CN205096730U - Laser processing system of light guide plate - Google Patents

Abstract

The utility model discloses a laser processing system of light guide plate, include: the frame, it includes workstation and support frame, the shaping has first through -hole and second through -hole on the workstation, install cutting unit on the support frame, through first through -hole runs through perpendicularly the workstation just is located vacuum adsorption plate unit under the cutting unit, install the below of workstation just is located vacuum adsorption plate unit one side is used for transporting to material receiving box's oscillation unit cutting the back light guide plate, install be used for on the workstation absorbing the dust absorption unit of back sweeps of adhesion on the light guide plate cuts, and install be used for on the bottom face of workstation with vacuum adsorption plate is last cut the back light guide plate push away to oscillation unit the 2nd last cylinder unit. The utility model discloses can effectively reduce area, the small and exquisite compactness of structure, it can reduce systematic area convenient to use, the small and exquisite compactness of structure, convenient to use.

Description

A kind of laser-processing system of light guide plate

Technical field:

The utility model relates to laser cutting technique field, relates to a kind of laser-processing system for processing light guide plate in particular.

Background technology:

Along with the development in electronics industry epoch, the application of light guide plate is more and more extensive, the laser-processing system of existing light guide plate generally includes laser cutting unit, Timing Belt transmission unit, dust removing units, once link together by operation between unit, this kind of laser-processing system floor space is large, structure is not compact, the inconvenience operated comparatively.

Utility model content:

The purpose of this utility model is exactly the deficiency for prior art, and provides a kind of laser-processing system of light guide plate, and it can effectively reduce floor space, and compact structure is compact, easy to use.

Technology solution of the present utility model is as follows: a kind of laser-processing system of light guide plate, comprise: frame, it comprises workbench and is arranged on the bracing frame on the top end face of described workbench, described workbench forms the first through hole and the second through hole, described first through hole is positioned at immediately below support frame as described above; Be arranged on the cutter unit on support frame as described above; Vertically run through described workbench by described first through hole and be positioned at the vacuum suction Slab element immediately below described cutter unit, it comprises the first cylinder be positioned at below described workbench and the vacuum adsorption plate be arranged on the piston rod of described first cylinder, and described vacuum adsorption plate is connected with external air source by gas circuit; Be arranged on the below of described workbench and be positioned at described vacuum suction Slab element side for will rear light guide plate cut be transported to the vibration unit of pulp-collecting box; Be arranged on described workbench for cutting the cleaner unit of the scrap that rear light guide plate adheres to described in absorbing, it comprise detachably be arranged on described workbench bottom face on and be positioned at the laying dust box below described second through hole, the filter being fastened on described second through hole, the blower fan that is connected with the port of export of described filter by pipeline, described laying dust box is the structure of top end face and a lateral opening, and the lateral opening end of described laying dust box flushes with a sidewall of described first through hole; And for being pushed into the second piston-cylinder unit on described vibration unit by cutting rear light guide plate described on described vacuum adsorption plate on the bottom face being arranged on described workbench; Wherein, described vacuum suction Slab element, described vibration unit and described second piston-cylinder unit are positioned on collinear extended line, and described vibration unit and described second piston-cylinder unit lay respectively at the both sides of described vacuum suction Slab element.

Preferred as technique scheme, described cutter unit comprises four and is fixedly installed on line slide rail on support frame as described above and four laser cutters be slidably arranged on described line slide rail, wherein, each described line slide rail is provided with a described laser cutter, described line slide rail joins end to end formation one rectangular shape.

Preferred as technique scheme, described vibration unit comprises a delivery board and and is arranged on vibrating device below described delivery board, and wherein said delivery board is towards the inclined position of described pulp-collecting box, and angle of inclination is 30 °.

Preferred as technique scheme, described second piston-cylinder unit comprises and is fixedly installed on the second cylinder on the bottom face of described workbench, the push pedal be arranged on the piston rod of described second cylinder by the second cylinder mount pad, wherein, the direction of motion of the piston rod of described second cylinder is perpendicular to the direction of motion of the piston rod of described first cylinder.

Preferred as technique scheme, is also provided with auxiliary described second piston-cylinder unit and cuts rear light guide plate be transported to driving roller unit on described vibration unit by described between described vacuum suction Slab element and described vibration unit.

Preferred as technique scheme, described driving roller unit comprises the motor be connected with described live-roller with the column between described vibration unit, the live-roller be articulated on described column, output shaft at described vacuum suction Slab element, wherein, described motor is arranged on described column by motor cabinet.

