CN106564272A - Four-station laminating machine - Google Patents

Abstract

The invention relates to a four-station laminating machine. The four-station laminating machine comprises at least four double-die-jig mechanisms, a film moving mechanism and a pressing die mechanism, wherein each double-die-jig mechanism comprises a film pressing jig and a locating jig, the locating jigs are used for locating films, and the film pressing jigs are used for carrying out press-fitting on placement positions of glass sheets and the films; all the double-die-jig mechanisms separately correspond to a station I, a station II, a station III and a station IV; the film moving mechanism is arranged at the station II; the pressing die mechanism is arranged at the station IV; the station I is used for loading the films to the locating jigs and unloading film-laminated glass sheets from the film pressing jigs; the station II is used for moving the films to the film pressing jigs from the locating jigs; the station III is used for tearing off protective films from the films and loading the glass sheets; and the station IV is used for picking up the glass sheets and then pressing the glass sheets to the films located on the film pressing jigs in a press-fitting manner. According to the four-station laminating machine provided by the invention, the films can be subjected to effective locating, moving, adsorbing and press-fitting, the work efficiency is high, and the laminating quality is reliable.

Description

A kind of four station make-up machines

Technical field

The present invention relates to field of electromechanical technology, more particularly to a kind of four stations make-up machine.

Background technology

Touch screen is widely used on various display devices as a kind of input equipment, and by touch screen, people can adopt With hand-written or point contact mode, by information conveyance to display device.In touch screen manufacture process, often need to paste two plates It is combined, attaching process is by applying certain mechanical external force, bi-material is closely combined together, so as to reach The purpose of strong bonded, attaching process occupies an important position in current various moulding techniques.Attaching process is usual By the use of make-up machine, the performance of make-up machine determines its work efficiency and laminating quality, but the station of traditional make-up machine Irrational distribution, causes its work efficiency extremely low, does not meet the demand of reality.

The content of the invention

It is an object of the invention to propose a kind of four stations make-up machine, its station is reasonably distributed, and can have to diaphragm The positioning of effect, movement, absorption and laminating is compressed, high working efficiency, reliable in quality of fitting.

It is that, up to this purpose, the present invention is employed the following technical solutions：

A kind of four station make-up machines, including bimodulus jig mechanism, Yi Mo mechanisms and press moulding mechanism；

The bimodulus jig mechanism includes film pressing jig and localization tool, and the localization tool is described to position diaphragm Placement location when film pressing jig is to press sheet glass and diaphragm；

The bimodulus jig mechanism is at least four, each described bimodulus jig mechanism respectively correspond to station one, station two, Station three and station four；

The Yi Mo mechanisms are located at the station two；The press moulding mechanism is located at the station four；

The station one to diaphragm feeding to the localization tool, and by the sheet glass of diaphragm of fitting from the press mold Tool blanking；The station two from the localization tool by diaphragm to move to the film pressing jig；The station three is to tear Remove the protecting film and sheet glass feeding of diaphragm；The station four is pressure bonded to positioned at the pressure to pick up the sheet glass, then The diaphragm of film tool.

The present invention proposes a kind of four stations make-up machine according to the above, and its station is reasonably distributed, diaphragm can be carried out Effective positioning, mobile, absorption and compression are fitted, high working efficiency, reliable in quality of fitting.There is the localization tool positioning to make With effectively can positioning to diaphragm, the precision for being easy to next station to move it；In the station three, tear off described During the protection membrane process of diaphragm, the software material of the film pressing jig make diaphragm absorption with thereon, allow the protecting film with it is described Diaphragm is easily separated；In the station four, when the press moulding mechanism presses the sheet glass with the diaphragm, the pressing mold is controlled The software material of tool plays cushioning effect；By rotating the rotating disk, making the operation of each station is carried out in order, it is possible to increase patch Close efficiency.

Description of the drawings

Fig. 1 is the structural representation of one of embodiment of the invention.

Fig. 2 is the structural representation of one of embodiment of the invention.

Fig. 3 is the structural representation of one of embodiment of the invention.

Fig. 4 is the partial enlarged drawing at Fig. 2A.

Fig. 5 is the partial enlarged drawing at Figure 1B.

Fig. 6 is the structural representation of one of embodiment of the invention.

Fig. 7 is the partial enlarged drawing at Fig. 6 D.

Fig. 8 is the overlooking the structure diagram of the film adsorption mechanism of one of embodiment of the invention.

Fig. 9 be in Fig. 8 N-N ' to profile.

Figure 10 be in Fig. 8 M-M ' to profile.

Figure 11 is the top structure schematic diagram of the vacuum plate sucking of one of embodiment of the invention.

Figure 12 is the polycrystalline substance schematic diagram of the vacuum plate sucking of one of embodiment of the invention.

Figure 13 is the partial enlarged drawing at Fig. 2 C of one of embodiment of the invention.

Figure 14 is the overlooking the structure diagram of the sheet glass feed mechanism of one of embodiment of the invention.

Figure 15 be in Figure 14 H-H ' to profile.

Figure 16 is the partial enlarged drawing at Figure 15 G.

Figure 17 is the structural representation of one of embodiment of the invention.

Figure 18 is the partial enlarged drawing at Figure 17 E.

Figure 19 is the partial enlarged drawing at Fig. 3 F.

Figure 20 is the structural representation of the press mold base plate of one of embodiment of the invention.

Wherein：Frame 1, tumbler 2, rotating disk 21, dispenser 22, the first motor 23, base plate 24, bimodulus jig mechanism 3, Station 1, station 2 302, station 3 303, station 4 304, film pressing jig 31, top sides are along 311, localization tool 32, fixed Position salient point 321, tool platform 33, seal groove 331, Yi Mo mechanisms 4, shifting film Z-axis mechanism 41, shifting film Z axis cylinder 411, shifting film Z axis are led To set 412, base 4121, film Z axis lead column 413, Yi Mo X-axis mechanism 42 is moved, film X-axis motor 421 is moved, is moved film X-axis drivewheel 422nd, film X-axis driven pulley 423 is moved, film X-axis installing plate 424 is moved, is moved film X-axis guide rail 425, move film X-axis slide block 426, move film X-axis skin Band the 427, first belt fixed block 4271, inhale membrane module 43, connecting plate 431, wide plate 4311, narrow boards 4312, film adsorption mechanism 432, Cover plate 4321, vacuum plate sucking 4322, suction film fairlead 4323, suction film lead column 4324, the first elastic component 4325, limited post 4326th, cylinder 43261, cap 43262, the first counterbore 441, the second counterbore 442, gas circuit structure 45, gas circuit groove 451, through hole 452nd, inhale film groove 453, protective cover 47, empty avoiding opening 471, sheet glass feed mechanism 5, Z-axis mechanism 51, Z axis cylinder 511, send Material Z axis fairlead 512, feeding Z axis lead column 513, feeding X-axis mechanism 52, feeding X-axis motor 521, feeding X-axis drivewheel 522nd, feeding X-axis driven pulley 523, feeding X-axis installing plate 524, feeding X-axis guide rail 525, feeding X-axis slide block 526, feeding X-axis skin The 527, second belt fixed block 5271 of band, traversing plate 528, dust cover 529, belt avoiding hollow groove 5291, delivery sheet 53, installation portion 531st, feeding portion 532, feeding reinforcing plate 533, sheet glass locating piece 54, sheet glass positioning convex point 541, installation groove 542, connection Part 543, the second elastic component 544, feeding X-axis deep floor 55, assistant reinforcement post 551, squeeze-film mechanism 6, installing rack 61, side plate 611st, recess 6111, top board 612, reinforced shaft 613, vacuum (-tight) housing 62, perforate 623, pressing mold 63, vacuum (-tight) housing lowering or hoisting gear 621, Pressing mold lowering or hoisting gear 631, vacuum (-tight) housing lead column 641, vacuum (-tight) housing fairlead 642, pressing mold lead column 643, press-fitting mould Tool fairlead 644, press mold top board 651, press mold groove 6521, detent 65211, curved indentations 6522, absorption gas circuit groove 6523rd, adsorb trachea 6514, press mold base plate 652, heating rod 653, heating rod and groove 6531, temperature sensor 654 are installed.

