CN203330832U - Composite type light guiding plate processing machine - Google Patents

Abstract

A composite type light guiding plate processing machine comprises a lathe table, a conveying device, a processing device and a control device, wherein the conveying device is arranged on the lathe table, and the control device is used for controlling the conveying device and the processing device. The processing device comprises a positioning polishing unit and a forming unit which are arranged at intervals. The control device comprises a program controller used for controlling the positioning polishing unit and a numerical value controller used for controlling the forming unit. The positioning polishing unit and the forming unit are integrated on the lathe table and do not need to be positioned and corrected again, and therefore operational time can be effectively shortened. The numerical value controller is used so that the forming unit can process specific structures at specific positions according to the processing procedures of the numerical value controller, and a light guiding plate can be processed more easily and conveniently.

Description

The composite light guide plate processing machine

Technical field

The utility model relates to a kind of processing machine, refers to especially a kind of composite light guide plate processing machine.

Background technology

Consult Fig. 1,2, TaiWan, China is announced No. M335349 " mirror finishing machine of Multifunctional multi " disclosed mirror finishing machine and is comprised: a board body 11, a bearing supply unit 12, and location and a gear unit 13.

This bearing supply unit 12 comprise one be arranged at this board body 11 slide rail 121, can along this slide rail 121 move and can vacuum suction the bearing table 122 of one LGP 100.

This location and gear unit 13 comprise the left servo motor 131 that lays respectively at these bearing table 122 left and right sides and a right servo motor 132, be connected with a left positioning cylinder 133 and a right positioning cylinder 134 on this left servo motor 131 and this right servo motor 132 respectively, be respectively a left polishing motor 135 and a right polishing motor 136 that this left servo motor 121 and this right servo motor 122 drive.

Utilize this bearing table 122 to drive this LGP 100 and move along this slide rail 121, coordinate this left and right polishing motor 135,136 two opposite sides of this LGP 100 to be carried out to polishing simultaneously.

But, this mirror finishing machine can only carry out comparatively simple linear pattern polishing operation to this LGP 100, if will carry out as the processing of anti-error structure this LGP 100, or the processing of inhomogeneous external form, need only not buy more extra board, and this LGP 100 changes between board, also need to reorientate, proofread and correct, therefore, also more time-consuming taking a lot of work in operation.

Summary of the invention

The purpose of this utility model is to provide in a kind of operation than the composite light guide plate processing machine of time and labour saving.

The utility model composite light guide plate processing machine, for a LGP is processed, this composite light guide plate processing machine comprises: a bed platform; A conveying device, be arranged on this platform and move along a predefined paths to drive this LGP; A processing unit (plant), comprise a polishing unit, location be positioned on this predefined paths, and one be positioned on this predefined paths and with this polishing unit, location forming unit separately; And a control device, comprise that one for controlling the program-controlled device of this polishing unit, location with this LGP lateral margin of polishing, reach one for controlling this forming unit to go out the numerical controller of ad hoc structure at this forming light guide plate.

The utility model composite light guide plate processing machine, this conveying device comprises a slide rail be arranged on this platform, one can adsorb this LGP and be subject to this program-controlled device control and slide and drive first absorption table that this LGP rotates in this slide rail, one with this first absorption table separately and controlled by this numerical controller and the second absorption table of being arranged at slidably this slide rail and can adsorbing this LGP, an and transfer unit, this transfer unit has one and is arranged at this platform and is positioned at the transfer frame between this polishing unit, location and this forming unit, and one relatively the short transverse of this platform move back and forth this LGP to be transferred load to the transfer sucker of this second absorption by this first absorption table.

The utility model composite light guide plate processing machine, this polishing unit, location have a support of the polishing across this predefined paths, two be arranged at movably on this polishing support and be positioned at these slide rail both sides and be subject to polishing motor that this program-controlled device controls, two polishing tools that are installed on respectively described polishing motor, two respectively the polishing dust leg, two of corresponding described polishing tool setting be connected with respectively in the Extension support of described polishing motor, and two locating racks that are installed on respectively on described Extension support and match location with the corner of this LGP.

