CN203923019U - The superimposed equipment of sheet glass - Google Patents

Abstract

The utility model relates to display screen to be made, provide a kind of sheet glass superimposed equipment, comprise pedestal, described pedestal is provided with the first slide rail and is located at the glue applying mechanism directly over described the first slide rail, on described the first slide rail, be slidably equipped with for adsorbing the first platform of sheet glass and for ordering about described the first platform switching mechanism, on described pedestal, be also provided with overturn after the horizontal pressing of described the first platform and for adsorb the second platform of sheet glass and after described the first platform upset for making to be positioned at sheet glass on described the first platform and being positioned at the sheet glass contraposition contraposition accurately mechanism on described the second platform, described the second platform is positioned on the extended line of described the first slide rail.Superimposed equipment of the present utility model can be an integral body by some sheet glass successively cementation laminated, and in follow-up cutting and edging technique, this integral body can be so that each sheet glass synchronous processing, thereby can greatly improve the working efficiency that display screen is made.

Description

The superimposed equipment of sheet glass

Technical field

The utility model relates to display screen to be made, and relates in particular to the superimposed equipment of a kind of sheet glass.

Background technology

Along with the fast development of smart mobile phone and panel computer, the display screen of electronics, except having Presentation Function, can also carry out touch operation.For this touch display screen, it is mainly comprised of touch panel and indicating template two portions, adopts gummed to connect between the two.Touch panel is glass-plate structure, when making, traditional way is a larger-size sheet glass to be divided into the sheet glass of some touch panel desired size sizes, then the edge of the sheet glass after each cutting is carried out to edging processing, and make efficiency is lower.

Utility model content

The purpose of this utility model is the superimposed equipment of gram sheet glass, is intended to for solving the lower problem of existing touch panel efficiency when cutting edging.

For solving the problems of the technologies described above, the technical solution of the utility model is: provide a kind of sheet glass superimposed equipment, comprise pedestal, described pedestal is provided with the first slide rail and is located at the glue applying mechanism directly over described the first slide rail, on described the first slide rail, be slidably equipped with for adsorbing the first platform of sheet glass and for ordering about described the first platform switching mechanism, on described pedestal, be also provided with overturn after the horizontal pressing of described the first platform and for adsorb the second platform of sheet glass and after described the first platform upset for making to be positioned at sheet glass on described the first platform and being positioned at the sheet glass contraposition contraposition accurately mechanism on described the second platform, described the second platform is positioned on the extended line of described the first slide rail.

Further, in described pedestal, be provided with and be positioned under described the second platform and for regulating described the second podium level so that the Z axis regulating mechanism of described the first platform and the horizontal pressing of described the second platform.

Particularly, described Z axis regulating mechanism comprises and is located at first skewback on described pedestal with the first scarp, is located on described the first scarp and for supporting strut member and the actuator for regulating described strut member to slide along described the first scarp of described the second platform.

Further, be also provided with the second slide rail on described pedestal, the projection on described the first scarp vertical direction is positioned on described the second slide rail, and described the first skewback is slidedly arranged on described the second slide rail under the effect of described actuator.

Particularly, described the first scarp is provided with the chute arranging along its direction, and described strut member has the sliding part sliding along described chute under the promotion of described actuator.

Particularly, described strut member is the second skewback, and described the second skewback has with the second scarp of described the first scarp laminating and for supporting the horizontal plane of described the second platform.

Particularly, described actuator comprises the drive-motor being fixedly arranged on described pedestal and the screw rod that is ordered about rotation by described drive-motor, and described screw rod is threaded with described the first skewback, and described screw rod is parallel to described the second slide rail.

Further, described pedestal is provided with the 3rd slide rail being positioned at directly over described the first slide rail, and described glue applying mechanism is slidedly arranged on described the 3rd slide rail.

Further, on described pedestal, be provided with for accepting the plastic structure that connects of described glue applying mechanism surplus glue, described in connect plastic structure be positioned at described glue applying mechanism movement locus under.