Specific embodiment

Further illustrate technical scheme below in conjunction with the accompanying drawings and by specific embodiment.

As shown in Fig. 1 to Figure 20, a kind of four stations make-up machine, including tumbler 2, bimodulus jig mechanism 3, Yi Mo mechanisms 4th, sheet glass feed mechanism 5 and press moulding mechanism 6；

The bimodulus jig mechanism 3 includes film pressing jig 31 and localization tool 32, and the localization tool 32 is to orientation film Piece, the upper surface of the pressing mold tool 31 arranges the sticking software material of tool；

The tumbler 2 includes horizontally disposed rotating disk 21, and the bimodulus jig mechanism 3 is at least four, equidistantly sets In the outside of the upper surface of the rotating disk 21；Each described bimodulus jig mechanism 3 corresponds to respectively station 1, station 2 302, work Position 3 303 and station 4 304；

The Yi Mo mechanisms 4 are located at the station 2 302；The press moulding mechanism 6 is located at the station 4 304；The glass Glass piece feed mechanism 5 is located at the side of the station 4 304, and the close station 3 303；

The station 1 to diaphragm feeding to the localization tool 32, and by the sheet glass of diaphragm of fitting from institute State the blanking of film pressing jig 31；The station 2 302 from the localization tool 32 by diaphragm to move to the film pressing jig 31；Institute Station 3 303 is stated tearing the protecting film of diaphragm off, and by sheet glass feeding to the sheet glass feed mechanism 5；The station 4 304, to pick up the sheet glass from the sheet glass feed mechanism 5, are then pressure bonded to positioned at the film pressing jig 31 The diaphragm.

The localization tool 32 has positioning action, and effectively diaphragm can be positioned, and is easy to next station to it Mobile precision；In the station 3 303, when tearing the protection membrane process of the diaphragm off, the software material of the film pressing jig 31 Matter makes diaphragm absorption with thereon, allows the protecting film easily to separate with the diaphragm；In the station 4 304, the molding press When structure 6 presses the sheet glass with the diaphragm, the software material of the pressing mold tool 31 plays cushioning effect；By rotating The rotating disk 21, making the operation of each station is carried out in order, it is possible to increase laminating efficiency.The operation of the station 1 can Ensure the blanking of finished product and the feeding of diaphragm to be processed, in the station 2 302, the Yi Mo mechanisms 4 are by diaphragm from described fixed Position tool 32 moves to the film pressing jig 31, beneficial due to being full-automatic moving film, it is possible to increase the mobile accuracy of diaphragm Fit in follow-up compression；The station 3 303 tearing the protecting film of diaphragm off, and by sheet glass feeding to the sheet glass Feed mechanism 5, is that sufficiently preparation is carried out in the compression laminating of follow-up diaphragm and sheet glass；In the station 4 304, the pressing mold Mechanism 6 is pressure bonded to the sheet glass of pickup on the diaphragm positioned at the film pressing jig 31, is finally reached the effect of laminating.Pass through One 301 to station of the station 4 304 coordinates, and can realize the orderly quick laminating to diaphragm and sheet glass, high working efficiency, Laminating quality is high.

Further, also including frame 1 and tool platform 33, the tumbler 2 also includes dispenser 22, the and of the first motor 23 Base plate 24, the base plate 24 located at the top of the frame 1, the dispenser 22 located at the top of the base plate 24, described the The output shaft of one motor 23 is connected by Timing Belt with the input shaft of the dispenser 22, and it is used to drive 22 turns of the dispenser Dynamic, the rotating disk 21 is connected with the output shaft of the dispenser 22；

The quantity of the tool platform 33 is at least four, equidistantly located at the outside of the upper surface of the rotating disk 21；The press mold is controlled Tool 31 and localization tool 32 are located at the top of the tool platform 33；

Located at the outside at the edge of the rotating disk 21, it includes moving film Z-axis mechanism 41, Yi Mo X-axis mechanism for the Yi Mo mechanisms 4 42 and inhale membrane module 43；

The shifting film Z-axis mechanism 41 is installed on the base plate 24, and the Yi Mo X-axis mechanism 42 is installed on the shifting film Z axis The drive end of mechanism 41, the suction membrane module 43 and the slidable connection of Yi Mo X-axis mechanism 42；

The shifting film Z-axis mechanism 41 is used to drive the X-axis travel mechanism to move up and down along Z-direction, the shifting film X-axis Mechanism 42 is used to drive the suction membrane module 43 to move left and right along X-direction；

The squeeze-film mechanism 6 includes installing rack 61, vacuum (-tight) housing 62, pressing mold 63, vacuum (-tight) housing lowering or hoisting gear 621, pressing Die lifting device 631；

The vacuum (-tight) housing lowering or hoisting gear 621 and pressing mold lowering or hoisting gear 631 are mounted on the installing rack 61, described true Sky cover 62 is located at the top of the rotating disk 21, and its bottom is provided with opening；

The vacuum (-tight) housing lowering or hoisting gear 621 is used to drive the vacuum (-tight) housing 62 to lift so as to can cover the film pressing jig 31；

The pressing mold 63 be located at the vacuum (-tight) housing 62 inside, and with the driving of the vacuum (-tight) housing lowering or hoisting gear 621 End connection, the vacuum (-tight) housing lowering or hoisting gear 621 drives the pressing mold 63 to move up and down in the inside of the vacuum (-tight) housing 62；Institute State pressing mold 63 and be provided with vac sorb gas circuit structure, to adsorb sheet glass；

The sheet glass feed mechanism 5 is fixed including feeding Z-axis mechanism 51, feeding X-axis mechanism 52, delivery sheet 53 and sheet glass Position block 54；

The feeding X-axis mechanism 52 is slidably coupled to located at the side of the installing rack 61, the feeding Z-axis mechanism 51 The feeding X-axis mechanism 52, the delivery sheet 53 is installed on the drive end of the feeding Z-axis mechanism 51, the sheet glass positioning Block 54 is located at the top of the delivery sheet 53；

The feeding X-axis mechanism 52 is used to drive the feeding Z-axis mechanism 51 to move left and right along X-direction, the feeding Z Axis mechanism 51 is used to drive the delivery sheet 53 to move up and down along Z-direction.

First motor 23 drives the dispenser 22 to work by Timing Belt, so as to drive the rotating disk 21 to rotate, The conversion of different station in four bimodulus jig mechanisms 3 is realized, is easy to carrying out in order for each operation；In sensor and arrive Under the cooperation of position signal block, the rotating disk 21 rotates every time 90 degree, realizes the accurate conversion of station.