Preferred as technique scheme, the top end face of described laying dust box forms fixture block, the bottom face of described workbench forms the groove matched with described fixture block; The lateral wall of described laying dust box forms one handle.

Preferred as technique scheme, described first through hole is rectangular opening, and its size is identical with described vacuum adsorption plate size.

The beneficial effects of the utility model are:

1) in the utility model, cutter unit is arranged on the top of workbench, cleaner unit is installed on the table, the delivery unit comprising vacuum suction Slab element, vibration unit and the second piston-cylinder unit is arranged on the below of workbench, namely described cutter unit, described delivery unit and described cleaner unit realize three-dimensional setting, make use of space resources fully, effectively reduce the floor space of system, compact structure is compact, easy to use; Wherein, the light guide plate after cutting can transport downwards by described vacuum suction Slab element; The rear light guide plate that cuts on described vacuum suction Slab element can push on described vibration unit by described second piston-cylinder unit; Described vibration unit is used for cutting rear light guide plate and is delivered to pulp-collecting box;

2) cutter unit comprises four and is fixedly installed on line slide rail on support frame as described above and four laser cutters be slidably arranged on described line slide rail, four laser cutters can work simultaneously, namely can cut the four edges of light guide plate, working (machining) efficiency is high simultaneously.

Accompanying drawing illustrates:

The following drawings is only intended to schematically illustrate the utility model and explain, does not limit scope of the present utility model.Wherein:

Fig. 1 is perspective view of the present utility model;

Fig. 2 is the structural representation of main apparent direction of the present utility model;

Fig. 3 is decomposition texture schematic diagram of the present utility model;

Fig. 4 is the structural representation of cutter unit of the present utility model;

Fig. 5 is the structural representation of laying dust box of the present utility model;

Fig. 6 is the structural representation of vacuum suction Slab element of the present utility model;

Fig. 7 is the structural representation of the second piston-cylinder unit of the present utility model;

Fig. 8 is the structural representation of vibration unit of the present utility model and driving roller unit;

Structural representation when Fig. 9 is the utility model dust suction;

Structural representation when Figure 10 is the utility model promotion light guide plate.

In figure, 10, frame; 11, workbench; 111, the first through hole; 112, the second through hole; 12, bracing frame; 20, cutter unit; 21, line slide rail; 22, laser cutter; 30, vacuum suction Slab element; 31, vacuum adsorption plate; 32, the first cylinder; 40, vibration unit; 41, vibrating device; 42, delivery board; 50, cleaner unit; 51, laying dust box; 511, fixture block; 512, handle; 52, filter; 53, blower fan; 60, the second piston-cylinder unit; 61, the second cylinder mount pad; 62, the second cylinder; 63, push pedal; 70, driving roller unit; 71, column; 72, live-roller; 73, motor; 80, rear light guide plate is cut.

Detailed description of the invention:

Embodiment: by particular specific embodiment, embodiment of the present utility model is described below, those skilled in the art can understand other advantages of the present utility model and effect easily by content disclosed in the present specification, " top " mentioned in the present embodiment, " below ", " top ", " bottom " etc. describe and define according to common meaning, such as, the direction definition of reference to gravitational, the direction of gravity is below, contrary direction is top, similarly up be top or top, in below is bottom or bottom, be also only to be convenient to describe and understand, and be not used to limit the enforceable scope of the utility model, the change of its relativeness or adjustment, under changing technology contents without essence, also when being considered as the enforceable category of the utility model.

See shown in Fig. 1 to Fig. 3, a kind of laser-processing system of light guide plate, comprise: frame 10, it bracing frame 12 comprising workbench 11 and be arranged on the top end face of described workbench 11, described workbench 11 forms the first through hole 111 and the second through hole 112, described first through hole 111 is positioned at immediately below support frame as described above 12, be arranged on the cutter unit 20 on support frame as described above 12, vertically run through described workbench 11 by described first through hole 111 and be positioned at the vacuum suction Slab element 30 immediately below described cutter unit 20, as shown in Figure 6, described vacuum suction Slab element 30 comprises the first cylinder 32 be positioned at below described workbench 11 and the vacuum adsorption plate 31 be arranged on the piston rod of described first cylinder 32, described vacuum adsorption plate 31 is connected with external air source (not shown) by gas circuit (not shown), described in the utility model, the first through hole 111 is rectangular opening, and its size is identical with described vacuum adsorption plate 31 size, be arranged on the below of described workbench 11 and be positioned at described vacuum suction Slab element 30 side for will rear light guide plate 80 cut be transported to the vibration unit 40 of pulp-collecting box (not shown), be arranged on described workbench 11 for cutting the cleaner unit 50 of the scrap that rear light guide plate 80 adheres to described in absorbing, it comprise detachably be arranged on described workbench 11 bottom face on and the laying dust box 51 be positioned at below described second through hole 112, be fastened on the filter 52 in described second through hole 112, by the blower fan 53 that pipeline is connected with the port of export of described filter 52, the lateral opening end of described laying dust box 51 flushes with a sidewall of described first through hole 111, as shown in Figure 5, described laying dust box 51 is the structure of top end face and a lateral opening, top end face forms fixture block 511, the bottom face of described workbench 11 forms the groove matched with described fixture block 511, the lateral wall of described laying dust box 51 forms one handle 512, the setting of described handle 512 can be convenient to the dismounting of described laying dust box 51, and for being pushed into the second piston-cylinder unit 60 on described vibration unit 40 by cutting rear light guide plate 80 described on described vacuum adsorption plate 31 on the bottom face being arranged on described workbench 11, wherein, described vacuum suction Slab element 30, described vibration unit 40 and described second piston-cylinder unit 60 are positioned on collinear extended line, and described vibration unit 40 and described second piston-cylinder unit 60 lay respectively at the both sides of described vacuum suction Slab element 30.