Particularly, described contraposition mechanism comprises for measuring the imaging device of sheet glass on described the first platform and the sheet glass position on described the second platform and regulating sheet glass displacement on described the first platform so that the sheet glass on described the first platform and the sheet glass contraposition on described the second platform horizontal shift regulating part accurately after upset according to described imaging device.

The utlity model has following technique effect:

During superimposed equipment work of the present utility model, first first sheet glass is adsorbed on the first platform, this sheet glass can be divided into polylith touch panel, the first platform overturns under switching mechanism effect, make first sheet glass downward, then directly over the first platform moves to the second platform along the first slide rail, the second platform contacts and adsorbs with first sheet glass, the first platform is removed adsorption and returns to and turn to raw state along the first slide rail first sheet glass, on the first platform, adsorb second sheet glass, the first platform moves under glue applying mechanism along the first slide rail, glue applying mechanism is carried out gluing processing to second glass pane surface, then the first platform overturns and makes first sheet glass and second sheet glass carry out contraposition processing by contraposition mechanism, directly over after contraposition accurately, the first platform moves to the second platform along the first slide rail, and first sheet glass and second sheet glass pressing are bonding, the first platform is removed the adsorption to second sheet glass, the first platform is along the first slide rail reposition and turn to raw state, on the first platform, adsorb the 3rd sheet glass, repeating successively aforesaid operations is adhered to the 3rd sheet glass on second sheet glass, so circulation can be on the second platform successively cementation laminated have multiple glazing plate.By this structure, by multiple pieces of glass plate cementation laminated, when follow-up cutting and edging processing, the superimposed sheet glass of polylith is cut and edging processing simultaneously, thereby can greatly increase the working efficiency that touch panel is made

Accompanying drawing explanation

Fig. 1 is the structural representation at the first visual angle of the superimposed equipment of sheet glass of the utility model embodiment;

Fig. 2 is the structural representation at the second visual angle of the superimposed equipment of sheet glass of Fig. 1;

Fig. 3 is the side-looking structural representation of the superimposed equipment of sheet glass of Fig. 1;

Fig. 4 is that the strut member of Z axis regulating mechanism of the superimposed equipment of sheet glass of Fig. 1 is the structural representation of the second skewback;

Fig. 5 is the structural representation that the strut member of Z axis regulating mechanism of the superimposed equipment of sheet glass of Fig. 1 has sliding part.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

Referring to Fig. 1-Fig. 3, the utility model embodiment provides a kind of sheet glass superimposed equipment, comprise pedestal 1, on pedestal 1, be provided with the first slide rail 2 and glue applying mechanism 3, this glue applying mechanism 3 is for generation of glue, glue is AB biliquid glue, it can solidify over time voluntarily, glue applying mechanism 3 be positioned at the first slide rail 2 directly over, on the first slide rail 2, be slidably equipped with the first platform 21 and switching mechanism 22, the first platform 21 is mainly used in adsorbing sheet glass 4, sheet glass 4 sizes are larger, it can be divided into the touch panel of polylith touch display screen, 22 of switching mechanisms are for first platform 21 that overturns, it can turn over turnback by the first platform 21, on the first platform 21, absorption has sheet glass 4, sheet glass 4 is towards top, in the first platform 21 upsets after switching mechanism 22 work, this sheet glass 4 downward, on pedestal 1, be also provided with the second platform 11 and contraposition mechanism 12, the second platform 11 is also for adsorbing sheet glass 4, and it is positioned on the extended line of the first slide rail 2, after the first platform 21 is overturn, the first platform 21 can along the first slide rail 2 move to the second platform 11 directly over, 12, contraposition mechanism is for the sheet glass 4 on contraposition the first platform 21 and the sheet glass 4 on the second platform 11, so that two sheet glass 4 exactitude positions.