In the present embodiment, the rotating disk 21 is rotated counterclockwise, first, film pressing jig 31 of the workman from the station 1 The finished product for having processed is removed, while diaphragm to be processed is put on the localization tool 32, the localization tool 32 has There is positioning action, effectively diaphragm can be positioned, be easy to the processing of next station.Then, the rotating disk 21 is counterclockwise The station 2 302 is turned to,

On the one hand the Yi Mo mechanisms 4 located at the outside at the edge of the rotating disk 21 ensure that the rotating disk 21 will not be hindered Rotate, on the other hand also can guarantee that and move carrying out in order for film work, by the shifting film Z-axis mechanism 41 and Yi Mo X-axis mechanism 42 Cooperation, the suction membrane module 43 can move on Z axis and X-direction, when the suction membrane module 43 is moved to the station During the top of 2 302 localization tool 32, it gets up the diaphragm absorption of the localization tool 32, again by the shifting film Z Axis mechanism 41 and the cooperation of Yi Mo X-axis mechanism 42, diaphragm are moved on the film pressing jig 31, due to whole moving film Process is full-automatic, it is possible to increase the accuracy and speed for moving and being placed on the film pressing jig 31 of diaphragm, Neng Gouti High workload efficiency and quality.

Then the rotating disk 21 rotates counterclockwise to station 3 303, and in this station, workman's handle is moved into the press mold The protecting film of the diaphragm on tool 31 is torn, in order to processing of the subsequent work stations to diaphragm, meanwhile, sheet glass is put into institute by workman State on sheet glass locating piece 54, the sheet glass locating piece 54 has positioning action, can position the sheet glass, is easy to next The processing of individual station.

Because each rotating disk 21 is to rotate 90 degree in conversion station, the Yi Mo mechanisms 4 grasp in station 2 302 Make, the squeeze-film mechanism 6 works positioned at station 4 304, the squeeze-film mechanism 6 is located at the edge of the rotating disk 21 and the shifting film machine That relative outside of structure 4 so that the squeeze-film mechanism 6 and the Yi Mo mechanisms 4 are exactly in 180 degree of relative position Put so that the conversion between station is more accurate.

Then the rotating disk 21 rotates counterclockwise to station 4 304, and now, the vacuum (-tight) housing 62 is sitting at the press mold and controls The top of tool 31, the cooperation that the delivery sheet 53 passes through the feeding Z-axis mechanism 51 and feeding X-axis mechanism 52, first along X-direction It is mobile, make the sheet glass locating piece 54 be located at the lower section of pressing mold 63, then move up along Z-direction, make the glass The sheet glass of piece locating piece 54 is fitted with the bottom of the pressing mold 63, easily facilitates the pressing mold 63 to sheet glass Adsorb, then the delivery sheet 53 removes the scope of the vacuum (-tight) housing 62, institute's vacuum (-tight) housing lowering or hoisting gear 621 drives described true Sky cover 62 declines to press close to the tool platform 33, and now the film pressing jig 31 is located inside the vacuum (-tight) housing 62, and to described Vacuum (-tight) housing 62 carries out evacuation, and sheet glass and pressing diaphragm can be avoided to be close to produce bubble when closing, and improves the quality of diaphragm processing； After exhausting vacuum, the pressing mold lowering or hoisting gear 631 drives the pressing mold 63 to decline so that be attracted to the pressing Diaphragm on the sheet glass and film pressing jig 31 of mould 63 is brought into close contact, until machining；After machining, the rotating disk 21 Station 1 is rotated counterclockwise to, workman repeats to remove finished product from film pressing jig 31 again, and it is fixed that diaphragm to be processed is put into Position tool 32, by the cooperation of four stations so that the laminating of diaphragm is rapidly and efficiently carried out, it is possible to increase work efficiency and processing Quality.

It is curved surface that the film pressing jig 31 places the region of diaphragm, to adapt to bend glass piece and diaphragm laminating；

Further, the top sides of the film pressing jig 31 are surface blending with the side wall of its surrounding along 311；

The top two ends of the localization tool 32 are provided with positioning convex point 321；

The side wall of the surrounding of the film pressing jig 31 and localization tool 32 is by round-corner transition；

The top of the tool platform 33 is provided with the seal groove of the surrounding type adaptable with the opening of the bottom of the vacuum (-tight) housing 62 331, the top of tool platform 33 of the film pressing jig 31 within the seal groove 331, the localization tool 32 is located at institute State the top of the tool platform 33 beyond seal groove 331.

The top sides of the film pressing jig 31 are surface blending along the side wall of 311 and its surrounding, easily facilitate curved surface diaphragm Placement and processing laminating, elastic material and have certain viscosity the film pressing jig 31, on the one hand can reduce diaphragm with Suffered impulsive force, on the other hand can improve the laminating degree of diaphragm and sheet glass, this enforcement during sheet glass laminating contact The film pressing jig 31 of example is rubber；The top two ends of the localization tool 32 are provided with positioning convex point 321, matching film plate two ends Location hole, further diaphragm fast and effectively can be positioned, after an action of the bowels follow-up processing.The film pressing jig 31 and fixed The side wall of the surrounding of position tool 32 is by round-corner transition, it is to avoid scratch during operative；The setting of the seal groove 331 so that The bottom of the vacuum (-tight) housing 62 can completely stick into the seal groove 331, further improve the seal degree of the vacuum (-tight) housing 62, Avoid gas from entering destruction vacuum environment in the vacuum (-tight) housing 62, cause sheet glass and diaphragm to produce bubble when fitting；And by When carrying out compressing laminating to sheet glass and diaphragm, it is placed on during diaphragm on the film pressing jig 31, so only needing to ensure described In the seal groove 331, the localization tool 32 is located at tool platform 33 beyond the seal groove 331 to film pressing jig 31 Top, can reduce the making materials of the seal groove 331 and vacuum (-tight) housing 62, further reduce its cost of manufacture.

Further, the shifting film Z-axis mechanism 41 includes moving film Z axis cylinder 411, move film Z axis fairlead 412 and moving film Z axis Lead column 413；

The Yi Mo X-axis mechanism 42 includes moving film X-axis motor 421, moves film X-axis drivewheel 422, moves film X-axis driven pulley 423rd, film X-axis installing plate 424 is moved, film X-axis guide rail 425 is moved and moves film X-axis slide block 426；

The suction membrane module 43 includes connecting plate 431 and film adsorption mechanism 432；

The shifting film Z axis cylinder 411 is installed on the base plate 24, the quantity for moving film Z axis lead column 413 be it is a plurality of, It is respectively arranged in the base plate 24, is cased with moving film Z axis fairlead 412, the shifting per film Z axis lead column 413 is moved described in bar The base 4121 of film Z axis fairlead 412 is installed on the bottom of the shifting film X-axis installing plate 424, the driving of the Z axis cylinder 411 Hold and be connected with the bottom of the shifting film X-axis installing plate 424；

The quantity for moving film X-axis guide rail 425 is two, located at the top of the shifting film X-axis installing plate 424, the institute per bar State and the shifting film X-axis slide block 426 is slidably connected in shifting film X-axis guide rail 425；

Described to move one end that film X-axis motor 421 is installed on the bottom of shifting film X-axis installing plate 424, its output shaft is protruded from It is described to move the top of film X-axis installing plate 424, and have the shifting film X-axis drivewheel 422 to be installed on the output shaft；The shifting Film X-axis driven pulley 423 is rotatably installed on the top of the shifting film X-axis installing plate 424 and the shifting film X-axis drivewheel 422 That relative one end；

The shifting film X-axis drivewheel 422 and move film X-axis driven pulley 423 be respectively positioned on two it is described move film X-axis guide rails 425 it Between；

Shifting film X-axis belt 427 is also included, it is placed on the shifting film X-axis drivewheel 422 and moves film X-axis driven pulley 423 On；

The bottom of the connecting plate 431 is installed on the described two shifting film X-axis slide blocks for moving film X-axis guide rail 425 426, the film adsorption mechanism 432 is installed on the connecting plate 431, and the film adsorption mechanism 432 is located at the top of the rotating disk 21；

Belt fixed block 4271 is also included, it is installed on the bottom of the connecting plate 431, positioned at two guide rails 424 Between, the belt fixed block 4271 is fixed thereon the shifting film X-axis belt 427.