As shown in Figure 4, described cutter unit 20 comprises four and is fixedly installed on line slide rail 21 on support frame as described above 12 and four laser cutters 22 be slidably arranged on described line slide rail 21, wherein, each described line slide rail 21 is provided with a described laser cutter 22, described line slide rail 21 joins end to end formation one rectangular shape.Four laser cutters of the present utility model can work simultaneously, namely can cut the four edges of light guide plate simultaneously, effectively raise the working (machining) efficiency of light guide plate.

See shown in Fig. 2 and Fig. 8, described vibration unit 40 comprises a delivery board 42 and and is arranged on vibrating device 41 below described delivery board 42, wherein, described delivery board 42 is towards the inclined position of described pulp-collecting box, angle of inclination is 30 °, cuts the motion of rear light guide plate 80 described in the inclination angle of 30 ° is more conducive to.

As shown in Figure 7, described second piston-cylinder unit 60 comprises and is fixedly installed on the second cylinder 62 on the bottom face of described workbench 11, the push pedal 63 be arranged on the piston rod of described second cylinder 62 by the second cylinder mount pad 61, wherein, the direction of motion of the piston rod of described second cylinder 62 is perpendicular to the direction of motion of the piston rod of described first cylinder 32.In the utility model, between the bottom face of described push pedal 63 and the top end face of described vacuum adsorption plate 31, leave gap, avoid the bottom face of push pedal 63 described in use procedure contact with the top end face of described vacuum adsorption plate 31 and cause wearing and tearing.

As shown in Figure 2, auxiliary described second piston-cylinder unit 60 is also installed between described vacuum suction Slab element 30 and described vibration unit 40 cut rear light guide plate 80 be transported to driving roller unit 70 on described vibration unit 40 by described.As shown in Figure 8, the motor 73 that described driving roller unit 70 comprises the column 71 between described vacuum suction Slab element 30 with described vibration unit 40, the live-roller 72 be articulated on described column 71, output shaft are connected with described live-roller 72, wherein, described motor 73 is arranged on described column 71 by motor cabinet.

Operation principle, light guide plate to be processed is placed on described vacuum adsorption plate 31, open described vacuum adsorption plate 31, light guide plate to be processed is positioned at immediately below described cutter unit 20, then described laser cutter 22 is started, four laser cutters are provided with in the utility model, can cut four edges simultaneously, after having cut, describedly cut rear light guide plate 80 and be still attracted on described vacuum adsorption plate 31, described first cylinder 32 drives described vacuum adsorption plate 31 to move down with described cutting together with rear light guide plate 80, when described vacuum adsorption plate 31 is displaced downwardly to the position of Fig. 9, describedly cut the lateral opening place that rear light guide plate 80 is positioned at described laying dust box 51, the chip cut on rear light guide plate 80 described in sticking in process can be sucked in described laying dust box 51 by described blower fan 53, reach the effect of dedusting, be convenient to cut to described the processing that rear light guide plate 80 carries out subsequent handling, 32, first cylinder described in during dedusting can pause 5S, after the time of 5S, described first cylinder 32 continues to drive vacuum adsorption plate 31 to move down, after arriving the position in Figure 10, described first cylinder 32 stops moving down, described vacuum adsorption plate 31 removes absorption affinity, now, under the effect of described second cylinder 62 described push pedal 63 promote described in cut after light guide plate 80 move to described live-roller 72, cut rear light guide plate 80 described in final slips on described delivery board 42 under the effect of described live-roller 72 and described push pedal 63, finally, describedly cut rear light guide plate 80 and fall in described pulp-collecting box under the effect of described vibrating device 41.