In the present embodiment, during superimposed equipment work, first first block of sheet glass 4 plate is adsorbed on the first platform 21, then switching mechanism 22 work the first platform 21 upsets, first sheet glass 4 downward, the first platform 21 is positioned at directly over the second platform 11 along the first slide rail 2 to first platforms 21, the second platform 11 contacts with first sheet glass 4 and to its absorption, the absorption that the first platform 21 is removed first sheet glass 4 simultaneously, the first platform 21 is back to original position and overturns as raw state along the first slide rail 2, on the first platform 21, adsorb second sheet glass 4, then move under glue applying mechanism 3, glue applying mechanism 3 is to second sheet glass, 4 upper surface glue coatings, second sheet glass 4 of task be downward again for switching mechanism 22, by contraposition mechanism 12, control so that first sheet glass 4 and second sheet glass 4 exactitude position, usually, on four angles of each piece sheet glass 4, identify locating point, when contraposition, should guarantee that four locating points on two sheet glass 4 overlap to it, after contraposition accurately, directly over the first platform 21 moves to the second platform 11 along the first slide rail 2 again, now first sheet glass 4 vertically overlaps with second sheet glass 4, to bonding first sheet glass 4 of this pressing and second sheet glass 4, the adsorption that after bonding completing, the first platform 21 is removed second sheet glass 4, the first platform 21 is back to original position raw state, at the first platform 21, again adsorb the 3rd sheet glass 4, repeating aforesaid operations is adhered to the 3rd sheet glass 4 on second sheet glass 4, repeat successively superimposed operation, multiple pieces of glass plate 4 is superimposed as to an integral body.By this superimposed equipment, can be superimposed with successively the sheet glass 4 of 10-20 layer, then these superimposed sheet glass 4 are carried out to integral cutting, whole edging, thus can greatly improve the make efficiency of display screen.

Referring to Fig. 2-Fig. 4, further, one Z axis regulating mechanism 13 is also set on pedestal 1, this Z axis regulating mechanism 13 be positioned at the second platform 11 under, by Z axis regulating mechanism 13, can regulate the height of the second platform 11 so that horizontal pressing between the first platform 21 and the second platform 11.Usually, after the first platform 21 upsets, between two sheet glass 4, directly do not carry out bonding, now the position of the second platform 11 is lower slightly, between two sheet glass 4, there is certain difference of altitude, now can pass through Z axis regulating mechanism 13 so that the second platform 11 rises, and then two sheet glass 4 are bonding, certainly, after bonding completing, Z axis regulating mechanism 13 is controlled again the second platform 11 and is dropped to original position.Effect by this Z axis regulating mechanism 13 can so that, two sheet glass 4 are carrying out when bonding, both are conducive to glue and are uniformly distributed between two sheet glass 4 all in horizontality, are difficult for producing bubble when bonding, precision is higher.

Structure for Z axis regulating mechanism 13, it comprises the first skewback 131, strut member 132 and actuator 133, the first skewback 131 has the first inclination 1311, it is installed on pedestal, 132 of strut members are to be located in the first inclination 1311 for supporting the second platform 11, and 133 of actuators are for regulating strut member 132 to slide along the first inclination 1311.When actuator 133 orders about strut member 132 and moves upward along relative the first skewback 131 of the first inclination 1311, strut member 132 vertically rises, thereby jack-up the second platform 11 moves up, when in like manner relative the first skewback 131 of strut member 132 moves downward, strut member 132 drives the second platform 11 to decline.Usually, actuator 133 acts on the first skewback 131 its along continuous straight runs is moved, thereby relative the first inclination 1311 of strut member 132 is moved up and down, and then drive the second platform 11 to rise or decline, by the displacement in the first skewback 131XY plane, drive the displacement on strut member 132Z direction of principal axis, strut member 132 and the second displacement of platform 11 in XY plane do not change.To this, usually, on pedestal, be provided with the second slide rail 134, the first skewback 131 is slidedly arranged on this second slide rail 134, and the projection on the first skewback 131 vertical directions is just positioned on the second slide rail 134, the second slide rail 134 is laid along the length direction of the first skewback 131, and under the effect of actuator 133, the first skewback 131 moves along the second slide rail 134, and then orders about strut member 132 and rise or decline along the first inclination 1311.Z axis regulating mechanism 13 also can adopt other structure formation, such as being located on pedestal for supporting cylinder (not shown) of the second platform 11 etc.