The strong adaptability of shifting film Z axis cylinder 411, can in high temperature and low temperature environment normal work and with it is dust-proof, Waterproof ability, is suitable for various rugged environments, the shifting film Z axis fairlead 412 can increase shifting film Z axis lead column 413 with Its contact area, further improves the precision and stability being oriented to so that the shifting film Z axis cylinder 411 more stably edge The Z-direction lifting shifting film X-axis installing plate 424；The quantity of the shifting film Z axis lead column 413 of the present embodiment is three, its The base plate 24 is respectively arranged in, and positioned at three adjacent sides of the shifting film Z axis cylinder 411, constitutes a stable triangle Guiding group, improves the precision being oriented to.

The high working efficiency for moving film X-axis motor 421, again without flue dust, abnormal smells from the patient, free from environmental pollution, noise is also less, It passes through to drive the shifting film X-axis drivewheel 422 to rotate, and the shifting film X-axis drivewheel 422 is by the shifting film X-axis belt 427 The shifting film X-axis driven pulley 423 is driven to rotate, the shifting film X-axis driven pulley 423 of the present embodiment is installed on described by rotating shaft The top of installing plate 424.The shifting film X-axis belt 427 can drive the belt fixed block 4271 to move when working, so as to drive The connecting plate 431 is moved with the slip of the shifting film X-axis slide block 426 along X-direction, is easy to move the suction film group Position of the part 43 in X-axis, so as to the shifting film that the station 2 302 is better achieved works.

The quantity for moving film X-axis guide rail 425 is two, by two film X-axis guide rails 425 of moving with shifting film X-axis slide block 426 cooperation so that connecting plate 431 is more laborsaving in the movement of X-direction；The shifting film X-axis drivewheel 422 and shifting film X Axle driven pulley 423 is respectively positioned between two shifting film X-axis guide rails 425, such to arrange more reasonable, it is to avoid the shifting film X There is the interference of position to affect its normal work with the shifting film X-axis guide rail 425 in axle drivewheel 422 and shifting film X-axis driven pulley 423 Make；The film adsorption mechanism 432 is located at the top of the rotating disk 21, on the one hand will not hinder the rotation of the rotating disk 21, the opposing party Face ensure that the film adsorption mechanism 432 has enough regulation spaces, the absorption to diaphragm.

Further, the connecting plate 431 includes wide plate 4311 and narrow boards 4312；

The width of narrow boards 4312 is long described in the width ratio of the wide plate 4311, and the narrow boards 4312 is justified with the wide plate 4311 Arc transition connects；

The film adsorption mechanism 432 is installed on the bottom of the narrow boards 4312, and the bottom of the wide plate 4311 is loaded on described two The shifting film X-axis slide block 426 of guide rail 424 described in bar；

Also include protective cover 47, it is installed on the shifting film X-axis installing plate 424, and by the X-axis motor 421, move film X-axis drivewheel 422, shifting film X-axis driven pulley 423, shifting film X-axis guide rail 425 and shifting film X-axis slide block 426 are accommodated in the inner；

The side of the protective cover 47 is provided with empty avoiding opening 471, enables the narrow boards 4312 to stretch out the empty avoiding opening 471。

The shifting film X-axis guide rail 425 is drum guide rail.

The wide plate 4311 ensure that it has sufficiently large erection space with the shifting film X-axis slide block 426, improve its peace The stability of dress；The setting of the narrow boards 4312 can save making materials, further reduce cost of manufacture, the narrow boards 4312 It is connected with the arc transition of the wide plate 4311, by increasing capacitance it is possible to increase bonding strength, so as to increase its service life；The protective cover 47 Arrange, ensure that the shifting film X-axis installing plate 424, and by the X-axis motor 421, move film X-axis drivewheel 422, move film X-axis Driven pulley 423, shifting film X-axis guide rail 425 and shifting film X-axis slide block 426 are obtaining enough protection, improve the reliability of its work； The setting of the empty avoiding opening 471, can make the narrow boards 4312 stretch out the empty avoiding opening 471 so as to be arranged on The normal work of film adsorption mechanism 432 of the narrow boards 4312, the shifting film X-axis guide rail 425 is drum guide rail, it is possible to increase the shifting Stability when film X-axis slide block 426 is slided.

Further, the film adsorption mechanism 432 includes that cover plate 4321, vacuum plate sucking 4322, suction film fairlead 4323, suction film are led To post 4324, the first elastic component 4325 and limited post 4326；

The narrow boards 4312 is provided with the first counterbore 441, and the cover plate 4321 is provided with the second counterbore 442；

The suction film fairlead 4323 is fixed on first counterbore 441, and the suction film lead column 4324 is located at the suction In film fairlead 4323, and second counterbore 442 is fixed on by set screw；

The limited post 4326 includes cylinder 43261 and cap 43262, and the integration of the cap 43262 is located at the post One end of body 43261；

The cylinder 43261 is fixed on the cover plate 4321 through the narrow boards 4312 by set screw；

The length of the cylinder 43261 is longer than the thickness of the narrow boards 4312, enables the narrow boards 4312 along the post Body 43261 is axially moved up and down；

First elastic component 4325 is located between the narrow boards 4312 and cover plate 4321；

The vacuum plate sucking 4322 is communicated with the gas circuit structure 45 of its top and bottom；

The narrow boards 4312 is provided with the first suction film vacuum hole 4431 and the second film vacuum hole being connected with cover plate 4321 4432, vacuum tube 4433 is also included, it is fixed on described first inhales film vacuum hole 4431 and the second film vacuum hole 4432, and with The gas circuit structure 45 is connected；

The cover plate 4321 is brought into close contact the top for being installed on the vacuum plate sucking 4322.

The length of the cylinder 43261 is longer than the thickness of the narrow boards 4312, enables the narrow boards 4312 along the post Body 43261 is axially moved up and down, and first elastic component 4325 is located between the narrow boards 4312 and cover plate 4321 so that described When vacuum plate sucking 4322 pushes contact diaphragm, to the power of one flexible buffer of diaphragm, it is to avoid carry out rigid contact with diaphragm and break The structure of bad diaphragm, first elastic component 4325 of the present embodiment is spring.

The vacuum plate sucking 4322 be communicated with its top and bottom gas circuit structure 45, be more convenient for its absorption diaphragm when, The circulation of vacuum pneumatic.During the absorption diaphragm of the vacuum plate sucking 4322, air-flow is from the bottom of vacuum plate sucking 4322 through the gas Line structure 45 pumps to again the top of the vacuum plate sucking 4322, finally extracts out from the vacuum tube 4433, steadily inhales so as to reach The effect of membrane piece.The cover plate 4321 is brought into close contact the top for being installed on the vacuum plate sucking 4322, it is ensured that the air-flow energy It is enough to flow along the gas circuit structure 45.