The utility model composite light guide plate processing machine, this forming unit have one with this polishing support separately and across the shaped support of this predefined paths, two controlled by this numerical controller and are arranged at movably the moulding motor on this shaped support, two molding cutters that are installed on respectively described moulding motor, an and dust-collecting mechanism that the described molding cutter of correspondence arranges, this dust-collecting mechanism has the moulding dust-collecting box that a described molding cutter of correspondence arranges, two lower dust collecting pipes that lay respectively at this second absorption table below, and two moulding brushing tools that are arranged at respectively these moulding dust-collecting box both sides.

The utility model composite light guide plate processing machine, described composite light guide plate processing machine also comprises a take out device, this take out device comprises a material-taking rack that is arranged at this platform along this slide rail direction, reach one and can move back and forth relative to the short transverse of this platform and can move the feeding sucker by taking-up with the LGP by this second absorption table along this material-taking rack, the polishing support of this forming unit is to be positioned between this material-taking rack and this transfer frame.

The utility model composite light guide plate processing machine, this dust-collecting mechanism also has one and is installed on this shaped support and across the control of dust brushing tool of this predefined paths.

The beneficial effects of the utility model are: this polishing unit, location and this forming unit are integrated on this platform, not only without reorientating and proofreading and correct, and can effectively shorten the activity duration, coordinate and utilize this numerical controller, make this forming unit can be according to the procedure of this numerical controller, and mold specific structure in specific location, make the processing of this LGP more easy.

The accompanying drawing explanation

Fig. 1 is a top view, illustrates that TaiWan, China announces " mirror finishing machine of Multifunctional multi " new patent No. M335349;

Fig. 2 is a side view, aid illustration Fig. 1;

Fig. 3 is a side view, and a preferred embodiment of the utility model composite light guide plate processing machine is described;

Fig. 4 is a top view, aid illustration Fig. 3;

Fig. 5 is a side view, and polishing unit, the location of one in this preferred embodiment is described;

Fig. 6 is the opposite side view, and the forming unit in this preferred embodiment is described;

Fig. 7 is a top view, and the aspect of the polishing unit polishing one LGP both sides, location in this preferred embodiment is described;

Fig. 8 is a side view, aid illustration Fig. 7;

Fig. 9 is a top view, and the aspect of these the another both sides of LGP of polishing unit polishing, location in this preferred embodiment is described;

Figure 10 is a side view, and the aspect of this LGP of transfer unit transfer in this preferred embodiment is described;

Figure 11 is a side view, aid illustration Figure 10;

Figure 12 is a side view, and the aspect of this LGP of forming unit moulding in this preferred embodiment is described;

Figure 13 is the opposite side view, aid illustration Figure 12;

Figure 14 is a side view, and the start situation of the take out device in this preferred embodiment is described.

The specific embodiment

Below in conjunction with accompanying drawing and a preferred embodiment, the utility model is elaborated.

Consult Fig. 3,4, the preferred embodiment of the utility model composite light guide plate processing machine comprise conveying device 3 that a platform 2, is arranged at this platform 2, a pair of should conveying device 3 and be arranged at this platform 2 processing unit (plant) 4, a pair of should conveying device 3 and be arranged at the take out device 7 of this platform 2, and one for controlling the control device 8 of this conveying device 3, this processing unit (plant) 4 and this take out device 7.

This conveying device 3 comprise first an absorption table 32 that is arranged at that slide rail 31, on this platform 2 can move along a predefined paths S with this slide rail 31, with this first absorption table 32 separately and along this predefined paths S and on this slide rail 31 mobile the second absorption table 33, and one adsorb the transfer unit 34 of 33 a corresponding setting with this first absorption table 32 and this second.

This processing unit (plant) 4 comprises that one is positioned at the polishing unit, location 5 on this predefined paths S, and one be positioned at this predefined paths S upper and with this polishing unit, location 5 forming unit 6 separately.This transfer unit 34 is to be positioned at 6 of this polishing unit, location 5 and this forming units.

This control device 8 comprises that one for controlling the program-controlled device 81 of this polishing unit, location 5, this first absorption table 32 and this transfer unit 34, reaches one for controlling the numerical controller 82 of this forming unit 6 and this second absorption table 33.