Referring to Fig. 3-Fig. 5, further, the structure formation of strut member 132 also can be taked various structures form, one strut member 132 is the second skewback 132a, and it has with the second scarp 132a1 of the first scarp 131a1 laminating of the first skewback 131a and for the horizontal plane 132a2 of horizontal support the second platform 11.In this structure, frictional coefficient between the first scarp 131a1 and the second scarp 132a1 is less, under external force can relatively sliding, when the first skewback 131a moves along the second slide rail 134, make, between the first scarp 131a1 and the second scarp 132a1, relative displacement occurs, and then drive the second skewback 132a and the second platform 11 to rise or decline, the second skewback 132a adopts horizontal plane 132a2 to support the second platform 11 simultaneously, can guarantee the stationarity in the second platform 11 processes of rising or falling.In the another kind of structure formation of strut member 132, strut member 132b has sliding part 132b1, sliding part 132b1 can be roller particularly, on the first scarp 131b1 of the first skewback 131b, be provided with the chute 131b2 arranging along its length, sliding part 132b1 can slide along chute 131b2, when the first skewback 131b slides along the second slide rail 134, the sliding part 132b1 of strut member 132b is along chute 131b2 scroll-up/down.In the structure of these two kinds of strut members 132, under the effect of actuator 133, strut member 132 can more easily and between the first inclination 1311 of the first skewback 131 relatively move, and then realization adjusting at Z-direction top offset to the second platform 11, regulative mode is fairly simple, and has compared with stiff stability.

Particularly, actuator 133 comprises the drive-motor 1331 being fixedly arranged on pedestal and the screw mandrel 1332 that is ordered about rotation by drive-motor 1331, on the first skewback 131, offer threaded hole (not shown), between screw mandrel 1332 and this threaded hole, be threaded, and screw mandrel 1332 is parallel to the second slide rail 134.When drive-motor 1331 orders about screw mandrel 1332 rotation, between screw mandrel 1332 and threaded hole, there is relative displacement, because drive-motor 1331 is fixed on pedestal 1, threaded hole moves relative to pedestal, relative the second slide rail 134 of the first skewback 131 is subjected to displacement, and because screw mandrel 1332 is parallel to the second slide rail 134,1332 pairs of the first skewbacks 131 of screw mandrel are maximum along the reactive force in the second slide rail 134 directions.For actuator 133, can also adopt expansion link (not shown) structure, expansion link is fixedly connected with the first skewback 131, and the Telescopic by expansion link orders about the first skewback 131 and moves along the second slide rail 134.

Refer again to Fig. 1, further, on pedestal 1, can be provided with the 3rd slide rail 5, the three slide rails 5 be positioned at the first slide rail 2 directly over, glue applying mechanism 3 is slidedly arranged on the 3rd slide rail 5.The 3rd slide rail 5 is perpendicular to the first slide rail 2, because the size of sheet glass 4 is larger, adopting glue applying mechanism 3 on sheet glass 4 during glue coating, the first platform 21 moves along the first slide rail 2, glue applying mechanism 3 moves along the 3rd slide rail 5 simultaneously, can not form accumulation so that glue applying mechanism 3 is coated the glue on sheet glass 4 surfaces like this, glue distribution uniform, is conducive to the adhesive effect of subsequent glass sheets 4 when bonding.