Further, the gas circuit structure 45 includes crisscross gas circuit groove 451, the bottom of the gas circuit groove 451 It is evenly distributed with the through hole 452 for running through the bottom of gas circuit groove 451 and the bottom of vacuum plate sucking 4322；

Suction film groove 453 is also included, it is located at the two ends of the bottom of the vacuum plate sucking 4322, described fixed for accommodating The top two ends of position tool 32 are provided with positioning convex point 321.

The crisscross gas circuit groove 451, ensure that the air-flow circulates in an orderly manner, can also increase the suction of vacuum Attached area；The bottom even of the gas circuit groove 451 is distributed with and runs through the bottom of gas circuit groove 451 and vacuum plate sucking 4322 The through hole 452 of bottom, it is ensured that air-flow can be extracted into top from the bottom of the vacuum plate sucking 4322, so as to realize the suction of diaphragm It is attached；The top two ends for inhaling film groove 453 for accommodating the localization tool 32 are provided with positioning convex point 321, can make described Vacuum plate sucking 4322 can further press close to the top of the localization tool 32 when diaphragm is adsorbed, so as to reduce adsorbing difficulty, Improve the precision of absorption.

Further, the feeding Z-axis mechanism 51 includes feeding Z axis cylinder 511, feeding Z axis fairlead 512 and feeding Z axis Lead column 513；

The feeding X-axis mechanism 52 includes feeding X-axis motor 521, feeding X-axis drivewheel 522, feeding X-axis driven pulley 523rd, feeding X-axis installing plate 524, feeding X-axis guide rail 525 and feeding X-axis slide block 526；

The delivery sheet 53 is provided with the L-type plate of chamfering for side, and it includes that installation portion 531, feeding portion 532 and feeding are strengthened Plate 533, the feeding reinforcing plate 533 is divided into the installation portion 531 and feeding portion located at the top of the delivery sheet 53 532；

The installation portion 531 and the vertical arc transition of feeding portion 532 connect；

The sheet glass locating piece 54 is installed on the top of the feeding portion 532, the top of the sheet glass locating piece 54 Two ends are provided with sheet glass positioning convex point 541；

The feeding X-axis installing plate 524 is installed on the side wall of the installing rack 61, the number of the feeding X-axis guide rail 525 Measure as two, located at the top of the feeding X-axis installing plate 524, per feeding X-axis guide rail 525 described in bar on slidably connect Feeding X-axis slide block 526；

The feeding X-axis motor 521 is installed on one end of the bottom of feeding X-axis installing plate 524, and its output shaft is protruded from The top of the feeding X-axis installing plate 524, and have the feeding X-axis drivewheel 522 to be installed on the output shaft；It is described to send Material X-axis driven pulley 523 is rotatably installed on the top of the feeding X-axis installing plate 524 and the feeding X-axis drivewheel 522 That relative one end；

The feeding X-axis drivewheel 522 and feeding X-axis driven pulley 523 be respectively positioned on two feeding X-axis guide rails 525 it Between；

Feeding X-axis belt 527 is also included, it is placed on the feeding X-axis drivewheel 522 and feeding X-axis driven pulley 523 On；

Traversing plate 528 is also included, it is installed on the top of the feeding X-axis slide block 526；

The second belt fixed block 5271 is also included, it is installed on the bottom of the traversing plate 528, positioned at sending described in two Between material X-axis guide rail 525, second belt fixed block 5271 is fixed thereon the feeding X-axis belt 527；

The Z axis cylinder 511 is installed on the top of the traversing plate 528, the bottom of its drive end and the installation portion 531 Connection；

The quantity of the feeding Z axis lead column 513 is a plurality of, is mounted on the top of the traversing plate 528, is located at respectively The relative both sides of the Z axis cylinder 511；

The quantity of the feeding Z axis fairlead 512 is a plurality of, and it includes fairlead mounting seat and body, the fairlead Mounting seat integration is located at one end of the body；

The fairlead mounting seat is installed on the top of the installation portion 531, and the body is through the installation portion 531 Top and bottom, the Z axis lead column 513 is placed on the body.

The strong adaptability of feeding Z axis cylinder 511, can in high temperature and low temperature environment normal work and with it is dust-proof, Waterproof ability, is suitable for various rugged environments, the feeding Z axis fairlead 512 can increase feeding Z axis lead column 513 with Its contact area, further improves the precision and stability being oriented to so that the feeding Z axis cylinder 511 more stably edge Z-direction and lift the delivery sheet 53；The quantity of the feeding Z axis lead column 513 of the present embodiment is four, is mounted on institute The top of traversing plate 528 is stated, respectively positioned at the both sides that the Z axis cylinder 511 is relative, the precision being oriented to is improved.

The feeding reinforcing plate 533 can strengthen the bonding strength between the installation portion 531 and feeding portion 532, so as to Increase its service life；The setting of chamfering can save the making materials of the delivery sheet 53, so as to reduce its cost of manufacture.Institute Installation portion 531 and the connection of the vertical arc transition of feeding portion 532 are stated, its structural strength can be strengthened, so as to increase its service life. The two ends at the top of the sheet glass locating piece 54 are provided with sheet glass positioning convex point 541, it is possible to increase what sheet glass was placed on it Positioning precision.The feeding X-axis installing plate 524 is installed on the side wall of the installing rack 61, easily facilitates the delivery sheet 53 Feeding portion 532 working range of the squeeze-film mechanism 6 is entered into from X-direction.

The high working efficiency of the feeding X-axis motor 521, again without flue dust, abnormal smells from the patient, free from environmental pollution, noise is also less, It passes through to drive feeding X-axis drivewheel 522 to rotate, and the feeding X-axis drivewheel 522 is driven by the feeding X-axis belt 527 The feeding X-axis driven pulley 523 is rotated, and the feeding X-axis driven pulley 523 of the present embodiment is installed on the feeding by rotating shaft The top of X-axis installing plate 524.The feeding X-axis belt 527 can drive second belt fixed block 5271 to move when working, So as to drive the traversing plate 528 to move along X-direction with the slip of the feeding X-axis slide block 526, it is easy to move institute State position of the delivery sheet 53 in X-axis.

The quantity of the feeding X-axis guide rail 525 is two, by two feeding X-axis guide rails 525 and feeding X-axis slide block 526 cooperation so that traversing plate 528 is more laborsaving in the movement of X-direction；The feeding X-axis drivewheel 522 and feeding X Axle driven pulley 523 is respectively positioned between two feeding X-axis guide rails 525, such to arrange more reasonable, it is to avoid feeding X-axis master There is the interference of position to affect its normal work with the feeding X-axis guide rail 525 in driving wheel 522 and feeding X-axis driven pulley 523.

Further, dust cover 529 is also included, it is located at the top of the feeding X-axis installing plate 524, and send described Material X-axis drivewheel 522 is accommodated in the inner, and the dust cover 529 is provided with towards that side at the center of feeding X-axis belt 527 Belt avoiding hollow groove 5291；

Feeding X-axis deep floor 55 is also included, its quantity is two, the top of two pieces of feeding X-axis deep floors 55 The bottom of the feeding X-axis installing plate 524 is installed on, between two pieces of feeding X-axis deep floors 55 auxiliary is fixedly connected with Reinforcing prop 551, described one end of feeding X-axis deep floor 55 is connected with the side wall of the installing rack 61；

The feeding X-axis guide rail 525 is drum guide rail.