Described embodiment in order to illustrative the utility model, but not for limiting the utility model.Any those skilled in the art all without prejudice under spirit of the present utility model and category, can modify to described embodiment, therefore rights protection scope of the present utility model, should listed by claim of the present utility model.

Claims (8)

1. a laser-processing system for light guide plate, is characterized in that, comprising:

Frame (10), it comprises workbench (11) and is arranged on the bracing frame (12) on the top end face of described workbench (11), described workbench (11) forms the first through hole (111) and the second through hole (112), described first through hole (111) is positioned at immediately below support frame as described above (12);

Be arranged on the cutter unit (20) on support frame as described above (12);

Vertically run through described workbench (11) by described first through hole (111) and be positioned at the vacuum suction Slab element (30) immediately below described cutter unit (20), it comprises the first cylinder (32) being positioned at described workbench (11) below and the vacuum adsorption plate (31) be arranged on the piston rod of described first cylinder (32), and described vacuum adsorption plate (31) is connected with external air source by gas circuit;

Be arranged on the below of described workbench (11) and be positioned at described vacuum suction Slab element (30) side for the vibration unit (40) that rear light guide plate (80) is transported to pulp-collecting box will be cut;

Be arranged on described workbench (11) and cut the cleaner unit (50) that rear light guide plate (80) goes up the scrap adhered to described in absorbing, it comprise detachably be arranged on described workbench (11) bottom face on and be positioned at described second through hole (112) below laying dust box (51), be fastened on the filter (52) in described second through hole (112), by the blower fan (53) that pipeline is connected with the port of export of described filter (52), the structure that described laying dust box (51) is top end face and a lateral opening, the lateral opening end of described laying dust box (51) flushes with a sidewall of described first through hole (111), and

For being pushed into the second piston-cylinder unit (60) on described vibration unit (40) by cutting rear light guide plate (80) described on described vacuum adsorption plate (31) on the bottom face being arranged on described workbench (11);

Wherein, described vacuum suction Slab element (30), described vibration unit (40) and described second piston-cylinder unit (60) are positioned on collinear extended line, and described vibration unit (40) and described second piston-cylinder unit (60) lay respectively at the both sides of described vacuum suction Slab element (30).

2. the laser-processing system of light guide plate according to claim 1, it is characterized in that: described cutter unit (20) comprises four and is fixedly installed on line slide rail (21) on support frame as described above (12) and four laser cutters (22) be slidably arranged on described line slide rail (21), wherein, each described line slide rail (21) is provided with a described laser cutter (22), described line slide rail (21) joins end to end formation one rectangular shape.

3. the laser-processing system of light guide plate according to claim 1, it is characterized in that: described vibration unit (40) comprises the vibrating device (41) that a delivery board (42) and is arranged on described delivery board (42) below, wherein said delivery board (42) is towards the inclined position of described pulp-collecting box, and angle of inclination is 30 °.

4. the laser-processing system of light guide plate according to claim 1, it is characterized in that: described second piston-cylinder unit (60) comprises and is fixedly installed on the second cylinder (62) on the bottom face of described workbench (11), the push pedal (63) be arranged on the piston rod of described second cylinder (62) by the second cylinder mount pad (61), wherein, the direction of motion of the piston rod of described second cylinder (62) is perpendicular to the direction of motion of the piston rod of described first cylinder (32).

5. the laser-processing system of light guide plate according to claim 1, is characterized in that: be also provided with auxiliary described second piston-cylinder unit (60) between described vacuum suction Slab element (30) and described vibration unit (40) and the described rear light guide plate (80) that cuts is transported to driving roller unit (70) on described vibration unit (40).

6. the laser-processing system of light guide plate according to claim 5, it is characterized in that: described driving roller unit (70) comprises the motor (73) being positioned at described vacuum suction Slab element (30) and being connected with described live-roller (72) with the column (71) between described vibration unit (40), the live-roller (72) be articulated on described column (71), output shaft, wherein, described motor (73) is arranged on described column (71) by motor cabinet.

7. the laser-processing system of light guide plate according to claim 1, it is characterized in that: the top end face of described laying dust box (51) forms fixture block (511), the bottom face of described workbench (11) forms the groove matched with described fixture block (511); The lateral wall of described laying dust box (51) forms one handle (512).

8. the laser-processing system of light guide plate according to claim 1, is characterized in that: described first through hole (111) is rectangular opening, and its size is identical with described vacuum adsorption plate (31) size.