Refer again to Fig. 2, further, on pedestal 1, arrange and connect plastic structure 14, this connect plastic structure 14 be positioned at glue applying mechanism 3 movement locus under.Connect particularly plastic structure 14 comprise a funnel 141 and be communicated with funnel 141 hold glue bucket 142, hold between glue bucket 142 and pedestal 1 and detachably install, the opening 1411 of funnel 141 be positioned at glue applying mechanism 3 movement locus under, when glue applying mechanism 3 is moved along the 3rd slide rail 5, the gum outlet 31 of glue applying mechanism 3 can be just over against the opening 1411 of funnel 141, certainly funnel 141 should depart from the first slide rail 2, prevents interference point gluing mechanism 3 glue coating on sheet glass 4.Because glue applying mechanism 3 is when being coated with sheet glass 4 surface, in its gum outlet 31, also may retain a small amount of glue, for preventing the waste of glue, also for fear of glue, drip the normal work that affects this superimposed equipment on pedestal 1 or the first slide rail 2, this can be moved to glue applying mechanism 3 to be connect directly over plastic structure 14 along the 3rd slide rail 5, the unnecessary glue of glue applying mechanism 3 can drip in funnel 141, then deposits in and hold in glue bucket 142 along funnel 141.

Referring to Fig. 1 and Fig. 2, for contraposition mechanism 12, it mainly comprises imaging device 121 and horizontal shift regulating part 122, imaging device 121 comprises that several CCD (charge coupled cell) camera 1211 is to determine the position that is identified in each locating point on two bonding sheet glass 4 of needs, then the position horizontal adjustment that horizontal shift regulating part 122 shows according to each CCD camera 1211 is positioned at sheet glass 4 on the first platform 21 or the sheet glass 4 on the second platform 11, and then while making directly over the first platform 21 moves to the second platform 11, each locating point on two sheet glass 4 one by one vertically upper coincidence of correspondence is that two sheet glass 4 overlap completely.122 of horizontal shift regulating parts are to comprise actuator, actuator can be for regulating the sheet glass 4 on the first platform 21, also can be for regulating the sheet glass 4 on the second platform 11, it is example that the actuator of take regulates the sheet glass 4 of the second platform 11, actuator can regulate separately respectively the second platform 11 X-axis of upper glass plates 4 or displacement of Y-axis, it also can regulate the displacement of X-axis and Y-axis simultaneously, now sheet glass 4 is done rotation by a small margin, this is realized to the adjusting of these sheet glass 4 horizontal planes and angle by actuator.Usually, a part of CCD camera 1211 is located to the below of the first platform 21 for surveying the position of sheet glass 4 each locating points of its absorption after the first platform 21 upsets, for avoiding this part CCD camera 1211, interfere the upset of the first platform 21, this CCD camera 1211 is located to the below of the first platform 21 starting positions, switching mechanism 22 overturns after moving a certain distance along the first slide rail 2 again, or overturn in 3 places in glue applying mechanism, after sheet glass 4 glue coating upsets to this on the first platform 21, the first platform 21 also should first be back to starting position along the first slide rail 2 and carry out contraposition adjusting.

For switching mechanism 22, it mainly comprises drive-motor 221, rotating shaft 222 and locking piece 223, this three is all located on an erecting frame 23, this erecting frame 23 can slide along the first slide rail 2, the first platform 21 levels are installed on this erecting frame 23, and rotating shaft 222 is fixedly connected with the first platform 21, drive-motor 221 orders about rotating shaft 222 rotations, and then drive the first platform 21 rotations by rotating shaft 222, so that the first platform 21 and the second platform 11 pressings, or return back to raw state by stitching state, 223 of locking pieces are for play the effect of locking the first platform 21 when the first platform 21 rotates to the second platform 11 and in horizontality, prevent that rocking by a small margin from appearring in the first platform 21.Because the sheet glass 4 being adsorbed on the first platform 21 is coated with glue, at two sheet glass 4 when bonding, owing to thering is glue between the two, and be not uniformly distributed, after the second platform 11 risings and the first platform 21 pressings, the second platform 11 likely can produce reactive force upwards so that the first platform 21 rotates not in horizontality, and then cause the glue between two sheet glass 4 not to be evenly distributed, and in the present embodiment, by setting up locking piece 223 so that the rotating shaft 222 when horizontality of the first platform 21 can not rotate, guarantee the stable of the first platform 21 horizontalitys, for locking piece 223, can adopt a pair of locking cylinder acting in rotating shaft 222, both are oppositely arranged.