The dust cover 529 reduces the inside that dust enters into the feeding X-axis drivewheel 522, to affect its work；Institute State the setting of belt avoiding hollow groove 5291, it is to avoid the dust cover 529 occurs the interference of position with the feeding X-axis belt 527, protect Demonstrate,proving the work of the feeding X-axis belt 527 is carried out in order；The setting of the feeding X-axis deep floor 55, can strengthen described sending The bearing capacity of material X-axis installing plate 524；The setting of the assistant reinforcement post 551, by increasing capacitance it is possible to increase between the X-axis deep floor 55 Bonding strength, so as to increase its service life；The feeding X-axis guide rail 525 is drum guide rail, it is possible to increase the feeding X Stability when axle slide block 526 slides.

Further, the top of the feeding portion 532 is provided with installation groove 542, and the sheet glass locating piece 54 is by connection Part 543 is slidably mounted at the installation groove 542, is provided between the installation groove 542 and the sheet glass locating piece 54 Second elastic component 544.

The setting for installing groove 542, makes the sheet glass locating piece 54 to be limited in the installation groove 542 Move up and down；The setting of second elastic component 544 so that when the pressing mold 63 pushes contact diaphragm, to one, diaphragm The power of flexible buffer, it is to avoid carry out rigid contact with diaphragm and destroy the structure of diaphragm, second elastic component of the present embodiment 544 is spring.

Further, the vacuum (-tight) housing lowering or hoisting gear 621 and pressing mold lowering or hoisting gear 631 are respectively vacuum (-tight) housing lift cylinder With pressing mold lift cylinder；

The installing rack 61 includes side plate 611, top board 612 and reinforced shaft 613；

The quantity of the side plate 611 is two, and its side is provided with recess 6111；

The top board 612 is connected to the top of two pieces of recesses 6111, the quantity of the reinforced shaft 613 be it is a plurality of, It is connected between two blocks of side plates 611；

A part for the rotating disk 21 is located in the recess 6111；

The vacuum (-tight) housing 62 is installed on two pieces of sides located at the lower section of the top board 612, the vacuum (-tight) housing lift cylinder Between plate 611, its drive end is connected with the side wall of the vacuum (-tight) housing 62；

The pressing mold lift cylinder is installed on the top of the top board 612, and its drive end passes through the vacuum (-tight) housing 62 Top be connected with the pressing mold 63；

Also include vacuum (-tight) housing lead column 641, vacuum (-tight) housing fairlead 642, pressing mold lead column 643 and pressing mold to lead To set 644；

The top for having vacuum (-tight) housing fairlead 642 to be installed on the top board 612, the one of the vacuum (-tight) housing lead column 641 End is installed on the top of the vacuum (-tight) housing 62 and is slidingly disposed in the vacuum (-tight) housing fairlead 642；

The quantity of the pressing mold lead column 643 and pressing mold fairlead 644 is multiple；

The pressing mold fairlead 644 is installed on the top of the top board 612, and the pressing mold lead column 643 can Slidably in the pressing mold fairlead 644, one end of the pressing mold lead column 643 is through the vacuum (-tight) housing Top and be connected with the pressing mold 63.

The vacuum (-tight) housing lift cylinder and pressing mold lift cylinder strong adaptability, can be in high temperature and low temperature environment just Often work and with dust-proof, waterproof ability, be suitable for various rugged environments, can smoothly drive the vacuum (-tight) housing 62 and pressure The lifting of matched moulds tool 63.

The a plurality of reinforced shaft 613 can strengthen the bonding strength of two blocks of side plates 611, so as to strengthen the installing rack On the one hand 61 solidness, the setting of the recess 6111 can facilitate the installation of the vacuum (-tight) housing 62, on the other hand also will not Hinder the rotation of the rotating disk 21, it is ensured that the normal work of the rotating disk 21.

The setting of the vacuum (-tight) housing lead column 641 and pressing mold lead column 643, on the one hand ensures the He of the vacuum (-tight) housing 62 The lifting of pressing mold 63 can be accurately oriented to, and the vacuum (-tight) housing fairlead 642 and pressing mold fairlead 644 can Further increase the vacuum (-tight) housing lead column 641 and contact area when pressing mold lead column 643 is moved up and down, so as to enter one The precision that step increase is oriented to.

Because one end of the vacuum (-tight) housing lead column 641 is installed on the top of the vacuum (-tight) housing 62 and is slidingly disposed at In the vacuum (-tight) housing fairlead 642, one end of the pressing mold lead column 643 through the vacuum (-tight) housing top and with institute State pressing mold 63 to connect, so it can be respective control that the lifting of the vacuum (-tight) housing 62 and pressing mold 63 is oriented to, it is ensured that The reliability that each lifting is oriented to.Between the pressing mold lead column 643 and the top of the vacuum (-tight) housing, the pressing mold Oil seal washer is provided between the top of the drive end of lift cylinder and the vacuum (-tight) housing 62, further increases the vacuum (-tight) housing 62 Seal degree.

The pressing mold lead column 643 of the present embodiment and the quantity of pressing mold fairlead 644 are respectively four, four One end of the pressing mold lead column 643 is respectively arranged in the top of the pressing mold 63, it is ensured that the energy of the pressing mold 63 Access and be accurately oriented to, so as to preferably sheet glass and pressing diaphragm are close to be combined, and the vacuum (-tight) housing of the present embodiment is led One is to post 641 and vacuum (-tight) housing fairlead 642, on the premise of the guiding accuracy of the lifting of vacuum (-tight) housing 62 is ensured, can It is cost-effective.

Further, the pressing mold 63 includes press mold top board 651 and press mold base plate 652；

Press mold top board 651 is installed on the top of the press mold base plate 652；

The press mold base plate 652 is provided with the top sides of the film pressing jig 31 along the adaptable press mold groove of 311 curved surface 6521, the curved indentations for being formed around being adapted with the curved surface of the top surrounding of film pressing jig 31 of the press mold groove 6521 6522；

The two ends of the press mold groove 6521 are provided with and the detent 65211；

The press mold groove 6521 is provided with crisscross absorption gas circuit groove 6523；

Absorption trachea 6514 is also included, it is located at the press mold top board 651 and is communicated to the absorption gas circuit groove 6523。

By the cooperation of the press mold groove 6521 and curved indentations 6522, using diaphragm and sheet glass compression laminating is carried out When, the press mold base plate 652 can completely fit with the film pressing jig 31, improve the efficiency and quality for compressing laminating.

During the absorption of press mold base plate 652 sheet glass, air-flow is evacuated to the absorption trachea from the gas circuit groove 6513 6514, the crisscross absorption gas circuit groove 6523 can increase adsorption area, so as to reduce adsorbing the difficulty of sheet glass Degree.

The detent 65211 can accommodate the two ends at the top of sheet glass locating piece 54 and be provided with sheet glass positioning convex point 541, when making the absorption of press mold base plate 652 sheet glass, can further press close to the surface of sheet glass, reduce the difficulty of its absorption Degree.

Further, heating rod 653 and temperature sensor 654 are also included；

The two ends of the press mold top board 651 are provided with heating rod and install groove 6531, and the heating rod 653 is installed on the pressure Film top board 651, its one end is located at the heating rod and installs in groove 6531, and towards the top curved of the vacuum (-tight) housing 62；

The temperature sensor 654 is installed on the press mold top board 651, and the side wall of the vacuum (-tight) housing 62 is provided with vacuum and takes out Hole 622, another adjacent side wall is provided with four perforates 623.

