utility model and implement accordingly, do not limit the protection scope of the present invention. All equivalent change or modifications according to made by the spirit of the present invention essence, should all cover the protection scope of the utility model it It is interior.

Claims (8)

1. a kind of process equipment for nanometer touch film, it is characterised in that: including 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 on rack (1), the X-axis Driving mechanism (3) is installed on rack (1), and the Y-axis driving mechanism (4) is movably installed on X-axis driving mechanism (3), The Z-axis mechanism (5) is flexibly connected by a mounting plate (6) with Y-axis driving mechanism (4), activity peace on the Z-axis mechanism (5) Equipped with a printing head (8)；

The printing head (8) has a center through hole (801), and a needle tubing (802) is embedded in the center through hole of printing head (8) (801) it is closely connect in and with printing head (8), printing head (8) lower surface, this needle are stretched out in the lower end of the needle tubing (802) Pipe (802) center is provided with the through-hole passed through for metal wire (11)；

The X-axis driving mechanism (3) further comprises the first transmission wheel (301), the first support wheel (308), the second transmission wheel (302), the second support wheel (309) and X-axis motor (303) are connected with X-axis driving on the output shaft of the X-axis motor (303) It takes turns (304), this X-axis driving wheel (304) is sequentially connected by belt and an X-axis driven wheel (305), the X-axis driven wheel (305) One end is connect with the first transmission wheel (301), and the other end of this X-axis driven wheel (305) passes through a synchronizing shaft (307) and the second transmission (302) connection is taken turns, first transmission wheel (301) and the first support wheel (308) are sequentially connected by the first conveyer belt (310), Second transmission wheel (302), the second support wheel (309) are sequentially connected by the second conveyer belt (311)；

It is fixedly installed with an X-axis respectively on first conveyer belt (310) and the respective upper layer conveyer belt of the second conveyer belt (311) Movable block (312), the Y-axis driving mechanism (4) is across above the first conveyer belt (310) and the second conveyer belt (311), and Y The both ends of axis driving mechanism (4) are solid with the X-axis movable block (312) on the first conveyer belt (310), the second conveyer belt (311) respectively Fixed connection, X-axis movable block (312) upper surface are evenly arranged with and the first conveyer belt (310), the second conveyer belt (311) The corresponding tooth socket of rack gear (313), first conveyer belt (310), the second conveyer belt (311) rack gear be respectively embedded into X-axis activity In the tooth socket (313) of block (312), and it is locked by several tablettings (314) and X-axis movable block (312).

2. the process equipment according to claim 1 for nanometer touch film, it is characterised in that: first conveyer belt (310) it is arranged in parallel with the second conveyer belt (311) and is located at rack (1) two sides.

3. the process equipment according to claim 1 for nanometer touch film, it is characterised in that: the X-axis driven wheel (305) ratio of diameter and the first transmission wheel (301) diameter is 1:2~5.

4. the process equipment according to claim 1 for nanometer touch film, it is characterised in that: the Z-axis mechanism (5) into One step includes substrate (501), movable plate (502), motor (503) and the mounting base (504) for installing printing head (8), institute State that movable plate (502) is mobilizable to be installed on substrate (501), the motor (503) is fixedly connected with substrate (501), described The mover portion of motor (503) is fixedly connected with movable plate (502), and the mounting base (504) and movable plate (502) installation are fixed.

5. the process equipment according to claim 4 for nanometer touch film, it is characterised in that: the motor (503) is Linear motor.

6. the process equipment according to claim 4 for nanometer touch film, it is characterised in that: the motor (503) is Voice coil motor.

7. the process equipment according to claim 4 for nanometer touch film, it is characterised in that: the substrate (501) is logical It crosses a horizontal mounting plate (507) to be fixedly connected with the mounting plate (6), on this horizontal mounting plate (507) side and mounting plate (6) A gusset (9) are connected between surface.

8. the process equipment according to claim 4 for nanometer touch film, it is characterised in that: on the substrate (501) Side is provided with a barrel seat (10), and one is equipped on this barrel seat (10) for storing the barrel (12) of metal wire (11).