The foregoing is only the utility model preferred embodiment; its structure is not limited to the above-mentioned shape of enumerating; all any modifications of doing within spirit of the present utility model and principle, be equal to and replace and improvement etc., within all should being included in protection domain of the present utility model.

Claims (10)

1. the superimposed equipment of sheet glass, comprise pedestal, described pedestal is provided with the first slide rail and is located at the glue applying mechanism directly over described the first slide rail, it is characterized in that: on described the first slide rail, be slidably equipped with for adsorbing the first platform of sheet glass and for ordering about described the first platform switching mechanism, on described pedestal, be also provided with overturn after the horizontal pressing of described the first platform and for adsorb the second platform of sheet glass and after described the first platform upset for making to be positioned at sheet glass on described the first platform and being positioned at the sheet glass contraposition contraposition accurately mechanism on described the second platform, described the second platform is positioned on the extended line of described the first slide rail.

2. the superimposed equipment of sheet glass as claimed in claim 1, is characterized in that: in described pedestal, be provided with and be positioned under described the second platform and for regulating described the second podium level so that the Z axis regulating mechanism of described the first platform and the horizontal pressing of described the second platform.

3. the superimposed equipment of sheet glass as claimed in claim 2, is characterized in that: described Z axis regulating mechanism comprises to be located at first skewback on described pedestal with the first scarp, to be located on described the first scarp and for supporting strut member and the actuator for regulating described strut member to slide along described the first scarp of described the second platform.

4. the superimposed equipment of sheet glass as claimed in claim 3, it is characterized in that: on described pedestal, be also provided with the second slide rail, projection on described the first scarp vertical direction is positioned on described the second slide rail, and described the first skewback is slidedly arranged on described the second slide rail under the effect of described actuator.

5. the superimposed equipment of sheet glass as claimed in claim 4, is characterized in that: described the first scarp is provided with the chute arranging along its direction, and described strut member has the sliding part sliding along described chute under the promotion of described actuator.

6. the superimposed equipment of sheet glass as claimed in claim 4, is characterized in that: described strut member is the second skewback, and described the second skewback has with the second scarp of described the first scarp laminating and for supporting the horizontal plane of described the second platform.

7. the superimposed equipment of sheet glass as described in claim 4-6 any one, it is characterized in that: described actuator comprises the drive-motor being fixedly arranged on described pedestal and the screw rod that is ordered about rotation by described drive-motor, described screw rod is threaded with described the first skewback, and described screw rod is parallel to described the second slide rail.

8. the superimposed equipment of sheet glass as claimed in claim 1, is characterized in that: described pedestal is provided with the 3rd slide rail being positioned at directly over described the first slide rail, and described glue applying mechanism is slidedly arranged on described the 3rd slide rail.

9. the superimposed equipment of sheet glass as claimed in claim 1, is characterized in that: on described pedestal, be provided with for accepting the plastic structure that connects of described glue applying mechanism surplus glue, described in connect plastic structure be positioned at described glue applying mechanism movement locus under.

10. the superimposed equipment of sheet glass as claimed in claim 1, is characterized in that: described contraposition mechanism comprises for measuring the imaging device of sheet glass on described the first platform and the sheet glass position on described the second platform and regulating sheet glass displacement on described the first platform so that the sheet glass on described the first platform and the sheet glass contraposition on described the second platform horizontal shift regulating part accurately after upset according to described imaging device.