This take out device 7 comprises that one is arranged at the material-taking rack 71 of this platform 2 along these slide rail 31 directions, and one controlled and the feeding sucker 72 that can move back and forth relative to the short transverse of this platform 2 and can move along this material-taking rack 71 by this numerical controller 82.

This transfer unit 34 has one and is arranged at this platform 2 and is positioned at this polishing unit, location 5 and the transfer frame 341 of 6 of this forming units, and one controlled by this program-controlled device 81 and the short transverse of this platform 2 moves back and forth relatively transfer sucker 342.This forming unit 6 is to be positioned at 71 of this transfer frame 341 and this material-taking racks.

Consult Fig. 3,4,5, this polishing unit, location 5 has that a polishing support across this predefined paths S 51, two is arranged on this polishing support 51 movably and the polishing motor 52, two that is positioned at these slide rail 31 both sides and controlled by this program-controlled device 81 is installed on respectively the polishing tool 53 of described polishing motor 52, the Extension supports 55 that the two polishing dust legs 54, two that corresponding described polishing tool 53 arranges respectively are connected with respectively in described polishing motor 52 and the two L-type locating racks 56 that are installed on respectively on described Extension support 55.

Consult Fig. 3,4,6, this forming unit 6 has one controlled by this numerical controller 82 and is arranged at movably the molding cutter 63 that moulding motor 62, two on this shaped support 61 is installed on respectively described moulding motor 62 separately and across the shaped support 61 of this predefined paths S, two with this polishing support 51, and the dust-collecting mechanism 64 that arranges of a corresponding described molding cutter 63.

This dust-collecting mechanism 64 has the moulding brushing tool 643 that lower dust collecting pipe 642, two that moulding dust-collecting box 641, two that a corresponding described molding cutter 63 arranges lays respectively at these the second absorption table 33 belows is arranged at respectively these moulding dust-collecting box 641 both sides, and one is installed on this shaped support 61 and across the control of dust brushing tool 644 of this predefined paths S.

Consult Fig. 7,8,9, during practical application, be to utilize this first absorption table 32 absorption one LGPs 200, coordinate described L-type locating rack 56 to abut against this LGP 200 of location, then, it is mobile along this predefined paths S (seeing Fig. 4) that this first absorption table 32 drives this LGP 200 again, utilization is installed on 53 pairs of these LGP 200 both sides of polishing tool of described polishing motor 52 and carries out polishing, and described polishing dust leg 54 can aspirate the dust that polishing produces.

Then, this the first absorption table 32 can move to position shown in Fig. 7 again, and this first absorption table 32 can drive these LGP 200 half-twists, move to position shown in Fig. 9, then, coordinate again described L-type locating rack 56 to abut against this LGP 200 of location, next, it is mobile along this predefined paths S (seeing Fig. 4) that this first absorption table 32 drives this LGP 200 again, the polishing tool 53 (seeing Fig. 8) that utilization is installed on described polishing motor 52 carries out polishing to the another both sides of this LGP 200, so just can complete the polishing operation of this LGP 200.

Consult Figure 10,11, then first utilize this first LGP 200 adsorbed on table 32 of transfer sucker 342 absorption of this transfer unit 34, then, this the first absorption table 32 just can move to position as shown in Figure 7 again, polishing operation is next time carried out in preparation, and this second absorption table 33 moves to the below of this transfer sucker 342, now, this transfer sucker 342 is placed in this LGP 200 with regard to moving down on this second absorption table 33, and utilizes this second absorption table 33 these LGPs 200 of absorption.

Consult Figure 12,13, then utilize this numerical controller 82 to control this second absorption table 33 mobile along this predefined paths S (seeing Fig. 4), drive described moulding motor 62 to move along this shaped support 61 simultaneously, utilize 63 pairs of these LGPs 200 of described molding cutter to carry out processing and forming, be equipped with in the described moulding brushing tool 643 of these moulding dust-collecting box 641 both sides and brush dust or the chip residued on this LGP 200, and aspirate dust or the chip of processing and forming with this moulding dust-collecting box 641 and described lower dust collecting pipe 642, keep the cleanliness factor of this LGP 200.