In order to be more clearly seen the vacuum (-tight) housing of the heating rod 653 and temperature sensor 654, Fig. 4 and Figure 20 62 have adjacent two side not draw, to become apparent from expression.The heating rod installs the setting of groove 6531, can facilitate institute State heating rod 653 and be installed on the press mold top board 651；One end of the heating rod 653 is curved towards the top of the vacuum (-tight) housing 62 Song, facilitates electric wire to be connected with this end of the heating rod 653, it is to avoid it hinders the press mold top board 651 to decline compression laminating；Institute State heating rod 653 and play heat effect, be conducive to the press mold top board 651 that diaphragm and sheet glass are compressed laminating；The temperature Sensor 654 can perceive the temperature of pressing mold 63 so as to which the moment is maintained at optimal operating temperature.The vacuum takes out hole The 622 side walls for being located at the vacuum (-tight) housing 62, the convenient gas in the vacuum (-tight) housing 62 is taken away, four perforates 623, one of them connects the absorption trachea 6514, and two of which connects respectively the electricity of the heating rod 653 and temperature sensor 654 Spool, also one is standby hole.

The know-why of the present invention is described above in association with specific embodiment.These descriptions are intended merely to explain the present invention's Principle, and can not by any way be construed to limiting the scope of the invention.Based on explanation herein, the technology of this area Personnel associate other specific embodiments of the present invention by need not paying performing creative labour, these modes fall within Within protection scope of the present invention.

Claims (10)

1. a kind of four stations make-up machine, it is characterised in that：Including bimodulus jig mechanism, Yi Mo mechanisms and press moulding mechanism；

The bimodulus jig mechanism includes film pressing jig and localization tool, and the localization tool is to position diaphragm, the press mold Placement location when tool is to press sheet glass and diaphragm；

The bimodulus jig mechanism is at least four, and each described bimodulus jig mechanism corresponds to respectively station one, station two, station Three and station four；

The Yi Mo mechanisms are located at the station two；The press moulding mechanism is located at the station four；

The station one to diaphragm feeding to the localization tool, and by the sheet glass of diaphragm of fitting from the film pressing jig Blanking；The station two from the localization tool by diaphragm to move to the film pressing jig；The station three is to tear film off The protecting film and sheet glass feeding of piece；The station four is pressure bonded to pick up the sheet glass, then to be controlled positioned at the press mold The diaphragm of tool.

2. a kind of four stations make-up machine according to claim 1, it is characterised in that：Also include frame, tumbler and control Tool platform；

The tumbler includes rotating disk, dispenser, the first motor and base plate, and the base plate is located at the top of the frame, institute Dispenser is stated located at the top of the base plate, the output shaft of first motor is connected by Timing Belt with the dispenser input shaft Connect, it is used to drive the dispenser to rotate, and the rotating disk is connected with the output shaft of the dispenser；

The quantity of the tool platform is at least four, equidistantly located at the outside of the disk upper surface；The film pressing jig and positioning Tool is located at the top of the tool platform.

3. a kind of four stations make-up machine according to claim 1, it is characterised in that：The film pressing jig places the area of diaphragm Domain is curved surface, to adapt to the laminating of bend glass piece.

4. a kind of four stations make-up machine according to claim 1, it is characterised in that：The top sides of the film pressing jig along with The side wall of its surrounding is surface blending, and the upper surface of the pressing mold tool arranges the sticking software material of tool；

The top two ends of the localization tool are provided with positioning convex point；

The side wall of the surrounding of the film pressing jig and localization tool is by round-corner transition.

5. a kind of four stations make-up machine according to claim 1, it is characterised in that：The Yi Mo mechanisms include moving film Z axis Mechanism, Yi Mo X-axis mechanism and suction membrane module；

The Yi Mo X-axis mechanism is installed on the drive end of the shifting film Z-axis mechanism；

The suction membrane module includes film adsorption mechanism and connecting plate, the connecting plate and Yi Mo X-axis mechanism and is slidably connected, the suction Film mechanism is installed on the connecting plate；

The film adsorption mechanism includes cover plate, vacuum plate sucking, inhales film fairlead, inhales film lead column, the first elastic component and limited post；

The connecting plate is provided with the first counterbore, and the cover plate is provided with the second counterbore；

The suction film fairlead is fixed on first counterbore, and the suction film lead column is led in the suction film fairlead Cross set screw and be fixed on second counterbore；

The limited post includes cylinder and cap, and the cap integration is located at one end of the cylinder；

The cylinder is fixed on the cover plate through the connecting plate by set screw；

The length of the cylinder is longer than the thickness of the connecting plate, the connecting plate is moved down upwards along the cylinder axis It is dynamic；

First elastic component is located between the connecting plate and cover plate；

The vacuum plate sucking is communicated with the gas circuit structure of its top and bottom；

The connecting plate is provided with the first suction film vacuum hole and the second film vacuum hole being connected with cover plate, also includes vacuum tube, It is fixed on described first inhales film vacuum hole and the second film vacuum hole, and is connected with the gas circuit structure；

The cover plate is brought into close contact the top for being installed on the vacuum plate sucking.

6. a kind of four stations make-up machine according to claim 5, it is characterised in that：The gas circuit structure includes crisscross Gas circuit groove, the bottom even of the gas circuit groove is distributed with and runs through the gas circuit bottom portion of groove and vacuum plate sucking bottom Through hole；

Suction film groove is also included, it is located at the two ends of the bottom of the vacuum plate sucking；

First elastic component is spring, and its quantity is four, and the connecting plate bottom and cover plate top are provided with and are equipped with peace Dress hole position, the two ends of the spring be respectively arranged in the connecting plate bottom and the cover plate at the top of mounting hole site in.

7. a kind of four stations make-up machine according to claim 5, it is characterised in that：The shifting film Z-axis mechanism includes moving film Z Axle cylinder, shifting film Z axis fairlead and shifting film Z axis lead column；

The Yi Mo X-axis mechanism include move film X-axis motor, move film X-axis drivewheel, move film X-axis driven pulley, move film X-axis installing plate, Move film X-axis guide rail and move film X-axis slide block；

The quantity for moving film Z axis lead column is a plurality of, is cased with moving film Z axis fairlead, institute per film Z axis lead column is moved described in bar State move film Z axis fairlead floor installation in it is described shifting film X-axis installing plate bottom, the drive end of the Z axis cylinder with it is described Move the bottom connection of film X-axis installing plate；

The quantity for moving film X-axis guide rail is two, located at the top of the shifting film X-axis installing plate, is led per film X-axis is moved described in bar The shifting film X-axis slide block is slidably connected on rail；

Described to move one end that film X-axis motor is installed on the shifting film X-axis installing plate bottom, its output shaft protrudes from the shifting film X The top of axle installing plate, and have the shifting film X-axis drivewheel to be installed on the output shaft；The shifting film X-axis driven pulley can turn The top of the shifting film X-axis installing plate that one end relative with the shifting film X-axis drivewheel is installed on dynamicly；

The shifting film X-axis drivewheel and shifting film X-axis driven pulley are respectively positioned between two shifting film X-axis guide rails；

Shifting film X-axis belt is also included, it is placed on the shifting film X-axis drivewheel and moves on film X-axis driven pulley；

The bottom of the connecting plate is installed on the described two shifting film X-axis slide blocks for moving film X-axis guide rail；

Belt fixed block is also included, it is installed on the connecting plate bottom, between two guide rails, the belt is consolidated Determine block to be fixed thereon the shifting film X-axis belt.

8. a kind of four stations make-up machine according to claim 1, it is characterised in that：Sheet glass feed mechanism is also included, It is close to the station three；

It includes feeding Z-axis mechanism, feeding X-axis mechanism, delivery sheet and sheet glass locating piece；

The feeding X-axis mechanism is slidably coupled to the feeding located at the side of the press moulding mechanism, the feeding Z-axis mechanism X-axis mechanism, the delivery sheet is installed on the drive end of the feeding Z-axis mechanism, and the sheet glass locating piece is located at the feeding The top of plate；

The feeding X-axis mechanism is used to drive the feeding Z-axis mechanism to move left and right along X-direction, and the feeding Z-axis mechanism is used Move up and down along Z-direction in the delivery sheet is driven.

9. a kind of four stations make-up machine according to claim 8, it is characterised in that：The feeding Z-axis mechanism includes feeding Z Axle cylinder, feeding Z axis fairlead and feeding Z axis lead column；

The feeding X-axis mechanism include feeding X-axis motor, feeding X-axis drivewheel, feeding X-axis driven pulley, feeding X-axis installing plate, Feeding X-axis guide rail and feeding X-axis slide block；

The delivery sheet is provided with the L-type plate of chamfering for side, and it includes installation portion, feeding portion and feeding reinforcing plate, the feeding Reinforcing plate is divided into the installation portion and feeding portion located at the top of the delivery sheet；

Installation portion arc transition connection vertical with feeding portion；

The sheet glass locating piece is installed on the top of the feeding portion, and the two ends at the top of the sheet glass locating piece are provided with glass Piece positioning convex point；

The feeding X-axis installing plate is installed on the side wall of the installing rack, and the quantity of the feeding X-axis guide rail is two, is all provided with In the top of the feeding X-axis installing plate, per feeding X-axis guide rail described in bar on slidably connect feeding X-axis slide block；

The feeding X-axis motor is installed on one end of the feeding X-axis installing plate bottom, and its output shaft protrudes from the feeding X The top of axle installing plate, and have the feeding X-axis drivewheel to be installed on the output shaft；The feeding X-axis driven pulley can turn The top of the feeding X-axis installing plate that one end relative with the feeding X-axis drivewheel is installed on dynamicly；

The feeding X-axis drivewheel and feeding X-axis driven pulley are respectively positioned between two feeding X-axis guide rails；

Feeding X-axis belt is also included, it is placed on the feeding X-axis drivewheel and feeding X-axis driven pulley；

Traversing plate is also included, it is installed on the top of the feeding X-axis slide block；

Also include the second belt fixed block, it is installed on the bottom of the traversing plate, positioned at two feeding X-axis guide rails it Between, second belt fixed block is fixed thereon the feeding X-axis belt；

The Z axis cylinder is installed on the top of the traversing plate, and its drive end is connected with the bottom of the installation portion；

The quantity of the feeding Z axis lead column is a plurality of, the top of the traversing plate is mounted on, respectively positioned at the Z axis gas The relative both sides of cylinder；

The quantity of the feeding Z axis fairlead is a plurality of, and it includes fairlead mounting seat and body, the fairlead mounting seat one Bodyization is located at one end of the body；

The fairlead mounting seat is installed on the top of the installation portion, top and bottom of the body through the installation portion Portion, the Z axis lead column is placed on the body；

Dust cover is also included, it is located at the top of the feeding X-axis installing plate, and the feeding X-axis drivewheel is contained in In it, the dust cover is provided with belt avoiding hollow groove towards that side of the feeding X-axis Belt Centre；

Feeding X-axis deep floor is also included, its quantity is two, and at the top of two pieces of feeding X-axis deep floors institute is installed on The bottom of feeding X-axis installing plate is stated, between two pieces of feeding X-axis deep floors assistant reinforcement post is fixedly connected with, it is described to send One end of material X-axis deep floor is connected with the side wall of the installing rack；

The feeding X-axis guide rail is drum guide rail；

Installation groove is provided with the top of the feeding portion, the sheet glass locating piece is slidably mounted at the peace by connector Dress groove, between the installation groove and the sheet glass locating piece the second elastic component is provided with；

Second elastic component is spring, and its quantity is four, and the sheet glass locating piece bottom and the installation groove top set Mounting hole site is equipped with, the two ends of the spring are respectively arranged in the sheet glass locating piece bottom and the installation groove top In the mounting hole site in portion.

10. a kind of four stations make-up machine according to claim 1, it is characterised in that：The squeeze-film mechanism include installing rack, Vacuum (-tight) housing, pressing mold, vacuum (-tight) housing lowering or hoisting gear, pressing mold lowering or hoisting gear；

The vacuum (-tight) housing bottom is provided with opening, and the vacuum (-tight) housing lowering or hoisting gear is used to drive the vacuum (-tight) housing to lift so as to can cover State film pressing jig in residence；

The pressing mold is located at the inside of the vacuum (-tight) housing, and is connected with the drive end of the vacuum (-tight) housing lowering or hoisting gear, described Vacuum (-tight) housing lowering or hoisting gear drives the pressing mold to move up and down in the inside of the vacuum (-tight) housing；The pressing mold is provided with vacuum Absorption gas circuit structure, to adsorb sheet glass；

The vacuum (-tight) housing lowering or hoisting gear and pressing mold lowering or hoisting gear are respectively vacuum (-tight) housing lift cylinder and pressing mold lifting air Cylinder；

The installing rack includes side plate, top board and reinforced shaft；

The quantity of the side plate is two, and its side is provided with recess；

The top board is connected to the top of two pieces of recesses, and the quantity of the reinforced shaft is a plurality of, is all connected to described in two pieces Between side plate；

The vacuum (-tight) housing is installed between two blocks of side plates located at the lower section of the top board, the vacuum (-tight) housing lift cylinder, its Drive end is connected with the side wall of the vacuum (-tight) housing；

The pressing mold lift cylinder is installed on the top of the top board, top and institute of its drive end through the vacuum (-tight) housing State pressing mold connection；

Also include vacuum (-tight) housing lead column, vacuum (-tight) housing fairlead, pressing mold lead column and pressing mold fairlead；

The top for having vacuum (-tight) housing fairlead to be installed on the top board, one end of the vacuum (-tight) housing lead column is installed on described true Sky cover top and be slidingly disposed in the vacuum (-tight) housing fairlead；

The quantity of the pressing mold lead column and pressing mold fairlead is multiple；

The pressing mold fairlead is installed on the top of the top board, and the pressing mold lead column is slidingly disposed at described In pressing mold fairlead, one end of the pressing mold lead column through the vacuum (-tight) housing top and with the press-fitting mould Tool connection；

The pressing mold includes press mold top board and press mold base plate；

Press mold mounting of roof plate is in the top of the press mold base plate；

The press mold base plate is provided with press mold groove, and the edge of the press mold groove is provided with curved indentations；

The two ends of the press mold groove are provided with and the detent；

The press mold groove is provided with crisscross absorption gas circuit groove；

Absorption trachea is also included, it is located at the press mold top board and is communicated to the absorption gas circuit groove；

Also include heating rod and temperature sensor；

The two ends of the press mold top board are provided with heating rod and install groove, and the heating rod is installed on the press mold top board, its one end Install in groove, and towards the top curved of the vacuum (-tight) housing positioned at the heating rod；

The temperature sensor is installed on the press mold top board, and the side wall of the vacuum (-tight) housing is provided with vacuum and takes out hole, another adjacent Side wall be provided with four perforates.