Consult Figure 14, after processing and forming finishes, this second absorption table 33 can move towards these material-taking rack 71 directions along this predefined paths S (seeing Fig. 4) with this LGP 200, now, be installed on this shaped support 61 (seeing Figure 13) upper and can again brush across the control of dust brushing tool 644 (seeing Figure 13) of this predefined paths S (seeing Fig. 4) dust or the chip residued on this LGP 200, the LGP 200 of this second absorption table 33 of feeding sucker 72 absorption that recycling can move along this material-taking rack 71, to take out this LGP 200.

In sum, the utility model composite light guide plate 200 processing machines are integrated in this polishing unit, location 5 on this platform 2 with this forming unit 6, not only without reorientating and proofreading and correct, and can effectively shorten the activity duration, coordinate and utilize this numerical controller 82, make this forming unit 6 can be according to the procedure of this numerical controller 82, and mold specific structure in specific location, make the processing of this LGP 200 more easy.

Claims (6)

1. a composite light guide plate processing machine, for a LGP is processed, is characterized in that this composite light guide plate processing machine comprises:

A bed platform;

A conveying device, be arranged on this platform and move along a predefined paths to drive this LGP;

A processing unit (plant), comprise a polishing unit, location be positioned on this predefined paths, and one be positioned on this predefined paths and with this polishing unit, location forming unit separately; And

A control device, comprise that one for controlling the program-controlled device of this polishing unit, location with this LGP lateral margin of polishing, reaches one for controlling this forming unit to go out the numerical controller of ad hoc structure at this forming light guide plate.

2. composite light guide plate processing machine according to claim 1, it is characterized in that: this conveying device comprises a slide rail be arranged on this platform, one can adsorb this LGP and be subject to this program-controlled device control and slide and drive first absorption table that this LGP rotates in this slide rail, one with this first absorption table separately and controlled by this numerical controller and the second absorption table of being arranged at slidably this slide rail and can adsorbing this LGP, an and transfer unit, this transfer unit has one and is arranged at this platform and is positioned at the transfer frame between this polishing unit, location and this forming unit, and one relatively the short transverse of this platform move back and forth this LGP to be transferred load to the transfer sucker of this second absorption by this first absorption table.

3. composite light guide plate processing machine according to claim 2, it is characterized in that: this polishing unit, location has a support of the polishing across this predefined paths, two polishing motors that are arranged at movably on this polishing support and are positioned at these slide rail both sides and controlled by this program-controlled device, two polishing tools that are installed on respectively described polishing motor, two polishing dust legs that the corresponding described polishing tool of difference arranges, two are connected with respectively in the Extension support of described polishing motor, and two locating racks that are installed on respectively on described Extension support and match location with the corner of this LGP.

4. composite light guide plate processing machine according to claim 3, it is characterized in that: this forming unit have one with this polishing support separately and across the shaped support of this predefined paths, two controlled by this numerical controller and are arranged at movably the moulding motor on this shaped support, two molding cutters that are installed on respectively described moulding motor, an and dust-collecting mechanism that the described molding cutter of correspondence arranges, this dust-collecting mechanism has the moulding dust-collecting box that a described molding cutter of correspondence arranges, two lower dust collecting pipes that lay respectively at this second absorption table below, and two moulding brushing tools that are arranged at respectively these moulding dust-collecting box both sides.

5. composite light guide plate processing machine according to claim 4, it is characterized in that: described composite light guide plate processing machine also comprises a take out device, this take out device comprises a material-taking rack that is arranged at this platform along this slide rail direction, reach one and can move back and forth relative to the short transverse of this platform and can move the feeding sucker taken out with the LGP by this second absorption table along this material-taking rack, the polishing support of this forming unit is to be positioned between this material-taking rack and this transfer frame.

6. composite light guide plate processing machine according to claim 4 is characterized in that: this dust-collecting mechanism also has one and is installed on this shaped support and across the control of dust brushing tool of this predefined paths.

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